ageing-in-place : the integrated design of housing facilities for people with dementia ·...
TRANSCRIPT
![Page 1: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/1.jpg)
Ageing-in-place : the integrated design of housing facilities forpeople with dementiaCitation for published version (APA):Hoof, van, J. (2010). Ageing-in-place : the integrated design of housing facilities for people with dementia.Eindhoven: Technische Universiteit Eindhoven. https://doi.org/10.6100/IR685914
DOI:10.6100/IR685914
Document status and date:Published: 01/01/2010
Document Version:Publisher’s PDF, also known as Version of Record (includes final page, issue and volume numbers)
Please check the document version of this publication:
• A submitted manuscript is the version of the article upon submission and before peer-review. There can beimportant differences between the submitted version and the official published version of record. Peopleinterested in the research are advised to contact the author for the final version of the publication, or visit theDOI to the publisher's website.• The final author version and the galley proof are versions of the publication after peer review.• The final published version features the final layout of the paper including the volume, issue and pagenumbers.Link to publication
General rightsCopyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright ownersand it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.
• Users may download and print one copy of any publication from the public portal for the purpose of private study or research. • You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal.
If the publication is distributed under the terms of Article 25fa of the Dutch Copyright Act, indicated by the “Taverne” license above, pleasefollow below link for the End User Agreement:www.tue.nl/taverne
Take down policyIf you believe that this document breaches copyright please contact us at:[email protected] details and we will investigate your claim.
Download date: 01. Jun. 2020
![Page 2: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/2.jpg)
![Page 3: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/3.jpg)
![Page 4: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/4.jpg)
Ageing-in-place The integrated design of housing facilities
for people with dementia PROEFSCHRIFT ter verkrijging van de graad van doctor aan de Technische Universiteit Eindhoven, op gezag van de rector magnificus, prof.dr.ir. C.J. van Duijn, voor een commissie aangewezen door het College voor Promoties in het openbaar te verdedigen op maandag 8 november 2010 om 16.00 uur door Joost van Hoof geboren te Eindhoven
![Page 5: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/5.jpg)
Dit proefschrift is goedgekeurd door de promotoren: prof.ir. P.G.S. Rutten en prof.dr. M.S.H. Duijnstee Copromotor: dr. H.S.M. Kort
![Page 6: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/6.jpg)
“We must be realistic. Alzheimer’s is a disease of the mind, not of the home. The environment is not a treatment, and it offers no cure. But many problems
related to the disease can be lessened for the person with Alzheimer’s disease and especially for the caregiver by making changes in the home
environment.”
Mark L. Warner
Warner ML (2000) The complete guide to Alzheimer’s-proofing your home. Revised and updated edition. Purdue University Press, West Lafayette, IN, USA. pp 2-3
![Page 7: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/7.jpg)
![Page 8: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/8.jpg)
“Facts are stubborn things.”
Ronald W. Reagan 1911-2004
40th President of the United States of America
![Page 9: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/9.jpg)
Thesis committee Thesis supervisors prof.ir. P.G.S. Rutten, Eindhoven University of Technology prof.dr. Mia S.H. Duijnstee, Utrecht University dr. Helianthe S.M. Kort, Hogeschool Utrecht University of Applied Sciences Other members Rector Magnificus, Eindhoven University of Technology prof.dr. W.H. Gispen, Utrecht University prof.dr.ir. J.L.M. Hensen, Eindhoven University of Technology prof.ir. P.G. Luscuere, Delft University of Technology prof.dr. M.J. Verkerk, Eindhoven University of Technology
![Page 10: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/10.jpg)
![Page 11: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/11.jpg)
Dit proefschrift is mede mogelijk gemaakt door Hogeschool Utrecht This dissertation has been made possible by Hogeschool Utrecht University of Applied Sciences
De uitgave van dit proefschrift is mede mogelijk gemaakt door Alzheimer Nederland The publication of this dissertation has been made possible by the Dutch Alzheimer Society
A catalogue record is available from the Eindhoven University of Technology Library ISBN: 978-90-386-2326-9 Cover design: Jan Selen, Amsterdam Printed by the Eindhoven University Press This study was conducted at the Unit Building Physics & Systems, Department of Architecture, Building and Planning of Eindhoven University of Technology, and the Research Group of Demand Driven Care, Research Centre for Innovation in Health Care, Faculty of Health Care of Hogeschool Utrecht University of Applied Sciences De studie is uitgevoerd binnen de Unit Building Physics & Systems, Faculteit Bouwkunde, Technische Universiteit Eindhoven en het Lectoraat Vraaggestuurde Zorg, Kenniscentrum Innovatie van Zorgverlening, Faculteit Gezondheidszorg, Hogeschool Utrecht © J. van Hoof, Eindhoven, the Netherlands, 2010 Alle rechten voorbehouden. Niets uit deze uitgave mag worden verveelvoudigd, opgeslagen in een automatisch gegevensbestand, of openbaar gemaakt, in enige vorm of enige wijze, hetzij elektronisch, mechanisch, door fotokopieën, opnamen, of enig andere manier, zonder voorafgaande schriftelijke toestemming van de auteur.
![Page 12: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/12.jpg)
Table of contents Chapter 1: General introduction 11. Introduction 32. Dementia 53. The role of family carers 74. Appropriate housing facilities for dementia 95. The need for an integrated approach 106. Aims and objectives 107. Scientific relevance and innovation 118. Framework and methodology 129. Outline of the dissertation 16References 18
Chapter 2: Policy and practice 23Abstract 251. Introduction 252. Demographics in the EU 253. Care and welfare regimes in the EU: financing 274. Care and housing solutions for dementia 285. Policies on housing and care for dementia in the Netherlands 296. Discussion 37References 38
Chapter 3: Design principles and environmental interventions 41Abstract 431. Introduction 432. Methodology 443. Dementia and daily living: goals for environmental design 474. Environmental interventions for dementia 505. Discussion 726. Conclusions 79References 79
Chapter 4: Dementia and the indoor climate 85Abstract 871. Introduction 872. Methodology 883. Basic value 914. Functional value 955. Economic value 986. Synthesis of building systems 987. Conclusions 103References 104
Chapter 5: Dementia and the indoor environment 107Abstract 1091. Introduction 1092. Methodology 1103. Basic value 1134. Functional value 1195. Economic value 1216. Synthesis of building-related solutions in the domain of the basic value 1227. Conclusions 130References 131
![Page 13: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/13.jpg)
Chapter 6: Lighting intervention I: bright light (6,500 K) 137Abstract 1391. Introduction 1392. Methodology 1413. Results 1454. Discussion 1485. Conclusions 151References 151
Chapter 7: Lighting intervention II: dim light (17,000 K) 155Abstract 1571. Introduction 1572. Methodology 1583. Results 1664. Discussion 1705. Conclusions 173References 173
Chapter 8:Ambient intelligence, ethics and privacy 177Abstract 1791. Introduction 1792. Technology in the home environment 1793. What data are collected? 1804. Ethics and privacy 1815. Protecting privacy 1836. Responsibility and legislation 184References 185
Chapter 9: Ageing-in-place and ambient intelligence 187Abstract 1891. Introduction 1892. Methodology 1933. Results 2004. Discussion 2125. Conclusions 218References 219
Chapter 10: Integrated design of a conceptual home for people with dementia
223
Abstract 2251. Introduction 2252. Design of a ‘dementia home’: methodology 2263. Architectural and interior design for dementia 2304. The physical indoor environment 2335. Supportive technology 2346. Discussion 2357. Conclusions 237References 238
Chapter 11: General discussion 2411. Introduction 2432. Reflection on findings 2433. Methodological limitations and challenges 2554. Combined framework of ICF-MIBD 2575. Implications for society 2596. General conclusions 261References 263
Summary 269Samenvatting 273Acknowledgements 277About the author 279
![Page 14: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/14.jpg)
1
General introduction
1
![Page 15: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/15.jpg)
2
![Page 16: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/16.jpg)
General introduction 1. Introduction The majority of people with dementia live at home. These persons are in need of supportive housing facilities, which relate to their specific needs and that support ageing-in-place and care at home. People with dementia are a specific and growing group within the increasing group of older adults in the Western world. The number of older adults in the European Union is expected to increase significantly after 2010 and until around 2030 (+37.4%)1. Although the biological ageing process may take place in good health* and is not per se a precursor for dependency, it may also be accompanied by an increased risk of chronic diseases and impairments. The age-related changes in health and daily functioning, new visions on health care and the emancipation of older adults have impacted individual living requirements and have had consequences to the housing market and public housing task. National governments prioritise ageing-in-place - in combination with a sufficient amount of professional home care - as a strategy for maintaining autonomy, independence, sense of identity, and quality of life, as well as for maximising financial resources3 and for decreasing the demand for institutional care. 1.1. Ageing-in-place The vast majority of older people want to remain living in the community, as their own home and possessions represent what they have accomplished throughout life and provide a quality of life that has no substitute in an institutional setting3. Ageing-in-place can be defined as the ability to live in one’s own home for as long as confidently and comfortably possible. In order to enable older adults to age-in-place, (i) persons receive support for (instrumental) activities of daily living and physical activity. Also, homes are being modified in terms of (ii) architecture and (ii) technological solutions5. These interventions may, to a certain extent, facilitate ageing-in-place, depending on the health status of the occupants. In this dissertation, emphasis is on the architectural and technological solutions. As mentioned, ageing-in-place can be supported by accessible and adapted housing (Table 1). Unfortunately, there is a shortage in the number of such homes in many countries, including The Netherlands. In The Netherlands, there are only a mere 33,000 single-level homes with extensive home modification carried out (Table 1). According to de Klerk6, one out of every three older persons with severe physical limitations (100,000 persons) in The Netherlands does not live in a suitable dwelling. If all dwellings that are suitable for habitation by older adults were indeed occupied by such persons, there would still be a shortage of 40,000 dwellings. At the same time, about 70,000 dwellings that are classified as homes of older people are inhabited by other groups. Also, 50,000 older persons wish to move for health reasons, even if these health reasons do not yet pose limitations. This enables them to adjust to their new home environment in an early phase. De Klerk6 further concludes that about 25% of nursing home residents might be able to age-in-place in the community. Given these figures, which represent demand and supply, it is important to consider adapting dwellings of older adults more than ever before. An analysis by The Netherlands Ministry of Housing, Spatial Planning and the Environment (Ministerie van VROM)7 (Table 2) showed that the housing conditions of older persons differ only lightly between urban and rural locations. Particularly in terms of impairments and disabilities, older adults do not comprise a homogeneous population. The existing dwelling stock is not sufficiently adjusted in order to be appropriate for persons with a multitude of diseases and disorders, of which older adults with dementia make up a significant and growing group. Contrary to popular belief, about two thirds of the people with dementia in
* Health is a state of complete physical, mental and social well-being and not merely the absence of disease or infirmity2.
3
![Page 17: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/17.jpg)
The Netherlands live at home†, where they are, to a large extent, dependent on family care which is supplemented by professional care8. Standard home modifications and assistive technologies offered to people via municipal regulations in The Netherlands often do not address the needs of people with dementia. Dementia is a syndrome which impacts all aspects of daily living. These modifications and technologies primarily form a solution for mobility problems that often stem from biological ageing and specific disorders. This means that the homes that have undergone modifications or have been designed according to the needs of older adults, such as single-level homes, are not fully supportive to people with dementia and their family carers. Table 1. Characteristics of homes of older adults in The Netherlands in 20026. Characteristics Dwellings occupied by persons aged 55
years and over All dwellings for older adults
Single-level homes 333,000 388,000 Small home modifications 200,000 223,000 Extensive home modifications
34,000 40,000
Single-level homes with extensive home modification
28,000 33,000
Table 2. Percentage of older adults living in a dwelling that is suitable for habitation by older adults, or in another type of dwelling, shown for three age groups and six types of built environments7. Age group [years]
Type of dwellings
Urb
an, c
entr
al
Urb
an, s
ubu
rban
Gre
en
subu
rba
n
Vill
age,
>25
00
inha
bita
nts
Vill
age
<25
00
inha
bita
nts
Rur
al,
villa
par
ks
55-64 Other dwellings 68 72 73 75 72 63 Single-level home 22 20 19 17 22 29 Dwellings with extensive home modifications
2 1 2 2 3 1
Other dwellings for older adults 4 4 4 3 2 5 Dwellings for older adults with nearby care services
4 3 3 2 1 1
65-74 Other dwellings 51 54 59 59 63 51 Single-level home 29 24 21 19 18 32 Dwellings with extensive home modifications
2 2 3 3 4 2
Other dwellings for older adults 8 8 7 9 8 11 Dwellings for older adults with nearby care services
11 12 10 10 7 4
74 and over
Other dwellings 37 40 38 40 41 39 Single-level home 26 22 22 19 18 25 Dwellings with extensive home modifications
4 3 3 3 3 4
Other dwellings for older adults 6 7 8 13 14 14 Dwellings for older adults with nearby care services
27 27 29 25 23 18
† Only 35% of all persons with dementia live institutionally (care homes 17%, nursing homes 18%)8. The latter include the over 5,000 persons with dementia, who reside in a type of housing referred to as small-scale group accommodation9).
4
![Page 18: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/18.jpg)
1.2. Policies on housing and dementia Policies in The Netherlands aim at creating a housing stock that allows for improved accessibility for people with impaired mobility and gives them better chances at finding a supportive dwelling on the real estate market10. The 2007-2010 government of The Netherlands actively stimulated the creation of single-floor dwellings11; however, older adults do not form a homogeneous group, and in many cases, require home modifications that are not related to mobility and accessibility alone12. Moreover, the government also stimulated the construction of small-scale group accommodation for older people with dementia13. Although policies in The Netherlands are, in principle, supporting the desire of older adults to age-in-place, specific needs in terms of housing are insufficiently acknowledged. Currently, persons with dementia receive home modifications for impaired mobility and sometimes for low vision or limited eyesight too. This is not sufficient, as the solutions (and policies) do not address declining cognition and other problems associated with dementia. However, the United Nations14 recognises the need for programmes to help people with dementia to live at home for as long as possible. Accessible and safe housing and the living environment are among these services. According to the United Nations14, it is important that older persons are provided, where possible, with an adequate choice of where they live, a factor that needs to be built into policies and programmes. This dissertation deals with the problem that demand and supply, in terms of housing-related needs of people with dementia in relation to ageing-in-place, are insufficiently considered in a coherent manner. As an introduction to the themes addressed in this dissertation, first an introduction to dementia syndrome is given, followed by a section on the role of family carers, a section on the possible support people with dementia receive from housing facilities, and finally a section on the need for an integrated design approach in solving the challenges associated with supportive housing facilities for people with dementia. 2. Dementia 2.1. History and definition Pythagoras (7th century BC) was one of the many ancient scholars who recorded instances of regression in mental capacity15. The word ‘dementia’ was first used in 1797 by the founder of modern psychiatry, Dr Philippe Pinel (1745-1826), to describe a syndrome that has severe implications to daily living and independence. According to the criteria in the fourth edition of the Diagnostic and Statistical Manual of Mental Disorders (DSM-IV), dementia is characterised by (i) memory impairment, (ii) one or more of the following cognitive disturbances: aphasia, apraxia, agnosia, or disturbance in executive functioning, (iii) the before mentioned deficits causing significant impairment in social or occupational functioning and representing a significant decline from a previous level of functioning, (iv) the before mentioned deficits not occurring exclusively during the course of a delirium‡. 2.2. Causes of dementia There are about 100 known causes of dementia, of which Alzheimer’s disease is best known and accounts for 50-70 % of all cases in Western populations. In 1906, Dr Aloysius (Alois) Alzheimer (1864-1915), a German psychiatrist and neuropathologist, was the first to describe a case of the mental illness that was therefore named after him17. A diagnosis of Alzheimer’s disease typically causes global deterioration highlighted by neurofibral tangles and plaques18, irreversibly damaging the white matter substrate of the brain. The production and distribution of neurotransmitters that carry messages within the brain get disrupted.
‡ Delirium is a transient organic mental syndrome characterised by disturbances in consciousness, thinking and memory. Risk factors include high age, cognitive impairment and severity of illness. The consequences of delirium include high morbidity and mortality, lengthened hospital stay and nursing home placement16.
5
![Page 19: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/19.jpg)
Two other common types of dementia are vascular dementia and dementia with Lewy Bodies§. According to van der Flier21, the term Alzheimer’s disease suggests an unjust specificity regarding the cause of dementia. Van der Flier21 suggests the use of the more generic term ‘dementia’ instead of referring to more specific underlying causes. In this dissertation, dementia refers to this more generic term. 2.3. Symptoms and problems According to the National Institute for Public Health and the Environment of The Netherlands (Rijksinstituut voor Volksgezondheid en Milieu, RIVM)22, dementia ranked number 10 of most disabling health problems in The Netherlands in 2003 in terms of diseases and impairments causing the greatest loss of DALYs**. The early symptoms of Alzheimer’s disease may be overlooked because they resemble signs of natural ageing. The most striking aspect of Alzheimer’s disease is the pattern of loss of intellectual function that follows the principle of ‘last learnt, first lost’. Memory for events in the remote past is preserved in the early stages of the disease. Basic capabilities, such as toilet habits and recognition of immediate family members, are preserved. As Alzheimer’s disease progresses, additional functions are lost, and the need for care and surveillance increases. Dementia is often accompanied by a number of cognitive and behavioural problems24. Some of the most prominent problems, which have implications to daily living and the use of the home, are impaired wayfinding and wandering, difficulties understanding, poor judgment, the inability to recognise, disorientation, loneliness, restlessness, misplacing items, hiding things and hoarding, shadowing, declining social skills and eating inappropriate items. As we will see later, these symptoms are not seen in every person with dementia, and not all problems are equally difficult to cope with by carers25. The symptoms, however, can be a source of concern for relatives and influence ageing-in-place in a challenging way. Some of these problems can be addressed by the design of the home environment and appropriate environmental interventions. 2.4. Demographics and financial costs of dementia Alzheimer Europe26 reports that the number of citizens with dementia in the EU-27 ranges from 5.5 to 6.15 million, based on studies by Hofman et al.27 and Ferri et al.28. The number could even be higher due to the lack of specific data on people aged 90 years and over in some countries. Worldwide, the number of people with dementia is estimated at 24.3 million people28. Some 270,000 people in The Netherlands cope with dementia, of whom the vast majority is aged 65 years and over29. Moreover, about 12,000 persons in The Netherlands who have received a diagnosis of dementia are younger than 65 years (young onset dementia, working age dementia, early onset dementia). Wimo et al.30 estimated the total societal cost†† of dementia care in the EU to be a mere € 54.3 billion, or approximately € 14,200 per person. Family care -the care provided to the person with dementia by relatives, particularly spouses and children- not only represents a great societal value, but also a great economic value. Wimo et al.30 estimated the worldwide societal cost of family care for dementia to be € 82.7 billion in 2005, and € 26.8 billion for the EU (approximately € 4,700 per person with dementia). These are the costs family carers face in terms of expenses and loss of income. When symptoms of dementia occur before the age of 65, dementia has a severe impact on a family’s financial situation, as in such cases persons are likely to be employed, have financial commitments, for instance, mortgages, and may have young families.
§ Apart from dementia, there is a related syndrome named mild cognitive impairment (MCI), which is thought of as a transition phase between healthy cognitive ageing and dementia19. MCI among individuals goes together with differences in cognitive profile and clinical progression19. As MCI is an important component in the continuum from healthy cognition to dementia, understanding which individuals with MCI are at highest risk for eventually developing Alzheimer’s disease is key to the ultimate goal of preventing this disease20. ** The Disability Adjusted Life Year is the only quantitative indicator of burden of disease that reflects the total amount of healthy life lost to all causes, whether from premature mortality or from some degree of disability during a period of time23. †† All cost figures by Wimo et al.30 have been recalculated from US$ figures at a rate of € 1:1.27 US$ (mean exchange rate 2005).
6
![Page 20: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/20.jpg)
3. The role of family carers An important factor in ageing-in-place is family care. In The Netherlands, family carers already care for four times as many people than professional carers do and provide the largest volume of care31,32. The wish to remain living independently, regardless of the condition of their housing, neighbourhood, and health, is often a personal choice of older adults themselves33. But at the same time, this decision depends on the availability of a spouse or child, on the personal disablement process or impairments of a partner, as well as the perceived burden of care experienced by the family carer. 3.1. Family care under pressure According to The Netherlands Institute for Social Research (Sociaal en Cultureel Planbureau, SCP)32, there will be substantial changes in the availability of family care due to population ageing, the prevalence of illness and disability, changes in the labour participation rate, and travel distances. Although a diagnosis of dementia was not included in this study, dementia is a syndrome that has severe impacts on the demand for care. Sadly, family care in its entirety is under pressure, given the strain of care and the ageing of society (family carers themselves are getting older too). Family carers routinely risk their financial, emotional, and physical well-being to provide intensive and structural care for relatives with dementia34-36. These are the humane costs of dementia care, which include both physical and psychological overstraining. Family carers show considerable psychological and physical illness with higher levels of anxiety and depression compared to age-matched controls25. A strong increase in co-morbidity, or the death of a family carer, stops 24-hour monitoring from being realised effectively in the own dwelling, and consequently ageing-in-place comes under pressure37,38. Furthermore, living alone with dementia brings great risks of self-neglect, injury and exploitation, and increases the chance for institutionalisation39. The financial costs of professional dementia care are on the rise and are increasing even further when family carers can no longer provide care to their loved-one. Moreover, there are the humane motives, i.e., that family carers who care for a loved-one do not collapse under the pressures of the care they provide. 3.2. Problems faced by family carers in relation to dementia In a field study among 1181 carers of community-dwelling people with dementia in France, Germany, Poland, Scotland, and Spain, Alzheimer Europe25 concluded that problems regarding activities of daily living as a whole were most problematic for family carers to cope with (Table 3). Contrary to popular belief, cognitive symptoms in total are not the most problematic to this group25. Behavioural problems are seen in 90% of people with dementia at some point in their course, irrespective of the level of cognitive impairments. As a result, about half of the family carers experience stress and problems, particularly agitation, due to these symptoms25. The majority of items in Table 3 can, to some extent, be addressed by architectural and technological solutions. Living independently (alone or with a spouse) is predicated not so much by the cognitive functioning of the person with dementia as by the relationship with the family carer and his/her perception of the overall functioning of that person40. The 2002 report on dementia by the Health Council of The Netherlands (Gezondheidsraad)8 strongly rejects the notion that an increase in family care or the support thereof would be the sole and sanctifying solution to the problems concerning dementia care. Dementia care is a daily, physically and emotionally, burdensome task that often lasts for years. Persons with dementia should be able to rely on a type and capacity of professional care and support that prevents the overstraining of their family carers8.
7
![Page 21: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/21.jpg)
The desire among many people with dementia to age-in-place has advantages in terms of orientation in the home, and in relation to a future shortage of carers. There is a clear societal need to delay the demand for professional care and to stimulate independent life styles. It is of the utmost importance that both people with dementia and their family carers are supported in daily life through dedicated housing facilities. Table 3. Overview of symptoms among people with dementia and the percentages of carers for whom these symptoms cause problems25. Current symptoms Most problematic symptoms for carers to cope
with Activities of daily living 96%
Finding belongings: 77% Financial activities: 74% Shopping: 73% Showering/bathing: 71% Cooking: 70% Using telephone: 69%
Activities of daily living 68%
Showering/bathing: 25% Being left alone: 20% Incontinence: 19% Finding belongings: 16% Moving in general: 14% Sleeping: 12%
Cognition 93%
Memory/confusion: 87% Concentration/attention: 78% Orientation/getting lost: 63% Recognising people: 54%
Behaviour 50%
Agitation/aggression: 16% Personality changes: 16% Irritability: 11% Wandering/restlessness: 10% Depression: 8%
Behaviour 89%
Social withdrawal: 50% Personality changes: 47% Wandering: 44% Lack of energy: 43% Irritability: 40%
Cognition 45%
Memory/confusion: 32% Concentration/attention: 12% Orientation: 12% Recognising people: 7%
Communication 88%
Following conversation: 74% Writing/reading: 70% Comprehension of language: 49% Speaking: 47%
Communication 36%
Following conversation: 16% Comprehension of language: 14% Speaking: 12% Writing/reading: 3%
3.3. Problems faced by family carers in relation to housing As many of the family carers of persons with dementia are aged over 65 years old as well, they may have to cope with health problems due to biological ageing or a chronic disease. On the level of the individual occupant, this may lead to home modifications and retrofitting, moving, or simply living under less favourable conditions that might pose a hazard to the quality of life38. Family carers themselves need support in terms of accessibility of the dwelling and low vision, and may ask for environmental interventions that support care. Duijnstee41 mentions that the home environment has a profound influence on the care for persons with dementia, and this of course is experienced by family carers too. Whether the home environment is facilitating or hindering care, largely depends on the behaviour and capabilities of the person with dementia. In short, the fewer barriers there are at home, the easier and less burdensome family care can be. Duijnstee41 presumes that a practical living situation can decrease the problems for the family carer. A small number of publications including works by the Ministry of Community and Social Services of Ontario, Canada42, Rommel et al.43 and Blom et al.44 provide family carers with practical information on how to implement environmental interventions at home. In addition to the abovementioned problems, there are, of course, dementia-specific requirements to housing that are needed to support ageing-in-place for people with dementia, and to maintain couplehood.
8
![Page 22: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/22.jpg)
4. Appropriate housing facilities for people with dementia Charness and Holley45,p.S69 concluded that “[t]he majority of persons with Alzheimer’s disease dwell at home […]. So, when considering design issues, the first stop is going to be at the home. Because many persons with Alzheimer’s disease will progress to institutional care, the final stop for effective design is going to be at nursing homes or at assisted living housing.” The increasing group of older people with dementia and their family carers poses great challenges in terms of creating suitable living environments and appropriate housing facilities. Accommodating people with dementia in residential environments and compensating for their losses demands balancing safety and potential risks, while attempting to allow as much privacy and independence as possible46. 4.1. Ageing-in-place as a means for memory support Lawton47,p.514 has already mentioned that a minority of those who experience a decline in health and still remain in the community actually make a residential change. “The norm is for even the chronically ill and disabled to remain where they are.” Ageing-in-place is preferred over institutionalisation as long as people with dementia can be assured of assistance and monitoring by persons from their social environment. If not, institutionalisation may be a more humane option. According to Mace and Rabins24, moving means multiple losses, including giving up a familiar place and possessions that form tangible symbols of one’s past and reminders when one’s memories fail. People with dementia depend upon a familiar setting that provides cues to enable independent functioning. Learning one’s way around in a new place is difficult or impossible24. Cohen and Weisman48, too, stress that relocation from setting to setting should be limited when possible. Therefore, it is best if people with dementia can age in their own living environment without having to move, for as long as possible, making use of home modifications and assistive devices when needed. 4.2. Housing facilities as a non-pharmacological intervention People with dementia may have an altered sensitivity to (indoor) environmental conditions, which stems from a reduction of the individual’s ability to understand the implications of sensory experiences49. The effects of dementia are aggravated by the age-related deterioration in sensory acuity that impacts vision and hearing steadily over the years50. These changes impact how the indoor environment and related building systems should be designed or adapted. Non-pharmacologic interventions can also play an important role in managing other symptoms of dementia51,52. The foundation of non-pharmacologic management is recognising that the person with dementia is no longer able to adapt, and that, instead, the home environment must be adapted to the specific needs of the person with dementia51. A balanced combination of pharmacologic, behavioural, and environmental approaches is likely to be most effective in improving (or preventing deterioration of) health, behaviour, and well-being53, as well as in increasing a person’s empowerment. Existing literature on dementia suggests that a good home environment can reduce confusion and agitation, improve way-finding, and encourage social interaction. At the same time, a poorly adapted environment might increase confusion and problem behaviours54. Warner55,pp.2-3 warns against unrealistic optimism that modified homes solve all problems. “We must be realistic. Alzheimer’s is a disease of the mind, not of the home. The environment is not a treatment, and it offers no cure. But many problems related to the disease can be lessened for the person with Alzheimer’s disease and especially for the caregiver by making changes in the home environment.” 4.3. Technology and dementia: hinder or support? On the one hand, the complexity of the technology at home plays a role in the loss of abilities, and carers emphasise the disabling effects of contemporary technology56-58. On the other hand, technological solutions may also offer support. A variety of new technological solutions, including assistive technologies and home automation systems, are emerging within the domain of health care. The latter include inexpensive support systems, which allow care and health centres to remotely observe and help their clients59. Nevertheless, there are still many
9
![Page 23: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/23.jpg)
questions concerning the efficacy, benefits and acceptance of such systems, particularly in dementia care. 5. The need for an integrated approach The design of buildings in general is a complex process within a dynamic context. This complexity is increased when the design process concerns buildings for specific user groups, such as older people with dementia as discussed in this dissertation. This complexity stems partly from the interdisciplinary character of the design process, involving a multitude of professionals that work together in creating a building or that are responsible for operation and maintenance of the building over time. All these professionals contribute their own expertise to the design process, and in this contribution, they mainly operate within the limitations of what is known and familiar to them. The complexity also stems from the many performances the users of buildings demand from the design, for instance, improving wayfinding or care support. And in turn, this complexity increases due to advances in the demands in performance levels over time, which stems from (i) the increasing sense of quality among the occupants and users, and from (ii) advanced understanding in general. This advanced understanding becomes clear in the case of health care facilities or homes for people with special needs, where designers are starting to understand the needs of users of such buildings. The design, operation and maintenance of health care facilities are particularly complex, as criteria are constantly evolving. Discussions about the importance of the built environment for health care delivery extend, at least, as far back as Hippocrates (400 BC)60. Within the domain of health care and medicine, professionals work based on evidence-based practice, meaning that treatment and interventions should be supported by scientific evidence, and that the solutions or interventions chosen are the best answer to the problem identified. Thus, the design of buildings in which medical treatment and interventions take place should be in compliance with evidence-based practice, and the same can be said about housing facilities for people with dementia. Brawley61,p.263 mentions that “just as medicine has increasingly moved toward evidence-based medicine, healthcare design is moving toward evidence-based design. Increasingly guided by rigorous research linking characteristics of the physical environment to resident outcomes, the focus of evidence-based design is not on creating care settings that are nicer or glitzier than traditional residential and nursing home settings, but rather on creating environments that actually help residents remain as healthy and independent as possible, be safer, and help staff do their jobs better. The goal is improving outcomes and continuing to monitor the success of designs for subsequent decision making.” There is a need for an integrated building approach that optimises values for all stakeholders involved in the building process and the building’s lifespan. This calls for a framework that can combine the needs within the domain of health care to solutions from the domain of building and technology. 6. Aims and objectives The preceding paragraphs have shown the importance of adequate housing facilities for community-dwelling persons with dementia and their carers and the momentum for further action in this field. Policies are now in place in Europe that support the concept that older adults remain living at home for as long as possible and actively promote the use of technological solutions in health care. As mentioned before, supportive housing facilities are not only practically non-existing, but there are very few studies focussing on how such housing facilities should be designed and built. There is a need to develop homes for community-dwelling older adults with dementia, which takes into account the decline of their cognitive functioning. The importance thereof is that the home’s design and technological solutions support the person with dementia with activities of daily living, reduce the incidence of problem behaviours, reduce the burden of care on family carers, and delay the demand for professional care.
10
![Page 24: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/24.jpg)
The aim of this dissertation is to (i) investigate the contribution of various aspects of housing facilities (architecture, indoor environment and building services, and technology including ambient intelligence) in relation to the needs of community-dwelling older adults with dementia and their family carers in order to support ageing-in-place, and to (ii) propose a conceptual design for a home for people with dementia, which aims to support ageing-in-place. To investigate these aspects, the following research questions are answered: In what type of housing facilities do people with dementia live, and how is family care
related to the type of housing facilities for older adults, and for people with dementia in particular, in the various countries of the European Union?
Which building-related environmental interventions and which features of the indoor environment can be identified to facilitate or hinder ageing-in-place and daily functioning, and what specific dementia-related problems do the identified solutions address?
Can ambient intelligence technologies support ageing-in-place of persons with dementia, and, if so, how can these technologies offer support within the context of the needs of users, ethics, and privacy?
Finally, how can the aforementioned matters be integrated into a conceptual design for a home for people with dementia that aims to support ageing-in-place?
7. Scientific relevance and innovation The quest for new knowledge pervades the examination of hypotheses on building characteristics and technology in an integrated way for community-dwelling older adults with dementia and family carers. This relationship is yet a largely unexplored territory within science, especially when the buildings in question concern the actual home environment. Thus far, most research, conducted particularly in the USA, the UK and Australia, concerns special care units (SCUs), semi-institutional settings for older adults with dementia. Although the vast majority of older adults with dementia in the Western world live in the community, they seem to be largely ignored by the scientific community. 7.1. Focus shift from special care units to the own home Architecture, indoor design, and technology have been studied in relation to dementia before, mainly for institutional settings including SCUs. The current design of SCUs for older adults with dementia is regarded as a therapeutic resource to promote well-being and functionality among the residents. “Design guides typically offer “hypotheses” for how the spatial organisation and appointment of the physical environment may promote well-being. […] Frequently, design guidance is based on the practical experience of designers or facility administrators; other times, design guidance is research based, applying findings from clinical research on dementia in the form of design “solutions”.”62,p.397. This dissertation researches effective strategies for the design of housing facilities for community-dwelling older adults with dementia, not long-term care facilities and SCUs. 7.2. Focus on the indoor environment The influence of the indoor environment (thermal comfort, lighting, indoor air quality and acoustics) on dementia is largely unexplored, but of great significance. There are indications that the indoor environment has an influence on behaviour and health, and at the same time, that the indoor environment can be manipulated by architectural (passive) and technological (active) solutions. The influence of lighting on visual performance and circadian rhythmicity; of room acoustics on behaviour; and odours on appetite and well-being; are mentioned and described in (bio)medical and nursing literature. There are, however, many more scientific papers in which the indoor environment, as known to building sciences, is not included or considered. In a recent paper by Lemay and Landreville63, who studied the effects of discomfort on verbal agitation in dementia, the physical environment was mentioned as a contributing factor, but no aspects of the indoor environment were mentioned. Within the domain of building sciences, the indoor environment is the realm of building physicists, environmental engineers and building services engineers. The indoor environment plays a very important role in the well-being of a building occupant. The physical properties of
11
![Page 25: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/25.jpg)
indoor environments can be influenced or altered by building services: lighting systems can increase indoor light levels; and heating, ventilation and air-conditioning (HVAC) systems are used to control temperature and humidity. Because of the apparent but ill-understood importance of the indoor environment in relation to older adults with dementia, an integrated study of the impact of the indoor environment and relevant building systems is included in this dissertation. 7.3. Linking demand and supply in interdisciplinary research In 2002, the Office of Technology Assessment of the US Congress concluded that “[a]lthough compelling arguments are made for the therapeutic efficacy of an appropriate physical environment, until now little systematic research has been carried out to determine whether the special design features commonly found in SCUs are, in fact, effective in reducing symptoms and enhancing the quality of life for residents with dementia”53,p.698. These quotes illustrate the need for a different and structured approach in research, in which supply fits with the needs of people with dementia. Moreover, Brawley61,p.263 adds that “[t]oo often, in the absence of research, design decisions are made on the basis of anecdotal unsubstantiated information, which does not necessarily lead to the most predictable or most desirable results.” In recent decades, theories explaining the relationships between the characteristics of health care facilities and patient health outcomes have increased in number with numerous building design characteristics investigated60. As mentioned before, supportive housing facilities can be seen as a non-pharmacologic intervention. Innovation in this dissertation stems from the integrated and interdisciplinary approach, which may affect communication of results to both scientific domains relevant to this dissertation (building and health care). In the recent past, there have been a number of studies linking housing and other types of buildings to health care outcomes of the occupants, including older adults38,64-69. To the best of our knowledge, this study is one of the few that links the two fields of science together in relation the complex population of people with dementia. However, there have been some practical studies that link architectural design to the needs of people with dementia, for instance, by Coons70 and by Cohen and Day3. These studies deal with the architectural environment in particular, not the indoor environment. Also, they are not structured using a uniform framework. 8. Framework and methodology This dissertation tries to bring together demand and supply; namely the needs of the people with dementia, their carers and other stakeholders, and the solutions offered in the domains of building and technology. The interdisciplinary and complex character of the research question, which calls for integrated approaches, requires a framework that combines both the domains of health care and building and technology. As such a framework did not exist, a framework combining two existing models has been developed that, when used together, have an added value for the current study and can provide a conceptual framework for interdisciplinary research. The contents of this dissertation is structured and presented using a combination of two existing frameworks: (i) the International Classification of Functioning, Disability and Health71 with its basis in health sciences, and (ii) the Model of Integrated Building Design72 that has its origins in building sciences. Such a combined framework should provide a method, which is relevant to theoretical and practical research, which structures research findings (i.e., evaluation), and which enables the retrieval of information, for instance, for a needs-based design. In order to study the domain of housing facilities for dementia in its fullest perspective and in an integrated manner, the studies in this dissertation make use of a wide range of qualitative and quantitative research methods. These methods are described at the end of this chapter. 8.1. International Classification of Functioning, Disability and Health Within the World Health Organization’s International Classification of Functioning, Disability and Health (ICF)71, health problems are described as well as limitations and/or restrictions
12
![Page 26: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/26.jpg)
that result from diseases and disorders (Figure 1). The overall aim of this classification is to provide a unified and standard language and framework for the description of health and health-related states. ICF has two parts, each with two components. Part 1: Functioning and Disability: a.) body functions and structures, and b.) activities and participation; and Part 2: Contextual Factors: c.) environmental factors, and d.) personal factors. Each component can be expressed in both positive and negative terms. Impairments are problems in body function (physiological functions of body systems) or structure (anatomical parts of the body) such as a significant deviation or loss. Within ICF, the severity of a disorder is described, which provides insight into treatments, medication, or adjustments of activities, as well as the impact on participation or need for environmental factors. Activity is the execution of a task or action by an individual. Activity limitations are difficulties an individual may have in executing activities, such as domestic work and personal care. Participation is involvement in a life situation. Participation restrictions are problems an individual may experience in involvement in life situations.
Health condition (disorder/disease)
Personal factors
Participation (restrictions)
Body functions and structures (impairments)
Activities (limitations)
Housing
Combined Framework of ICF-MIBD
Environmental factors
Building system Value - DomainPerformanceTotal design
Stuff
Site
Structure
Skin
Services
Space-plan
safety & securityhealth & comfortambiance / shelter
initial costsoperational costs
changeabilityadaptability
energy & water usematerial usage
emissions / waste
aestheticscompliance with laws
production supportreliability
Basic valueindividual
Economic valueowner
Strategic valuepotential users
Ecological valueglobal community
Local valuecommunity
Functional valueorganisation
LegislationPolicies
Bra
nd (
1994
) 6
S’s
World Health Organization (2001) International Classification
of Functioning (ICF)
Rutten (1996) Model of Integrated Building Design (MIBD)
Figure 1. Interactions between the components of ICF by the World Health Organization71 and the integration of MIBD by Rutten72.
13
![Page 27: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/27.jpg)
Within the ICF, the built or living environment can be seen as an environmental factor that influences people at the impairment level and helps people to overcome limitations and restrictions posed by declining physical fitness and cognition. Another component of the contextual factors are personal factors. These are features of the individual that are not part of a health condition or state. They include such factors as gender, race, age, lifestyle, social background, education, occupation, and psychological characteristics. Such personal factors are not classified in ICF because of the large social and cultural variance associated with them. In this dissertation, emphasis will be put on the built environment as an environmental factor that influences health, by focussing on the facilitating or hindering impact of features of the physical, social, and attitudinal world71. In this case, the word ‘environmental’ has a wider meaning than usually applied in the domain of building sciences, as it includes the social environment and context. Within the ICF‡‡, supportive housing facilities help maintain autonomy and self-direction, and are thus believed to contribute to a delay in the demand for specialist care and facilities. Environmental factors may hinder or support the activities or participation in society of a person with dementia. In order to analyse the hindrance or support posed by any of these factors, we seek to combine the ICF with a model used within building sciences to optimise the contribution of the environmental factor (i.e., housing) on the factors of the ICF (Figure 1). 8.2. Model of Integrated Building Design Within health care, housing is one of the services that can be offered to older adults73. Care may be facilitated or supported through a fitting and integrated building process that optimises the various values for all stakeholders involved; family carers and care professionals (domains e340 and e355 of ICF), health care organisations, housing organisations, and professionals from technological disciplines that carry out home modifications and design and install technology. Rutten72 presented the Model of Integrated Building Design (MIBD) (Figure 1), which provides an overview of sub-aspects of the design process of a building and the desired building performance levels as well as the creation of values for the stakeholders on different levels. In the Model of Integrated Building Design, a building derives its total value based on the quality of its relationship with the human environment or how well it performs at all of the various human perspectives from which it is viewed, that is, it fulfils needs. A performance specification describes performance goals for each human-building relationship. The MIBD incorporates six value-drivers, which represent various stakeholders, and which assist in setting priorities in design and organising the design process. These value-drivers also help to retain focus of importance during the design phase. The building itself is made up of several systems or components, the six S’s: stuff, space-plan, services, skin, structure, and site74. These components can be further divided into sub-system components. Each system has a specific set of functions (which can be seen as solutions) that contribute to the optimisation of a certain value. The total value is realised through the integrated functioning of a number of building systems on the demand side via a system engineering approach. Such an approach implies that an overview of dominant building systems is made in such a way that functional integration is achieved with consideration of the various disciplines involved in the building process. The MIBD tries to achieve value integration, in which all values and stakeholders are integrated to achieve functional integration. In addition, attention to legislation and local and national policies are preconditions for the realisation of the total design.
‡‡ Specific domains of ICF addressed in this dissertation are particularly e155, Design, construction and building products and technology of buildings for private use (although knowledge will be gained from e150, Design, construction and building products and technology of buildings for public use as well). Other relevant domains are e115, products and technology for personal use in daily living; e120 products and technology for personal indoor and outdoor mobility and transportation; e125, products and technology for communication. The indoor environment is covered by domains e225 (climate), e240 (light), e250 (sound), e260 (air quality).
14
![Page 28: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/28.jpg)
Within the MIBD, six values and domains are distinguished, namely the basic, functional, local, ecological, strategic, and economical values72. Within the context of this dissertation, the ICF has a specific connection to three of the values of the MIBD when looking at housing facilities for people with dementia. This connection is explained in the following section. The three values that are emphasised are the basic value, functional value and economic value. The values are explained below. Basic value The basic value is determined from a building’s relationship with individual occupants and their sense of psychological and physical well-being. The person with dementia is the most important stakeholder in this section. The family carer is the one who takes care of the person with dementia, and, therefore, their needs are incorporated as well. Functional value The functional value is concerned with how activities and processes (including facilitating care) taking place inside the building are supported. In short, how facilitatory and supportive is a living environment to the activities that take place inside and to the person with dementia and the family carer? The person with dementia should be able to lead the life he/she wants to lead - within the constraints posed by dementia - with the help housing facilities that facilitate for the deficits seen in dementia. Moreover, housing facilities should support the care for the person with dementia. Economic value The economic value is based on the relationship with people concerned with the ownership and marketing of the building. When the economic value is maximised in relation to the needs of people with dementia and their partners, a home should facilitate ageing-in-place and should support family and professional care. At the same time, a well-tailored home increases in value on the real estate market for a specific group of home-buyers or occupants. 8.3. Combined framework The ultimate goal of this study is the creation of living environments which optimally account for the actual situation of a person with dementia and his/her family carer. In order to retrieve how and to what extent integrated building design can contribute to the ageing-in-place of people with dementia, a framework for further analysis is necessary. Such a framework should allow for the identification of the needs of people with dementia and other relevant stakeholders, and, subsequently, should help to identify which types of design solution are present in relation to a specific need. This should then be followed by examining the fit or gap between the demand and supply (needs and solutions). Within the scientific domains of building and health care, such a framework for analysis that matches the mindsets of both scientific domains has not existed before. Therefore, the combined use of ICF and MIBD is proposed (Figure 1), and the connection between the two frames is as follows. ICF characterises environmental factors§§, which impact symptoms, and hinder or support the activities or participation, including ageing-in-place, of a person with a (chronic) disease or impairment. These environmental factors include aspects of the built environment and social factors such as family care and professional care, which are crucial for ageing-in-place. The MIBD has the tools to analyse which environmental factors, included in ICF, hinder or support a person with a chronic disease/impairment. In short, ICF can be used to identify specific needs, whereas MIBD can be used to identify specific answers and solutions to these needs. This connection is as follows. With the basic value of the MIBD, the individual needs of the stakeholders as classified in ICF terms can be described. Also, hindrance or support from environmental factors on the level of the individual can be identified. The functional value of the MIBD deals with answers and solutions to the needs of the organisation of (support for) ageing-in-place (in order to support individuals). This value allows for the identification of
§§These environmental factors include e1, Products and technology; e2, Natural environment or human-made changes to environment; e3, Support and relationships; e4, Attitudes; and e5, Services, system and policies.
15
![Page 29: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/29.jpg)
hindrance or support on the level of an organisation. The economic value of the MIBD deals with the fit between demand and supply (cost-benefit analysis), and in this way hindrance or support for individuals on a macroeconomic level is described. The combined approach allows for a problem analysis from the viewpoint of the care recipient (i.e., person with dementia), which forms the basis of ICF, and for an integration of the building process in such a way that it leads to more fitting and appropriate outcomes for persons with dementia and other stakeholders. The combined framework takes the human being (occupant or stakeholder) and his/her needs as a point of departure for analysis or design, and not the building itself. 8.4. Research methods In analogy to the integrated view that has been chosen for the approach of the research questions, this integration is also reflected in the choice and combination of research methodologies. Apart from the literature review, a combination of qualitative and quantitative research methodologies has been applied depending on the type of information that was searched for, as well as the extent to which themes had been studied before and existing knowledge was available and accessible. Qualitative methodologies include interviews of individuals using topic lists, making observations of the home environment, secondary qualitative analyses of existing data sets, and focus group sessions with representatives of various patient organisations and organisations for the aged with expertise from the field of care and home modifications. These methodologies were applied for the analysis and evaluation type of research as well as the design studies. Quantitative methodologies include two clinical controlled trials during which behavioural observations (validated Dutch Behaviour Observation Scale for Intramural Psychogeriatrics (GIP))75 and physiological measurements (tympanic temperature) were conducted. The numerical outcomes of these studies were tested with parametric and non-parametric statistics. These methodologies were applied for the analysis and evaluation type of research. Through the combination of methodologies, the dissertation tries to include both views captured in the literature, as well as the views from actual people with dementia, their carers (family carers and professionals), and health care and support organisations. As the majority of scientific literature stems from the Anglo-Saxon world, Dutch-language (grey) literature and books are explicitly included in this dissertation, as well as actual experiences of people with dementia and their carers. Conducting research with people with dementia and their relatives required the process of obtaining informed consent of the subjects and their legal representatives. All subjects (and their partners and geriatric physicians) were asked for informed consent and were free to leave the research at any time. Moreover, the subjects were not exposed to any harm, and all data were treated anonymously and were destroyed after the processing of the data. When needed, approval by a medical ethical committee or institutional committee was obtained. 9. Outline of the dissertation The contribution of various aspects of supportive home environments for community-dwelling older adults with dementia is investigated in a succession of nine chapters and concluded by a General Discussion. Chapter 2: Policy and practice describes how older people with dementia are currently housed, and how family care is related to the type of housing facilities for older adults, and for people with dementia in particular. This analysis is made for various countries in the European Union and The Netherlands in particular. It is within these frameworks, a combination of legislation, culture and tradition, that environmental interventions and the implementation of technology take place and are being
16
![Page 30: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/30.jpg)
financed. This context is relevant as the majority of research literature, which is included in this dissertation, stems from Anglo-Saxon countries. After this chapter, a number of chapters related to the design of housing facilities from the perspective of users follow. Chapter 3: Design principles and environmental interventions provides an overview of these features, which are available to reshape the home in order to support older people with dementia and their carers. The study also deals with the underlying symptom-related basis for these measures. This chapter is followed by four studies related to the indoor environment and related building services. Chapter 4: Dementia and the indoor climate focuses on the indoor climate and dementia, and the design of relevant building systems. The study takes place within the combined framework of ICF-MIBD in order to link needs to building-related solutions. Specific values addressed are the basic, functional and economic value. Chapter 5: Dementia and the indoor environment deals with other indoor environmental parameters in relation to dementia, namely indoor air quality, the visual environment and light, and the acoustical environment. The study takes place within the combined framework of ICF-MIBD. Chapter 5 reveals needs and solutions and the fit between these two. However, this integrated view is not sufficient. There are many remaining questions that cannot be solved based on the available knowledge. As more research is required in the field of indoor environmental design, particularly in relation to lighting, health and behaviour, two specific studies concerning lighting systems have been conducted and described in the following chapters. Chapter 6: Lighting intervention I: bright light (6,500 K) describes the first of two clinical controlled trials. The study concerns the effects of a 6,500 K ambient bright light intervention (2,700 K control) on behaviour and circadian rhythmicity of residents of a nursing home. Chapter 7: Lighting intervention II: dim light (17,000 K) describes the second of two clinical controlled trials. The study concerns the effects of a high correlated colour temperature (17,000 K) lighting intervention (2,700 K control) on behaviour and circadian rhythmicity of residents of a day care centre in a nursing home. Chapter 8: Ambient intelligence, ethics and privacy explores the aspects of ambient intelligence technologies in the daily lives of older people, both with and without dementia. The work discusses the emergence of new ambient intelligence technologies in relation to privacy and ethics and its supposed role in supporting ageing-in-place. It provides a preliminary study and introduction to the study presented in Chapter 9. Chapter 9: Ageing-in-place and ambient intelligence presents the integrated evaluation of new ambient intelligence technologies (Unattended Autonomous Surveillance system) in relation to ageing-in-place. As mentioned before, there are many questions concerning the efficacy, benefits and acceptance of such systems, particularly in dementia care. This cohort study includes community-dwelling older adults with and without psychogeriatric health problems. Based on a needs assessment, these persons are entitled to receive nursing home care at home. The study investigates if and how ambient intelligence technologies can contribute to ageing-in-place. Chapter 10: Integrated design of a conceptual home for people with dementia focuses on the integration of the results of the previous chapters into creating an actual home design. The study deals with the development and design process of this conceptual home for people with dementia, and addresses and integrates the following aspects of the home environment: (i) architectural and interior design, (ii) the physical indoor environment, and (iii) technological solutions connected to the dwelling. It is a synthesis of the most relevant results from the preceding chapters and is based on the literature review and focus group sessions.
17
![Page 31: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/31.jpg)
Chapter 11: General discussion summarises the most important findings of the studies presented in this dissertation and discuss their relevance. Suggestions for future research and implications for society are outlined in the general discussion. All chapters of this dissertation are preceded by a figure showing the combined framework of ICF and MIBD. This figure shows how each chapter and its contents fit into the framework. Red borders represent the domains, which are researched in the study. Within the studies, focus can be on analysis and evaluation or on design. The figures can be used for structuring knowledge (analysis and evaluation) and for retrieving relevant information (design). References 1. Commission of the European Communities (2005) Communication from the commission. Green
Paper “Confronting demographic change: A new solidarity between the generations”. Commission of the European Communities, Brussels, Belgium
2. WHO (1948) Preamble to the Constitution of the World Health Organization as adopted by the International Health Conference, New York, 19-22 June, 1946; signed on 22 July 1946 by the representatives of 61 States (Official Records of the World Health Organization, no. 2, pp 100) and entered into force on 7 April 1948
3. Cohen U, Day K (1993) Contemporary environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA - London, UK
4. Krothe JS. Giving voice to elderly people: community-based long-term care. Public Health Nursing 1997;14(4):217-226
5. Stefanov DH, Bien Z, Bang W-C. The smart house for older persons and persons with physical disabilities: Structure, technology arrangements, and perspectives. IEEE Transactions on Neural Systems and Rehabilitation Engineering 2004;12(2):228-250
6. Klerk MMY, editor. Zorg en wonen voor kwetsbare ouderen. Rapportage ouderen 2004. The Netherlands Institute for Social Research, The Hague, The Netherlands; 2004 [in Dutch]
7. Ministry of Housing, Spatial Planning and the Environment (2006) Ouderen onder dak. Een onderzoek naar wonen, welzijn en zorg voor ouderen in kleine dorpen. Ministry of Housing, Spatial Planning and the Environment, The Hague, The Netherlands [in Dutch]
8. Health Council of The Netherlands (2002) Dementia. Publication no. 2002/04. Health Council of The Netherlands, The Hague, The Netherlands [in Dutch]
9. Verbeek H, van Rossum E, Zwakhalen SMG, Kempen GIJM, Hamers JPH. Small, homelike care environments for older people with dementia: a literature review. International Psychogeriatrics 2009;21(2):252-264
10. van den Berg Jeths A, Timmermans JM, Hoeymans N, Woittiez IB (2004). Ouderen nu en in de toekomst. RIVM, Bilthoven, The Netherlands [in Dutch]
11. Bussemaker J (2007). Brief aan de voorzitter van de Tweede Kamer der Staten-Generaal. Zorg ouderen: Om de kwaliteit van het bestaan. DLZ/KZ-2771018. Ministry of Health, Welfare and Sport, The Hague, The Netherlands [in Dutch]
12. van Dijken F, van Hoof J, Kort HSM (2006) Healthy buildings for older adults. In: de Oliveira Fernandes E, Gameiro da Silva M, Rosado Pinto J, editors. HB2006: Proceedings of the 8th International Conference Healthy Buildings, Volume III. Lisbon, Portugal. pp 127-130
13. Coalitieakkoord (2007) Coalitieakkoord tussen de Tweede Kamerfracties van CDA, PvdA en ChristenUnie. February 7th 2007 [in Dutch]
14. United Nations (2002) Second World Assembly on Ageing. Madrid, Spain. 8-12 April 2002. Political Declaration and Madrid International Plan of Action on Ageing.
15. Lefroy RB. The legacy of Alois Alzheimer: An historical perspective. American Journal of Alzheimer’s Disease and Dementias 2000;15(4):252-255
16. Schuurmans MJ, Duursma SA, Shortridge-Baggett LM. Early recognition of delirium: Review of the literature. Journal of Clinical Nursing 2001;10(6):721-729
17. Alzheimer A. Über eine eigenartige Erkrankung der Hirnrinde. Allgemeine Zeitschrift für Psychiatrie und Psychisch-Gerichtlichen Medizin 1907;64(1-2):146-148 [in German]
18. Gray Miceli D. Falls associated with dementia: How can you tell? Geriatric Nursing 2005;26(2):106-110
19. DeCarli C. Mild cognitive impairment: prevalence, prognosis, aetiology, and treatment. The Lancet Neurology 2003;2(1):15-21
20. Alzheimer’s Association. 2009 Alzheimer’s disease facts and figures. Alzheimer’s & Dementia 2009;5(3):234-270
21. van der Flier WM (2004) MRI correlates of cognitive decline. Findings from the spectrum of normal aging to Alzheimer’s disease. Dissertation. Universiteit Leiden, Leiden, The Netherlands
22. RIVM (2009) Hoeymans N, Gommer AM, Poos MJJC. Wat is de ziektelast in Nederland? In: Volksgezondheid Toekomst Verkenning, Nationaal Kompas Volksgezondheid. Bilthoven: RIVM,
18
![Page 32: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/32.jpg)
<http://www.nationaalkompas.nl> Gezondheid en ziekte\ Sterfte, levensverwachting en DALY’s\ Ziektelast in DALY’s, 7 december 2006. Nationaal Kompas Volksgezondheid, versie 3.20, 10 december 2009. RIVM, Bilthoven, The Netherlands [in Dutch] (http://www.rivm.nl/vtv/object_document/o1672n18840.html)
23. World Bank (1993) World Development Report: Investing in Health. World Bank, Washington, DC, USA
24. Mace NL, Rabins PV (2006) The 36-hour day. Fourth edition. The Johns Hopkins University Press, Baltimore, MD, USA
25. Alzheimer Europe (2006). Who cares? The state of dementia care in Europe. Alzheimer Europe, Luxembourg City, Luxembourg
26. Alzheimer Europe (2006). Dementia in Europe - Yearbook 2006. Alzheimer Europe, Luxembourg City, Luxembourg
27. Hofman A, Rocca WA, Brayne C, Breteler MMB, Clarke M, Cooper B, Copeland JRM, Dartigues JF, da Silva Droux A, Hagnell O, Heeren TJ, Engedal K, Jonker C, Lindesay J, Lobo A, Mann AH, Mölsä PK, Morgan K, O’Connor DW, Sulkava R, Kay DWK, Amaducci L, and for the Eurodem Prevalence Research Group. The prevalence of dementia in Europe: a collaborative study of 1980-1990 findings. International Journal of Epidemiology 1991;20(3):736-748
28. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca and for Alzheimer’s Disease International. Global prevalence of dementia: a Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
29. Dutch Alzheimer Society (2010) http://www.alzheimer-nederland.nl. Dutch Alzheimer Society (Stichting Alzheimer Nederland), Bunnik, The Netherlands [in Dutch]
30. Wimo A, Winblad B, Jönsson L. An estimate of the total worldwide societal costs of dementia in 2005. Alzheimer’s & Dementia 2007;3(2):81-91
31. Cbz (2003) Op tijd bouwen voor ouderen. Cbz, Utrecht, The Netherlands [in Dutch] 32. Sadiraj K, Timmermans J, Ras M, de Boer A (2009) De toekomst van de mantelzorg. The
Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch] 33. Gitlin LN (2003) Next steps in home modification and assistive technology research. In:
Charness N, Schaie KW, editors. Impact of technology on successful aging. Edited proceedings of a conference held at Pennsylvania State University, October 8-9, 2001. Springer, New York, NY, USA. pp 188-202
34. Covinksy KE, Johnston CB. Envisioning better approaches for dementia care. Annals of Internal Medicine 2006;145(10):780-781
35. Tjadens F, Duijnstee M (2000) The National Report: The Netherlands. In: Tjadens F, Pijl M, editors. The support of family carers and their organisations in seven Western-European countries. State of affairs in 1998. NIZW, Utrecht, The Netherlands
36. Duijnstee M, van den Dungen A, Cuijpers P, Maliepaard R (1998) The role, the burden and the support of informal care. In: Schrijvers AJP, editor. Health and health care in the Netherlands. A critical self-assessment by Dutch experts in the medical and health sciences. De Tijdstroom, Utrecht, The Netherlands. pp 45-59
37. Sweep M, Berlo A van, Stoop H (1998) Technology for dementing persons: A relief for informal carers? In: Graafmans J, Taipale V, Charness N, editors. Gerontechnology; A Sustainable Investment in the Future. IOS Press, Amsterdam, The Netherlands. pp 331-336
38. van Vliet AAM (2004) Zelfredzaam wonen. Bouwtechnische maatregelen voor de systematische aanpassing van de woning aan veranderende woonbehoeften. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
39. Ebly EM, Hogan DB, Rockwood K. Living alone with dementia. Dementia and Geriatric Cognitive Disorders 1999;10(6):541-548
40. Wackerbarth S, Johnson MMS. Predictors of driving cessation, independent living and power of attorney decisions by dementia patients and caregivers. American Journal of Alzheimer’s Disease and Other Dementias 1999;14(5):283-288
41. Duijnstee MSH (1992) De belasting van familieleden van dementerenden. Dissertation. Katholieke Universiteit Nijmegen, Nijmegen, The Netherlands [in Dutch]
42. Ministry of Community and Social Services (1990) Dementia and activities of daily living. A report on technologies and environmental design that can assist people with Alzheimer disease and related dementias. Ministry of Community and Social Services, Toronto, ON, Canada
43. Rommel W, Declerq A, De Clerq J, Van Audenhove C, Lammertyn F (1998) Tussen autonomie en geborgenheid: Dementerende ouderen en hun omgeving. Garant, Leuven Belgium/Apeldoorn, The Netherlands [in Dutch]
44. Blom M, Tjadens F, Withagen P (2000) Weten van vergeten. NIZW, Utrecht, The Netherlands [in Dutch]
45. Charness N, Holley P. Human factors and environmental support in Alzheimer’s disease. Aging & Mental Health 2001;5(Supplement 1):S65-S73
46. Brawley E. Alzheimer’s housing and environments. The American Journal of Alzheimer’s Disease 1996;11(2):46
19
![Page 33: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/33.jpg)
47. Lawton MP. The elderly in context: Perspectives from environmental psychology and gerontology. Environment and Behavior 1985;17(4):501-519
48. Cohen U, Weisman GD (1991) Holding on to home: Designing environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
49. Sloane PD, Mitchell CM, Weisman G, Zimmerman S, Foley KML, Lynn M, Calkins M, Lawton MP, Teresi J, Grant L, Lindeman D, Montgomery R. The Therapeutic Environment Screening Survey for Nursing Homes (TESS-NH): An observational instrument for assessing the physical environment of institutional settings for persons with dementia. The Journals of Gerontology Series B: Psychological Sciences and Social Sciences 2002;57(2):S69-S78
50. Helmuth L. All in your mind. Science of Aging Knowledge Environment 2003;2003(8):ns3 51. Desai AK, Grossberg GT. Recognition and management of behavioral disturbances in dementia.
Primary Care Companion to the Journal of Clinical Psychiatry 2001;3(3):93-109 52. Knopman DS, Sawyer-DeMaris S. Practical approach to managing behavioral problems in
dementia patients. Geriatrics 1990;45(4):27-30,35 53. Zeisel J, Silverstein NM, Hyde J, Levkoff S, Lawton MP, Holmes W. Environmental correlates to
behavioral health outcomes in Alzheimer’s special care units. The Gerontologist 2003;43(5):697-711
54. Fleming R, Forbes I, Bennett K (2003) Adapting the ward - for people with dementia. NSW Department of Health, Sydney, Australia
55. Warner ML (2000) The complete guide to Alzheimer’s-proofing your home. Revised and updated edition. Purdue University Press, West Lafayette, IN, USA
56. Galasko D: An integrated approach to the management of Alzheimer's disease: assessing cognition, function and behaviour. European Journal of Neurology 1998;5(Supplement 4):S9-S17
57. Hagen I, Holthe T, Gilliard J, Topo P, Cahill S, Begly E, Jones K, Duff P, Macijauskiene J, Budraitiene A, Bjørneby S, Engedal K. Development of a protocol for the assessment of assistive aids for people with dementia. Dementia 2004;3(3):281-296
58. Sweep MAJ (1998) Technology for people with dementia: User requirements. Report IGT/98.319. Institute for Gerontechnology, Eindhoven University of Technology, Eindhoven, The Netherlands
59. van Bronswijk JEMH, van Hoof J, Franchimon F, Koren LGH, Pernot CEE, van Dijken F (2005) De intelligente thuisomgeving. Een betaalbare zorg voor de lange duur. In: Zuidema EA, Stevens PGJJ, van Adrichem JAM, Kort HSM, Verbeek G, editors. Handboek Zorg Thuis. Elsevier gezondheidzorg, Maarssen, The Netherlands. pp C 5.3-1-C 5.3-28 [in Dutch]
60. Codinhoto R, Tzortzopoulos P, Kagioglou M, Aouad G, Cooper R. The impacts of the built environment on health outcomes. Facilities 2009;27(3-4):138-151
61. Brawley EC. Creating caring environments. Alzheimer’s Care Quarterly 2005;6(4):263-264 62. Day K, Carreon D, Stump C. The therapeutic design of environments for people with dementia.
A review of the empirical research. The Gerontologist 2000;40(4):397-416 63. Lemay M, Landreville P. Verbal agitation in dementia: The role of discomfort. American Journal
of Alzheimer’s Disease and Other Dementias 2010;25(3);193-201 64. Kort HSM (1994) A structured approach to allergen avoidance in dwellings with special
emphasis on the ecosystem of humid indoor walls and room partitions. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
65. Adan OCG (1994) On the fungal defacement of interior finishes. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
66. Koren LGH (1995) Allergen avoidance in home environments. A laboratory evaluation of measures against mite, fungi and cat allergens. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
67. Snijders MCL (2001) Indoor air quality and physical independence. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
68. Franchimon F (2009) Healthy building services for the 21st century. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
69. Mohammadi M (2010) Empowering seniors through domotic homes. Integrating intelligent technology in senior citizens homes by merging the perspectives of demand and supply. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
70. Coons DH (1991) Activities and staff approaches: The impact on behaviors. In: Coons DH, editor. Specialized dementia care units. John Hopkins University Press, Baltimore, MD, USA. pp 161-174
71. WHO (2001) International classification of functioning, disability and health. Resolution WHA54.21 of the fifty-fourth World Health Assembly, ninth plenary meeting, agenda item 13.9, 22 May 2001, A54/VR/9, World Health Organization, Geneva, Switzerland
72. Rutten PGS (1996) Strategisch bouwen. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
73. Nies H (2004) Chapter 1. Integrated care: concepts and background. In: Nies H, Berman PC, editors. Integrating services for older people: A resource book for managers. European Health Management Association (EHMA), Dublin, Ireland. pp 17-32
20
![Page 34: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/34.jpg)
74. Brand S (1994) How buildings learn - What happens after they’re built. Viking-Penguin, New York, NY, USA
75. Verstraten PF. The GIP. 14 observation scales for psychogeriatric behavior problems. Tijdschrift voor Gerontologie en Geriatrie 1988;19(4):147-151 [in Dutch]
21
![Page 35: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/35.jpg)
22
![Page 36: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/36.jpg)
2
Policy and practice van Hoof J, Kort HSM, van Waarde H Housing and care for older adults with dementia. A European perspective. Journal of Housing and the Built Environment 2009;24(3):369-390 Chapter 2 focuses on the state-of-the-art of ageing-in-place in relation to policy and practice. The chapter examines more closely the type of housing facilities in which people with dementia live in the various countries of the European Union and how family care is related to the type of housing facilities for older adults, and for people with dementia in particular. These questions are relevant as the majority of research literature, which is included in this dissertation, stems from Anglo-Saxon countries. The applicability and implementation of research findings, as well as a person’s living career, may differ from country to country in accordance with traditions and cultures, as well as political choices on a national level and legislation. Within the combined framework of ICF-MIBD, Chapter 2 deals with legislation and policies in relation to the total design.
23
![Page 37: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/37.jpg)
24
![Page 38: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/38.jpg)
The ageing of society goes together with an increasing number of older adults with dementia. This group has specific housing and care needs reflecting their physical and mental health status, which has implications for the housing market, the public housing task, and the related provision of care. Within the European Union, there are various care and welfare regimes that constitute an underlying cause of the broad range of solutions chosen to organise care and housing of older adults with dementia. These regimes also account for the large differences that exist in the current housing situation of older adults with dementia in relation to the level of care they receive and the involvement of relatives. The paper zooms in on the situation in The Netherlands, where national policies focus on (i) ageing-in-place, (ii) the separation of residence and care, and (iii) substitution of institutional by non-institutional types of living. Within institutional settings, a transition is made towards small-scale group accommodation (SSGA) for older adults with dementia. Solutions within the domain of care consist of facilitating family carers, whereas housing solutions are directed to SSGA and use of technology and implementation of modifications to the living environment. 1. Introduction The population of Europe is ageing rapidly. Older adults do not comprise a homogeneous population, particularly in terms of health and lifestyle. About 24.3 million people worldwide cope with dementia. This number will treble by the year 20401. On the level of the individual occupant, age-related health problems can be the basis for home modifications and retrofitting, moving, or simply living under less favourable conditions2. Older adults with dementia (OAWD) have specific housing and care needs, given their physical and cognitive status3, which in turn have consequences for the housing market, the public housing task, and the provision of care. National and local governments are in a process of transforming the sectors of housing and care in order to accommodate the growing population of OAWD and to provide them with the type and right amount of care they need. Unfortunately, the figures and policies regarding housing and care for OAWD in Europe are not centrally documented. O’Malley and Croucher4 state that “throughout the policy literature there is little to guide practitioners, service planners or relatives in housing-related choices or issues for older people with dementia. As the incidence of dementia rises against an apparent policy vacuum, it is timely and relevant to examine the research evidence that exists with regard to housing for this relatively neglected minority of older people”. This paper provides some information relevant to these professionals and may contribute to solving the aforementioned issues for OAWD. This paper explores and summarises (i) the demographics of dementia in Europe, (ii) the framework in which the care and welfare regimes of EU member states are organised, and (iii) the solutions that EU member states choose for care and housing of OAWD. The paper zooms in on the situation in The Netherlands, a country that is actively transforming its policies and practice in relation to dementia. 2. Demographics in the EU Within Europe, there are large differences in the total number of people with dementia per country (Table 1), as well as in prevalence rates5. According to Alzheimer Europe7, there were about 5.4 million people with dementia in the EU-25 in 2005. Numbers are predicted to double for Western Europe and to treble for Eastern Europe by 2040. According to Brookmeyer et al.8, there were about 7.21 million people with dementia in Europe in 2006. This number is estimated to be 16.51 million for the year 2050. The highest number of people with dementia is given by Wimo et al.5, who estimate the number to be 8.07 million.
25
![Page 39: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/39.jpg)
Tab
le 1
. Dem
entia
in th
e E
U in
200
5. D
irect
cos
ts o
f car
e ar
e sh
own
toge
ther
with
cos
ts fo
r in
form
al (
AD
L) c
are
for
thre
e sc
enar
ios
(tak
en a
nd a
dapt
ed fr
om
Wim
o et
al.5 ).
Pric
e le
vels
are
com
pare
d to
thos
e in
The
Net
herl
ands
, bas
ed o
n ne
t dom
estic
pur
chas
ing
pow
er (
from
UB
S6 ).
C
ount
ry‡
Num
ber
of
peop
le w
ith
dem
entia
(x
10
00)§
Num
ber
of
peop
le w
ith
dem
entia
(p
er 1
000
in
habi
tant
s)
Dire
ct
cost
s (x
10
6 €)*
Sce
nario
1: 1
.6 h
ours
of i
nfor
mal
car
e/da
y S
cena
rio 2
: 3.7
hou
rs o
f inf
orm
al c
are/
day
Sce
nario
3: 7
.4 h
ours
of i
nfor
mal
car
e/da
y
Cos
ts fo
r in
form
al
care
(x
106 €
)*
Tot
al
cost
s (x
10
6 €)*
Per
pe
rson
(€
)*
Rel
ativ
e pr
ice
leve
l [%
]†
Cos
ts fo
r in
form
al
care
(x
106 €
)*
Tot
al
cost
s (x
10
6 €)*
Per
pe
rson
(€
)*
Rel
ativ
e pr
ice
leve
l [%
]†
Cos
ts fo
r in
form
al
care
(x
106 €
)*
Tot
al
cost
s (x
10
6 €)*
Per
pe
rson
(€
)*
Rel
ativ
e pr
ice
leve
l [%
]†
Est
onia
12
.1
9.0
68
34
103
8,50
0
62
80
148
12,2
00
60
160
228
18,8
00
58
Slo
veni
a 18
.9
7.8
141
90
232
12,3
00
72
209
350
18,5
00
78
417
559
29,6
00
83
Latv
ia
21.7
9.
4 94
39
13
3 6,
100
-1
3
89
184
8,50
0
-18
17
8 27
3 12
,600
-2
1
Irel
and
33
.7
8.2
469
167
637
19,0
00
5.0
387
856
25,4
00
-3.3
77
3 1,
242
36
,900
-9
.7
Lith
uani
a 34
.1
10.0
16
6 70
23
6 6,
900
41
16
2 32
8 9,
600
34
32
4 49
0 14
,300
29
S
lova
kia
42.1
7.
8 23
2 10
5 33
7 8,
000
35
24
3 47
5 11
,300
30
48
7 71
9 17
,100
26
F
inla
nd
63.5
12
.1
680
184
864
13,6
00
-8.0
42
5 1,
106
17
,400
-1
9
850
1,53
1
24,1
00
-28
D
enm
ark
68.5
12
.7
817
645
1,46
2
21,3
00
26
1,49
1
2,30
8
33,7
00
37
2,98
3
3,80
0
55,5
00
45
Bul
garia
79
.8
10.3
25
3 11
0 36
3 4,
600
20
25
5 50
8 6,
400
15
51
1 76
3 9,
600
11
A
ustr
ia
95.1
11
.6
1,09
2
545
1,63
7
17,2
00
24
1,26
1
2,35
3
24,7
00
22
2,52
3
3,61
4
38,0
00
21
Cze
chia
97
.2
9.5
612
282
893
9,20
0
30
651
1,26
3
13,0
00
26
1,30
2
1,91
4
19,7
00
23
Hun
gary
10
0.3
9.
9 57
9 31
4 89
3 8,
900
40
72
5 1,
304
13
,000
40
1,
450
2,
030
20
,200
40
P
ortu
gal
113.
0
10.7
75
0 20
6 95
7 8,
500
-0
.5
477
1,22
7
10,9
00
-13
95
4 1,
704
15
,100
-2
2
Bel
gium
13
2.9
12
.7
1,42
5
759
2,18
4
16,4
00
4.1
1,75
4
3,17
9
23,9
00
3.8
3,50
8
4,93
3
37,1
00
3.6
Sw
ede
n
141.
2
15.7
1,
451
58
1 2,
032
14
,400
3.
0 1,
345
2,
796
19
,800
-2
.9
2,68
9
4,14
0
29,3
00
-7.5
G
reec
e
142.
9
12.8
1,
099
55
6 1,
655
11
,600
0.
8 1,
286
2,
385
16
,700
-0
.5
2,57
2
3,67
0
25,7
00
-1.5
R
oman
ia
180.
5
8.3
544
281
826
4,60
0
-8.4
65
1 1,
195
6,
600
-9
.2
1,30
1
1,84
6
10,2
00
-9.8
T
he N
eth
erla
nds
181.
3
11.1
1,
921
1,
035
2,
956
16
,300
2,39
3
4,31
4
23,8
00
4,
787
6,
707
37
,000
Pol
and
313.
6
8.2
1,39
9
961
2,36
0
7,50
0
44
2,22
2
3,62
1
11,5
00
51
4,44
3
5,84
2
18,6
00
57
Spa
in
541.
9
12.6
4,
897
2,
552
7,
448
13
,700
-0
.4
5,90
1
10,7
98
19,9
00
-1.1
11
,803
16
,699
30
,800
-1
.6
Fra
nce
79
6.2
12
.7
7,97
8
2,77
4
10,7
52
13,5
00
3.6
6,41
4
14,3
93
18,1
00
-5.0
12
,828
20
,807
26
,100
-1
2
Uni
ted
Kin
gdom
81
1.7
13
.5
8,48
1
4,35
3
12,8
34
15,8
00
7.0
10,0
65
18,5
46
22,9
00
6.0
20,1
31
28,6
12
35,3
00
5.2
Italy
85
0.0
14
.5
8,32
6
4,19
9
12,5
25
14,7
00
46
9,71
0
18,0
36
21,2
00
44
19,4
20
27,7
46
32,6
00
42
Ger
ma
ny
1,08
6.8
13
.2
11,4
09
6,24
9
17,6
58
16,2
00
-1.4
14
,451
25
,860
23
,800
-1
.1
28,9
02
40,3
11
37,1
00
-0.8
* A
ll co
st fi
gure
s ar
e de
rived
from
US
$ fig
ures
at a
rat
e of
1:1
.27
(mea
n ex
chan
ge r
ate
200
5).
† The
com
paris
on to
pric
e le
vels
in T
he N
eth
erla
nds
is b
ased
on
net d
omes
tic p
urch
asin
g po
we
r b
y U
BS
6 of t
he c
apita
l citi
es (
Ger
man
y: a
vera
ge o
f Be
rlin
and
Fra
nkfu
rt;
Spa
in: a
vera
ge o
f Mad
rid
and
Bar
celo
na).
‡ O
nly
coun
trie
s w
ith o
ver
10,0
00 p
eopl
e w
ith d
emen
tia a
re s
how
n.
§ The
num
ber
of p
eopl
e w
ith d
emen
tia m
ay
diffe
r fr
om o
the
r st
udie
s or
nat
iona
l ins
titut
ions
.
26
![Page 40: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/40.jpg)
3. Care and welfare regimes in the EU: financing The way care and health services are provided depends partly on a country’s care and welfare regime. According to Nies and Berman9, four main types of regimes can be distinguished in the EU, primarily based on the perspective of financing of care: 1.) The ‘Beveridge’ or Anglo-Saxon system: public provision and ‘single payer’ financing from taxes, in which the paying authority is responsible for managing the services provided. 2.) The ‘Bismarck’ or Central European system: a variety of ‘quasi-public’ payers and corporatist arrangements with the state, social insurance-funded and controlled by legal private organisations. 3.) ‘Mediterranean’ or Southern European systems: mixed systems with elements of national health insurances and others from social insurance models. Strong element of family responsibility and a less-developed public long-term care sector. 4.) ‘Eastern European’ or developing former socialist systems: strong tradition (and expectation) of state provision. Resources are scarce and the role of the state has changed. According to Pommer et al.10, there are roughly three ways in which health care regimes are organised in Western Europe. In short, the Scandinavian model is based on the individual autonomy of citizens; it puts primary responsibility for the own care provision on individuals. Governments step in when individuals experience health problems. The Continental model, which is based on the autonomy of the nuclear family, puts responsibility primarily on direct family members in case of health problems. In the Mediterranean model, this responsibility is placed on the extended family10, although its role is changing due to demographics and economic processes7. These models are based on the perspective of responsibility for providing care. Based on the perspective of the provision of care, Pommer et al.10 distinguish four regimes, ordered from the perspective of formal or informal carers: 1.) Families have a legal obligation to provide care. The state takes over this responsibility in exceptional cases (Greece). 2.) Family responsibility exacted by the state. The state is responsible when families are unable to fulfil responsibility for caregiving (Italy, Spain). 3.) There is collective responsibility for people that require intensive forms of care. This responsibility is ratified by law. Informal networks are responsible for people with a minor demand for care (Germany, Austria, France). 4.) There is collective responsibility for people that require intensive forms of care. This responsibility is ratified by law. Informal care is stimulated but cannot be exacted by the state (Sweden, Denmark, The Netherlands). The various care regimes directly determine the type and quality of services such as housing and home care. There are great differences in terms of state responsibility, funding, the role of families, and the actual availability of home care services, between and within EU member states7. 3.1. Costs of care The financial and societal costs of care for people with dementia are rather significant. According to Wimo et al.5, the costs of informal care in 2005 were an estimated € 26.8 billion for the EU, or about € 4,700 per person with dementia (Table 1). The direct costs of dementia care are an estimated € 54.3 billion, or € 14,200 per person with dementia (Table 1). Informal care constitutes a major cost component, in particular in economically less developed regions5. The costs per person can vary considerably, even within the more developed countries and when considering the net domestic purchasing power (Table 1). In countries where relatives are responsible for providing care, dementia care can take about 10 to 25% of a family’s average net annual income11, including telephone costs and expenses for travelling and transportation. The ratio of time spent on care for (instrumental) activities of daily living (IADL/ADL) at home by informal carers versus formal carers in Sweden is roughly 4:1. This ratio is likely to be higher in Mediterranean countries12. Many informal carers are older adults themselves, and health problems may arise from the stresses of caring for a loved one13. In order to alleviate the burden of care, respite care is available in many countries to OAWD living at home or even in residential institutions12. Similar to programmes for informal carers, most countries do not provide dementia-specific home help services, as do Germany, Sweden and the United Kingdom12. Alzheimer Europe11 explored the impact of dementia on
27
![Page 41: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/41.jpg)
informal carers and found that for the majority of carers important services such as home support, day care, and residential or nursing home care were not available. About two-thirds paid themselves for home care, over half for day care, and almost 90% for residential or nursing home care11. 4. Care and housing solutions for dementia The types of housing and care services and dementia care policies in various EU member states are summarised in Table 2. Some services are provided all over Europe, including assistance with small household repairs. Day care centres are available all over Europe, except for Spain and Romania. Provisions for night-time care are offered mainly in the ‘North Sea countries’7. 4.1 Southern Europe The organisation and provision of home care services (domestic and personal care) cannot be considered in isolation from family carers, particularly in Southern Europe7, where there is a cultural tradition as well as a legal obligation to care for dependent relatives. The provision of home care services by the state is considered as optional, and the availability of appropriate services tends to be unevenly distributed or simply lacking7. In Italy and Spain, institutional settings are limited to those people who have no access to adequate informal care and with insufficient financial resources10. Greece hardly offers public institutional care, meaning that people have to turn to regular medical care or private institutions. There are a limited number of institutional state facilities for those with few financial resources. People with financial means can turn to private care. There are no home care services in two-thirds of Greek municipalities10. In Portugal, family accommodation or boarding out (housing dependent people within families) is a form of care given to those without relatives or financial means7. 4.2 Central Europe In German-speaking countries and in France, the family forms the primary mode of care. Collectively organised systems can provide formal care in situations requiring prolonged and regular care. Austria had a low use of institutional settings. In France, these settings have a poor reputation10. Diagnosis of Alzheimer’s disease is a factor for a non-specialised institution to refuse admission, even though France has less than ten specialised psychogeriatric institutions12. In Germany, institutional settings play an important role9, including dementia-specific long-term care institutions and special care units (SCUs) called ‘Demenzstationen’12. Novel strategies of dementia care are supported at the national level, including group care, memory clinics, day centres, trained home visiting helpers, alternative living arrangements, group living, and music therapy12,15-17. Small-scale group accommodation (SSGA) is found both in France (cantou) and Germany (Wohngruppen)17,18. Luxembourg, Germany, Austria, and Flanders/Brussels have long-term care insurances that cover home care based on assessed needs7. Policies are aimed at helping people to maintain their independence and age-in-place. 4.3 Scandinavia In Scandinavia, the governments and local authorities also take responsibility for providing care to older adults with a limited demand for care (domestic care), either directly or by granting allowances that people can use to purchase services. Partners bear primary responsibility to care for a spouse. Services are mainly funded through general taxation. There is a wide system of institutional facilities, but ageing-in-place is stimulated. Ageing-in-place has led to deinstitutionalisation movements, limiting the capacity of institutional settings to the benefits of semi-residential facilities and home care (in modified dwellings)7,10. In Sweden and Denmark, SSGA was introduced as a substitute for nursing home capacity. Particularly Sweden has embraced SSGA as a successful housing arrangement12,17. Although there are no dementia-specific group-living facilities, about 90% of available beds are occupied by OAWD. In fact, SSGA is so successful that facilities are now being integrated into other assisted-living facilities12. Throughout Scandinavia, some nursing home capacity is used for short-term care12.
28
![Page 42: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/42.jpg)
4.4 The British Isles In the British Isles, there are differences within the separate countries. According to O’Malley and Croucher4, the UK policies regarding the development of extra-care housing neglect the long-term future of OAWD and the progressive nature of dementia (Figure 1). Moreover, policy tends to treat housing separately from care, and even more so from dementia, while an integral approach is needed. Generally, people are encouraged to age-in-place, and the UK government is promoting the construction of lifetime homes19. Group-living is also common on the British Isles. Communities and Local Government plays a role in ensuring that housing support teams work to enhance joint health and social care mental health teams in the community so OAWD and (in)formal carers receive support in a range of housing settings19. Access to community care services in the Republic of Ireland varies from one region to the next and has been limited. In England and Wales, the state is obliged to provide an assessment of care needs but is not actually obliged to provide the services. There is a general commitment on the part of the state to provide services to enable independence within the own home environment7. In Scotland, people aged 65 and over are entitled to free nursing, free personal care, and increased access to direct payments for home care services7. In the UK, OAWD are often referred to memory clinics when available, but are more likely to be referred to a specialist for treatment12. 4.5 Eastern Europe In Bulgaria and Poland, some home care services are provided by the state. Priority is given to older adults who lack financial means and live alone7. In Bulgaria, Hungary, and Poland, one can draw up a contract with third parties, which includes ceding property in exchange for care and/or maintenance7. In the Czech Republic, assistance with everyday tasks is not routinely provided. However, there is a commitment on the part of the state to facilitate independent living. Also in Hungary and Estonia, there is no legal obligation to provide home care services, although there is a commitment on the part of the state to provide support for the aged. In Romania, home care services only cover nursing care, which is limited to a certain number of days per year7. 5. Policies on housing and care for dementia in The Netherlands According to the Dutch Alzheimer Society, there were approximately 270,000 people with dementia in 2008 (of which 10,000 are younger than 65), out of a total population of 16.4 million inhabitants. This number will rise to over 400,000 by the year 205020,21. Nationally, dementia ranks number 10 among the most disabling health problems21. About half of the care dependence of older adults is allocated to dementia20, because intensive care is needed. The housing trend for all older adults in The Netherlands is a succession of living situations that match the level of care needed or the amount of service desired (Figure 1). This range generally runs from independent living in the own home with optional home care, to assisted-living facilities, residential homes for the aged or care homes, and nursing homes2. The number of older adults receiving professional care in relation to housing on a daily basis is not very large. Only 15% receive home care, 5% live in a care home, and about 2.5% reside in a nursing home22. The Netherlands Ministry of Health, Welfare and Sport works together with the Ministry of Housing, Spatial Planning and the Environment in the field of housing, care, and welfare. In order to support OAWD, the Dutch government has three main focal points in their policies, which impact the way OAWD are housed and cared for: (i) ageing-in-place in the own dwelling or assisted-living facilities, (ii) the separation of financing of residence and care, and (iii) substitution of institutional by non-institutional living.
29
![Page 43: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/43.jpg)
Small-scale group accommodation
Diagnosis Early Intermediate Late End of lifeSTAGE
SETTINGS
Living in an institutionLiving independently at home
Own home
Assisted-living facility
Nursing home
Care home
Special nursing care unit
Presumed living career
Living career in practice
LEVEL OF SERVICES
FACILITY TYPESFROM INDEPENDENT TO INSTITUTIONAL LIVING
Small-scale group accommodation
Nursing home
Special nursing care unit
Care Home
Home
Assisted-living facility
Day care
Technology used by residents
Technology used by carers
LOW
HIGH
Figure 1. The housing continuum for persons with dementia. The presumed succession of living situations starts from living independently at home, which can be followed by living institutionally if health declines and people survive. Although this housing sequence is seen in the majority of persons with dementia, some develop dementia when residing in care and nursing homes for somatic reasons, while others pass away while living at home. The transfer from one home to the other depends on the state of the home or facility, care regime and policies, and the presence of family care. The lower diagram, partly based on Cohen and Weisman14, illustrates the relationship between level of services and environmental options matching the types of housing. 5.1. Current living situation The housing situation of the current generation of OAWD in relation to the care they receive is very diverse. The housing types mentioned in this study include the own home, care homes, nursing homes, and SSGA. The places where people with dementia live depend on the stage of dementia (Table 3, Figure 1) and cognitive status, but also on the availability of informal carers and their ability to cope with the stresses of caring for a loved one. 5.1.1. Ageing-in-place An estimated 166,000 people with dementia live at home (65% of all OAWD)20. About 87% receive informal care only; the other 13% receive professional care at home. Professional home care and day treatment to supplement informal care are only available for a limited number of hours per week20. Temporary housing, so-called ‘short-stay accommodation’, is offered as respite care. In these facilities, OAWD are housed in a home-like atmosphere.
30
![Page 44: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/44.jpg)
There they receive care by professionals for a period of time ranging from half a day to several weeks in order to provide a break for carers12,13. When dementia progresses, OAWD become more dependent on others and eventually need 24-hour monitoring or company20. This need cannot be fulfilled by regular professional home care. The availability, coherence, and continuity of formal care provisions determine whether informal carers can keep on giving support. Very old seniors with dementia are more likely to live alone or with a partner in need of help him/herself who cannot deal with the physical strain of caring20. Even though ageing-in-place is generally propagated and stimulated, the often emotional admission to a nursing home is sometimes the best and most sensible solution for all parties involved. 5.1.2. Care homes and nursing homes In The Netherlands, about a third of all people with dementia are institutionalised (Table 2). People may develop dementia while residing in an institution for somatic reasons, or they may be institutionalised after having lived in the community (Figure 1). Care homes primarily provide care for older adults who are no longer capable of living entirely independently21 and offer single person rooms (sometimes double person rooms) or apartments. Provision of care forms an integral part of residence in such facilities21. Nursing homes are institutions for people requiring permanent supervision, care, nursing, or convalescence that they cannot receive (to a sufficient degree) at home or in a care home. The criteria for admission to nursing homes are explicit, and a differentiation is made during assessments between the need for psychogeriatric and somatic care. Admission may be temporary or permanent. Most newly-built nursing homes consist of single person rooms. Both care homes and nursing homes are undergoing an intensive transition process towards less general capacity and another system of financing. This includes the separation of residence and care in an effort to separate the costs for care and rent, or residence, in institutional settings. Currently, residence and care are integral parts of the services provided. Providing residence will no longer be part of public care but become part of the public housing task. A special feature in institutional settings is the dementia special care unit, a dedicated nursing unit that provides enhanced care and a specialised programme of activities for people with dementia. 5.1.3. Small-scale group accommodation In the light of deinstitutionalisation, an increasing capacity of SSGA has been created in the direct vicinity of, or at some distance from, large-scale institutions. In 2005, there were over 4,400 places available in these SSGAs in 349 locations. SSGA capacity is expected to rise from 4,442 in 2005 to 6,392 places in 201029, although the demand is even larger. SSGA is characterised by a surveyable size (6 to 8 people) and integration of a ‘normal’ householding as part of the 24-hour care and surveillance offered by one or two staff members21,30. There is room for one’s own furniture and goods in a private living/bedroom. The kitchen unit, living room, and in most cases the sanitary units are shared. There are four types of SSGA: (i) stand-alone group accommodation in a neighbourhood, (ii) group accommodation near or within a care home (or assisted-living facility), (iii) group accommodation near or within a nursing home, and (iv) group accommodation as part of the provision of care for the neighbourhood as a whole (lifetime neighbourhoods)30. In The Netherlands, the basic concept of SSGA originates from care for people with a mental or physical handicap. The most important motive for creating SSGA is a combination of the increased quality of care and housing for clients in small-scale settings and the presence of large-scale availability and efficiency of the care organisation.
31
![Page 45: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/45.jpg)
Tab
le 2
. Ava
ilabl
e su
ppor
t sys
tem
s, ty
pes
of h
ousi
ng, a
nd h
ealth
car
e po
licie
s fo
r de
men
tia in
a s
elec
tion
of n
ine
EU
mem
ber
stat
es. D
ata
are
deriv
ed fr
om
Alz
heim
er E
urop
e7 , A
lzhe
imer
Eur
ope11
, and
Moi
se e
t al.12
, alth
ough
man
y da
ta a
re u
nkno
wn
or p
oorly
des
crib
ed in
inte
rnat
iona
l lite
ratu
re.
T
he
Net
herla
nds
Uni
ted
Kin
gdom
Ita
ly
Spa
in
Fra
nce
Pol
and
Gre
ece
Ger
man
y S
wed
en
Peo
ple
wit
h d
emen
tia
livi
ng
at
ho
me
and
pre
sen
ce o
f fa
mil
y ca
rers
P
eopl
e at
hom
e 65
%
Abo
ut 6
3.5%
of
peop
le w
ith la
te
onse
t de
men
tia li
ve
in p
rivat
e ho
useh
olds
(M
artin
et
al.23
)
63%
97
%
Fam
ily
care
r /
spou
se
pres
ent
In
form
al c
arer
s sp
end
78%
of t
ime
on c
are
80%
of p
eopl
e w
ith
dem
entia
in It
aly
live
at h
ome,
as
sist
ed b
y re
lativ
e (V
alla
and
H
arrin
gton
24)
45%
, as
a
perc
enta
ge o
f co-
resi
dent
s sp
ouse
-ca
rers
18%
spo
uses
, 53
%
adul
ts c
hild
ren
28%
spo
uses
, 22
%
adul
t ch
ildre
n (4
5.5
h/w
eek)
Spo
uses
pre
sent
in
91%
of
mal
es,
72%
of
fem
ales
. 80
% o
f tim
e sp
ent o
n (I
)AD
L by
info
rmal
car
er
Ava
ilab
le s
up
po
rt s
yste
ms
H
ome
supp
ort,
repo
rted
Hom
e ca
re is
ope
n to
eve
ryon
e w
ho
need
s th
is s
ervi
ce.
Mos
t clie
nts
are
olde
r ad
ults
. O
ver
600,
000
peop
le
rece
ive
hom
e ca
re
annu
ally
. T
his
num
ber
incr
ease
s du
e to
age
ing-
in-
plac
e an
d ea
rly
disc
harg
e fr
om
hosp
itals
.
Dem
entia
-spe
cific
A
DL
help
and
nu
rsin
g he
lp
avai
labl
e na
tionw
ide.
Car
e fr
om a
reg
iste
red
nurs
e is
alw
ays
prov
ided
fre
e by
the
N
HS
, re
gard
less
of
setti
ng. A
vaila
ble
for
50%
of p
eopl
e in
S
cotla
nd
Hom
e su
ppor
t is
re
ceiv
ed b
y 1%
of
all p
eopl
e ag
ed 6
5 an
d ov
er.
Ava
ilabl
e fo
r 44
% o
f pe
ople
. S
yste
mat
ic
AD
L an
d nu
rsin
g he
lp s
ervi
ces
are
bein
g de
velo
ped.
T
here
are
ap
prox
imat
ely
175,
000
plac
es
avai
labl
e in
as
sist
ed li
ving
fa
cilit
ies
Ava
ilabl
e fo
r 37
% o
f pe
ople
. H
ome
nurs
ing
care
se
rvic
es e
xist
to
prev
ent,
post
pone
or
shor
ten
stay
s in
ho
spita
l or
resi
dent
ial c
are
inst
itutio
ns
Ava
ilabl
e fo
r 54
% o
f pe
ople
Ava
ilabl
e fo
r 34
% o
f pe
ople
, ba
sed
on th
e Lo
ng-t
erm
Car
e S
uppl
emen
tary
Act
. H
ome
supp
ort
is
rece
ived
by
6.5%
of
all p
eopl
e ag
ed 6
5 an
d ov
er
Dem
entia
-spe
cific
he
lp w
ith A
DL
avai
labl
e. E
ligib
ility
va
ries
amon
g m
unic
ipal
ities
. H
ome
supp
ort
is
rece
ived
by
10%
of
all p
eopl
e ag
ed 6
5 an
d ov
er
Typ
e of
ho
me
care
se
rvic
es
Hom
e nu
rsin
g,
pers
onal
car
e,
dom
estic
car
e,
day
care
, re
spite
ca
re,
nigh
t car
e an
d as
sist
ive
devi
ces.
A
spec
ial s
ervi
ce
calle
d ‘a
lpha
ca
re’ c
onsi
sts
of
hom
e ca
re th
at is
pr
ovid
ed b
y ho
usew
ives
.
Per
sona
l car
e,
dom
estic
car
e,
shop
ping
, sh
ort
brea
ks/r
espi
te c
are,
ho
me
adap
tatio
ns,
mea
ls,
info
rmat
ion
abou
t lo
cal s
ervi
ces,
da
y ca
re a
nd
tran
spor
tatio
n,
advo
cacy
ser
vice
s,
befr
iend
ing
serv
ices
, pr
ovis
ion
of e
quip
men
t to
help
w
ith d
aily
tas
ks a
nd
alar
m s
yste
ms,
pr
ovis
ion
of
disa
bilit
y ai
ds a
nd
equi
pmen
t,
Hom
e he
lp,
mea
ls,
pers
onal
ca
re,
nurs
ing,
re
habi
litat
ion,
and
pr
osth
esis
su
pply
, ad
min
istr
ativ
e se
rvic
es.
Dep
endi
ng o
n av
aila
bilit
y pe
r co
mm
un
ity:
soci
al w
ork,
do
mes
tic c
are,
m
eals
-on-
whe
els,
te
le-a
larm
se
rvic
es. I
n pr
actic
e, h
ome
care
ser
vice
s ar
e m
ore
or le
ss
limite
d to
ho
useh
old
task
s,
sinc
e pe
rson
al
care
is
cons
ider
ed a
tas
k of
the
fam
ily
Acc
ompa
nyin
g th
e pe
rson
, hom
e m
odifi
catio
ns,
adm
inis
trat
ive
help
, da
y or
nig
ht c
are
at
hom
e, d
eliv
ery
of
med
icat
ion
(em
phas
is o
n ru
ral
area
s),
mea
l as
sist
ance
, gr
anny
si
tting
, ho
spita
lisat
ion
at
hom
e, h
ome
alar
m
serv
ice,
dom
estic
he
lp,
keep
ing
the
pers
on c
ompa
ny,
mea
ls-o
n-w
heel
s (n
ot v
ery
popu
lar)
,
Man
agin
g th
e ho
useh
old,
pre
vent
ing
soci
al
excl
usio
n/pr
omot
ing
soci
al in
tegr
atio
n, d
oing
sm
all r
epai
rs,
laun
dry,
tr
ansp
ort,
day
care
ce
ntre
s
KA
PI
cent
res
offe
r: p
reve
ntiv
e m
edic
al s
ervi
ces,
ph
ysio
ther
apy
and
occu
patio
nal
ther
apy
prog
ram
mes
, he
alth
edu
catio
n,
and
recr
eatio
nal
activ
ities
. M
any
KA
PI
cent
res
colla
bora
te w
ith
the
Hel
p at
Hom
e pr
ojec
t, w
hich
of
fers
a r
ange
of
soci
al a
nd h
ealth
ca
re s
ervi
ces,
as
wel
l as
fam
ily
Hom
e ca
re
serv
ices
cov
ered
by
the
LT
CI:
pers
onal
hyg
iene
, nu
triti
on:
assi
stan
ce w
ith
eatin
g, m
obili
ty,
dom
estic
car
e,
orga
nise
d ca
re:
resp
ite c
are,
day
ca
re a
nd n
ight
ca
re,
and
nurs
ing/
te
chni
cal a
ids
Hel
p w
ith c
are
mea
ns p
erso
nal
help
with
task
s ne
eded
in o
rder
to
satis
fy t
he p
erso
n's
phys
ical
, m
enta
l and
so
cial
nee
ds;
help
w
ith I
(AD
L),
act
iviti
es to
bre
ak
isol
atio
n, h
ome
clea
ning
and
la
undr
y, m
easu
res
for
safe
ty a
nd
se
curit
y at
hom
e, o
r a
safe
ty-a
larm
(fo
r pe
ople
with
mild
de
men
tia).
In
addi
tion
to h
ome
32
![Page 46: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/46.jpg)
assi
stan
ce w
ith
adap
tatio
ns to
the
ho
me.
mob
ile li
brar
y,
para
med
ical
ser
vice
, re
pair
serv
ice
for
smal
l rep
airs
, re
spite
ca
re, s
ocia
l no
ctur
nal e
mer
genc
y se
rvic
es, t
echn
ical
as
sist
ance
, tr
ansp
orta
tion
assi
stan
ce. I
n th
e tw
o la
rges
t citi
es,
ther
e is
a 2
4-ho
ur
tele
-ala
rm s
yste
m
linke
d to
fam
ily,
neig
hbou
rs,
the
polic
e or
the
am
bula
nce
serv
ice
help
, ot
her
mun
icip
al s
ervi
ces
for
the
aged
incl
ude
tran
spor
tatio
n se
rvic
es, f
oot c
are,
m
eals
on
whe
els,
se
curit
y al
arm
s,
hous
ing
adap
tatio
ns
and
disa
bilit
y su
ppor
t. D
ay
care
S
ervi
ce o
ffere
d by
ca
re a
nd n
ursi
ng
hom
es.
Ove
r 20
,000
peo
ple
mad
e us
e of
day
ca
re in
200
1
S
emi-r
esid
entia
l st
ruct
ure,
with
in
the
dist
rict.
Ope
ned
durin
g w
eekd
ays,
7
hour
s a
day,
for
th
e pr
ovis
ion
of
heal
th/s
ocia
l car
e se
rvic
es
B
y 20
07,
13,0
00
extr
a pl
aces
in
ther
apeu
tic d
ay c
are
cent
res
and
resp
ite
cent
res,
whi
ch
repr
esen
ts a
four
fold
in
crea
se in
ava
ilabl
e pl
aces
. A
vaila
ble
in
69
% o
f cas
es in
a
stud
y by
Can
tegr
eil-
Kal
len
et a
l.25)
Day
car
e ce
ntre
s of
fer
4 to
8 h
ours
of c
are
per
day.
Ser
vice
s in
clud
e m
eals
, ac
tiviti
es,
and
care
fro
m a
nur
se. T
he
num
ber
of d
ay c
are
cent
res
is s
tead
ily
decr
easi
ng
A n
umbe
r of
day
ca
re c
entr
es h
ave
been
set
up
sinc
e th
e in
trod
uctio
n of
th
e N
atio
nal S
ocia
l C
are
Sys
tem
in
1998
. T
hese
are
cl
osel
y lin
ked
to
KA
PIs
D
ay c
are
for
peop
le
with
dem
entia
av
aila
ble
sinc
e th
e ea
rly 1
990s
. S
ervi
ces
for
dem
entia
var
y by
re
gion
Long
-te
rm
care
fa
cilit
ies
17%
of p
eopl
e w
ith
dem
entia
live
in a
ca
re h
ome,
and
18
% in
a n
ursi
ng
hom
e
Sin
ce 2
000,
free
nu
rsin
g ca
re u
nder
th
e N
atio
nal H
ealth
S
ervi
ces
to
ever
yone
in a
car
e ho
me
who
nee
ds it
. A
bout
36.
5% o
f pe
ople
with
late
on
set
dem
entia
in
som
e fo
rm o
f in
stitu
tiona
l car
e se
tting
(M
artin
et
al.2
3 )
Res
iden
tial
stru
ctur
e or
gani
sed
into
sm
all g
roup
s.
Pro
visi
on o
f he
alth
ca
re, s
ocia
l ca
re,
and
func
tiona
l re
habi
litat
ion.
Car
e ca
n be
ext
ensi
ve o
r in
tens
ive.
Inc
lude
s te
mpo
rary
ac
com
mod
atio
n fo
r lo
ng-t
erm
car
e an
d re
habi
litat
ion,
in
tens
ive
reha
bilit
atio
n w
ith
high
med
ical
im
port
ance
, an
d pa
lliat
ive
care
The
re a
re 3
,328
ho
mes
(am
ount
of
plac
es fo
r de
men
tia
unkn
own)
, of
whi
ch
43.9
3% a
re
priv
atel
y o
wne
d,
and
22.8
6% a
re
publ
icly
-ow
ned.
V
aryi
ng le
vels
of
med
ical
car
e ar
e pr
ovid
ed.
Adm
issi
on is
bas
ed
on p
rese
nce
of a
fa
mily
car
er.
The
re
is a
lso
a re
side
ntia
l ty
pe n
etw
ork
In 2
000,
ther
e w
ere
247,
000
plac
es in
lo
ng-t
erm
car
e ce
ntre
s (a
mou
nt o
f pl
aces
for
dem
entia
un
know
n),
whi
ch a
re
med
ical
ised
in
stitu
tions
for
the
prov
isio
n of
med
ical
ca
re.
The
re a
re a
lso
units
for
grou
p-liv
ing
with
abo
ut a
doz
en
resi
dent
s, o
f w
hich
fe
atur
es v
ary
per
inst
itutio
n (s
ee
resp
ite c
are)
In 2
000,
ther
e w
ere
appr
oxim
atel
y 8,
900
nurs
ing
hom
es (
abou
t 62
1,00
0 pl
aces
).
Abo
ut 6
0% o
f re
side
nts
have
de
men
tia.
Sho
rt-t
erm
, pa
rt-t
ime
(day
or
nigh
t),
or fu
ll-tim
e in
stitu
tiona
l car
e is
av
aila
ble.
Sm
all-s
cale
gr
oup-
livin
g; o
ver
1,00
0 pl
aces
. G
erm
any
know
s a
syst
em o
f gro
up-
livin
g, u
p to
15
pers
ons
(for
inst
ance
, D
ettb
arn-
Reg
gent
in26
).
The
re a
re 2
9,00
0 be
ds,
of w
hich
23
,000
with
de
men
tia. I
n so
me
mun
icip
aliti
es,
spec
ial d
emen
tia
care
uni
ts a
re
inte
grat
ed w
ithin
nu
rsin
g ho
me
faci
litie
s. In
crea
se o
f sm
all h
ome-
like
units
with
all
the
med
ical
and
te
chni
cal r
esou
rces
of
a n
ursi
ng h
ome.
A
lthou
gh th
ere
are
no d
emen
tia-s
peci
fic
grou
p-liv
ing
faci
litie
s, 1
5 00
0 of
th
e 17
000
ava
ilabl
e be
ds a
re o
ccup
ied
by p
erso
ns w
ith
dem
entia
. R
espi
te
care
A
vaila
ble
thro
ugho
ut t
he
coun
try
Ava
ilabl
e fo
r 51
% o
f pe
ople
with
de
men
tia in
S
cotla
nd.
Ser
vice
s av
aila
ble
thro
ugho
ut
the
coun
try,
in
clud
ing
day
care
A
vaila
ble
for
3% o
f pe
ople
with
de
men
tia.
Hyb
rid
resp
ite p
rogr
ams
(exp
ert
cent
res)
of
fer
peop
le w
ith
dem
entia
and
the
ir
Ava
ilabl
e fo
r 10
% o
f pe
ople
with
de
men
tia (
see
day
care
), a
lthou
gh
avai
labl
e fo
r 74
% in
a
stud
y by
C
ante
grei
l-Kal
len
et
Ava
ilabl
e fo
r 41
% o
f pe
ople
with
dem
entia
T
he m
ain
sour
ce
of r
espi
te c
are
is
thro
ugh
acut
e ad
mis
sion
s to
ho
spita
ls.
Ava
ilabl
e fo
r 48
% o
f pe
ople
with
dem
entia
, fo
r in
stan
ce,
in d
ay
cent
res.
Par
ticul
arly
in
the
big
citi
es, t
here
is
a la
ck o
f res
pite
se
rvic
es,
whi
ch a
re
Sho
rt-t
erm
(1-
2 w
eeks
): p
rovi
des
brea
k fo
r pe
rson
al
and
med
ical
re
ason
s. R
espi
te
care
at
hom
e is
av
aila
ble
in 8
7% o
f
33
![Page 47: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/47.jpg)
resp
ite, s
itter
se
rvic
es,
and
resp
ite a
dmis
sion
s to
hos
pita
ls a
nd
nurs
ing
hom
es.
Day
ca
re r
espi
te is
re
stric
ted
to p
eopl
e liv
ing
at h
ome
care
rs m
ore
flexi
bilit
y in
the
car
e se
tting
, be
it at
ho
me
or in
an
inst
itutio
n
al.2
5 . T
here
is a
lso
a re
spite
ho
spita
lisat
ion
prog
ram
me.
Res
pite
ca
re a
ssoc
iate
d w
ith
grou
p-liv
ing
is
rest
ricte
d to
peo
ple
with
dem
entia
livi
ng
in r
esid
entia
l in
stitu
tions
mos
tly a
ssoc
iate
d w
ith n
ursi
ng h
omes
. R
espi
te c
are
asso
ciat
ed w
ith
nurs
ing
hom
es is
re
stric
ted
to p
eopl
e liv
ing
in r
esid
entia
l in
stitu
tions
mun
icip
aliti
es.
Ext
ende
d ov
er t
he
last
few
yea
rs.
Reg
ular
shi
ft m
odel
: 2
wee
ks a
t ho
me
and
3 w
eeks
at c
are
cent
re o
r vi
ce a
nd
vers
a G
roup
-livi
ng: s
mal
l gr
oup
hom
e fo
r 6
– 8
peop
le. R
esid
ents
ha
ve t
heir
own
room
, bu
t sh
are
com
mun
al a
reas
an
d ha
ve a
cces
s to
se
rvic
e an
d ca
re
prov
ided
by
resi
dent
st
aff
arou
nd th
e cl
ock.
H
ealt
h c
are
po
lic
y C
are
regi
me
Sca
ndin
avia
n B
ever
idge
/ A
nglo
-S
axon
sys
tem
M
edite
rran
ean
/ S
outh
ern
Eur
opea
n sy
ste
m
Med
iterr
anea
n /
Sou
ther
n E
urop
ean
syst
em
Con
tinen
tal /
B
ism
arck
/ C
entr
al
Eur
opea
n sy
stem
Eas
tern
Eur
opea
n sy
ste
m
Med
iterr
anea
n /
Sou
ther
n E
urop
ean
syst
em
Con
tinen
tal /
B
ism
arc
k /
Cen
tra
l E
urop
ean
syst
em
Sca
ndin
avia
n
Dire
cted
by
the
st
ate
Exc
eptio
nal M
edic
al
Exp
ense
s A
ct
(AW
BZ
) (1
968)
: co
sts
for
care
of
long
-ter
m c
hron
ic
illne
ss,
incl
udin
g re
side
ntia
l/nur
sing
ca
re.
Sco
pe o
f A
WB
Z e
xten
ded
to
cove
r ho
me
nurs
ing
in 1
980
and
hom
e he
lp in
198
9.
Larg
e di
ffere
nces
w
ithin
the
UK
. N
atio
nal S
ervi
ce
Fra
mew
ork
for
Old
er P
eopl
e (2
001)
set
s na
tiona
l st
anda
rds
for
the
care
of
olde
r pe
ople
(at
hom
e or
in in
stitu
tions
) in
Eng
land
. S
cotla
nd a
ims
to
prov
ide
supp
ort
and
serv
ices
for
pe
ople
who
live
at
hom
e or
in a
car
e ho
me
(The
C
omm
unity
Car
e an
d H
ealth
(S
cotla
nd)
Act
, 20
02).
Nat
iona
l Hea
lth
Sys
tem
(19
78).
In
2000
a le
gal
fram
ewor
k an
d fin
anci
al b
asis
for
a
natio
nal
deve
lopm
ent
of
soci
al s
ervi
ces.
T
he o
bjec
tive
of
the
Nat
iona
l Pla
n fo
r E
lder
ly P
eopl
e w
as t
o be
tter
coor
dina
te
med
ical
and
so
cial
ser
vice
s so
as
to e
nsur
e th
eir
inte
grat
ion
with
in
the
hom
e ca
re
serv
ices
sys
tem
.
All
citiz
ens
are
entit
led
to "
heal
th
prot
ectio
n".
Acc
ess
to h
ealth
se
rvic
es is
a
citiz
en's
rig
ht.
Citi
zens
do
not
have
a le
gally
es
tabl
ishe
d rig
ht
to s
ocia
l se
rvic
es.
The
ne
ed is
als
o re
cogn
ised
to
help
sub
ject
s w
ith f
ew
re
sour
ces.
The
Eld
erly
D
epen
denc
y A
ct
(200
1):
indi
vidu
al
atte
ndan
ce
allo
wan
ce (
AP
A)
to c
over
the
cos
ts
of h
uman
and
te
chn
ical
as
sist
ance
, not
the
prov
isio
n of
car
e w
hich
wou
ld b
e co
vere
d by
hea
lth
insu
ranc
es. T
he
AP
A c
an
take
the
fo
rm o
f ser
vice
s or
ca
sh a
nd is
pai
d irr
espe
ctiv
e of
liv
ing
situ
atio
n.
Any
per
son
over
65
with
out
suffi
cien
t re
sour
ces
may
be
nefit
from
hom
e he
lp o
r a
plac
e in
a
priv
ate
hom
e or
es
tabl
ishm
ent.
The
Hea
lth In
sura
nce
Act
(19
99):
obl
igat
ory
heal
th in
sura
nce
syst
em.
Peo
ple
livin
g al
one,
who
req
uire
the
help
of
othe
rs a
nd d
o no
t rec
eive
it h
ave
the
right
to
help
in t
he
form
of c
are
serv
ices
. P
eopl
e ag
ed 7
5 an
d ov
er h
ave
the
auto
mat
ic r
ight
to a
nu
rsin
g be
nefit
re
gard
less
of t
heir
stat
e of
hea
lth.
Peo
ple
over
75
livin
g in
inst
itutio
ns a
re n
ot
entit
led
to t
his
bene
fit.
Sta
te p
olic
y co
ncer
ning
as
sist
ance
co
ncen
trat
es o
n fin
anc
ial a
ssis
tanc
e to
th
ose
who
are
the
m
ost
soci
ally
and
ec
onom
ical
ly w
eak.
The
re is
no
long
-ter
m c
are
insu
ranc
e.
Hom
e he
lp
serv
ices
de
velo
ped
by
volu
ntar
y as
soci
atio
ns
and
orga
nise
d ag
enci
es
(priv
ate
sect
or).
T
hey
are
not
supe
rvis
ed b
y th
e S
tate
. T
he
Sta
te h
as t
aken
m
easu
res
to
incr
ease
co
mm
unity
car
e
serv
ices
, in
clud
ing
the
crea
tion
of o
pen
care
com
mun
ity
cent
res
for
olde
r pe
ople
(K
AP
Is)
and
the
help
at
hom
e pr
ogra
mm
e.
Long
-ter
m c
are
insu
ranc
e (1
994)
, or
ient
ed to
war
ds
basi
c A
DLs
; ne
glec
ts a
spec
ts o
f ca
re im
port
ant f
or
dem
entia
(ge
nera
l su
perv
isio
n an
d a
tten
tion,
soc
ial
and
emot
iona
l su
ppor
t).
Impl
emen
ted
in tw
o
sta
ges:
firs
t fo
r ho
me
care
(99
5),
then
for
inst
itutio
nal
care
(19
96).
The
C
ompl
emen
tary
N
ursi
ng A
ct w
as
pass
ed in
200
2. A
pe
rson
mus
t ne
ed
subs
tant
ial h
elp
for
at le
ast 6
mon
ths
to q
ualif
y.
Wel
fare
is d
ivid
ed
betw
een
3 le
vels
of
gov
ernm
ent:
(i)
at n
atio
nal l
evel
: th
e go
vern
men
t (r
espo
nsib
le fo
r es
tabl
ishi
ng p
olic
y ai
ms
and
dire
ctiv
es b
y m
eans
of
legi
slat
ion
and
econ
omic
ste
erin
g m
easu
res)
, (ii
) at
re
gion
al le
vel:
the
coun
ty c
ounc
ils
(res
pons
ible
for
the
prov
isio
n of
m
edic
al a
nd
heal
th c
are)
, an
d (ii
i) at
loca
l lev
el:
the
mun
icip
aliti
es
(res
pons
ible
for
mee
ting
the
soci
al
serv
ices
and
ho
usin
g ne
eds)
.
34
![Page 48: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/48.jpg)
Dire
cted
on
a
loca
l le
vel
On
a lo
cal l
evel
, ho
me
care
is
prov
ided
by
hom
e ca
re o
rgan
isat
ions
an
d in
stitu
tiona
l ca
re p
rovi
ders
Mos
t soc
ial c
are
is
prov
ided
by
loca
l au
thor
ities
(LA
s),
whi
ch c
once
ntra
te
thei
r ef
fort
s on
co
mm
unity
nee
ds
rath
er t
han
on
med
ical
ised
hom
es.
The
kin
d of
ser
vice
s an
d th
e w
ay t
hese
ar
e de
liver
ed v
ary
per
LA. L
As
are
not
lega
lly o
blig
ed to
pr
ovid
e co
mm
unity
ca
re f
or in
divi
dual
s if
this
wou
ld c
ost
mor
e th
an m
ovin
g th
em to
a
resi
dent
ial o
r nu
rsin
g ho
me,
al
thou
gh th
ey
som
etim
es w
ill.
LAs
shou
ld m
ake
arra
ngem
ents
for
th
e pr
ovis
ion
of
cert
ain
serv
ices
in
thei
r ar
ea,
alth
ough
se
rvic
es c
an b
e pr
ovid
ed b
y a
varie
ty o
f or
gani
satio
ns.
Loca
l Hea
lth
Aut
horit
ies
(US
L)
(197
8) a
re
cont
rolle
d by
the
m
unic
ipal
ities
. T
he r
egio
ns h
ave
legi
slat
ive
pow
ers
over
hea
lth a
nd
wel
fare
but
hom
e ca
re s
ervi
ces
are
finan
ced
entir
ely
by L
ocal
C
ounc
ils.
Suc
h se
rvic
es a
re
gene
rally
re
nder
ed t
o pe
ople
on
low
in
com
es. T
here
ar
e la
rge
regi
onal
di
ffere
nces
in
livin
g co
nditi
ons.
S
ervi
ces
tend
to
be f
ragm
ente
d an
d pu
blic
ex
pend
iture
on
heal
th s
ervi
ces
is
fairl
y lo
w.
Hea
lth c
are
serv
ices
are
or
gani
sed
by t
he
auto
nom
ous
com
mun
ities
. T
he
prov
isio
n of
hom
e ca
re s
ervi
ces
is in
th
e st
age
of
deve
lopm
ent
with
ab
out
20%
of
com
mun
es o
fferin
g su
ch s
ervi
ces.
H
ome
care
ser
vice
s ar
e fr
ee f
or p
eopl
e w
ho a
re o
n th
e m
inim
um p
ensi
on.
Hom
e so
cia
l se
rvic
es a
re
finan
ced
join
tly b
y th
e M
inis
try
of
Soc
ial A
ffai
rs, t
he
regi
onal
min
istr
ies
of S
ocia
l Wel
fare
an
d th
e m
unic
ipal
ities
. In
addi
tion
to
gove
rnm
ent-
prov
ided
ser
vice
s,
volu
ntar
y as
soci
atio
ns a
nd
not-
for
prof
it a
ssoc
iatio
ns s
uch
as th
e R
ed C
ross
al
so p
rovi
de s
ocia
l ho
me
care
se
rvic
es.
Cer
tain
ser
vice
s,
such
as
mea
ls-o
n-w
heel
s an
d ho
use
alar
m s
yste
ms
are
ofte
n fin
ance
d by
re
gion
al
gove
rnm
ents
. T
here
is
a g
row
ing
num
ber
of fr
eela
nce
nurs
es.
Hom
e ca
re s
ervi
ces
are
mai
nly
prov
ided
by
pri
vate
non
-pro
fit
mak
ing
asso
ciat
ions
an
d by
m
unic
ipal
ities
. M
any
serv
ices
are
pr
ovid
ed b
y vo
lunt
eers
and
are
th
eref
ore
cost
free
.
The
loca
l aut
horit
ies
are
resp
onsi
ble
for
orga
nisi
ng s
ocia
l as
sist
ance
. T
hey
do
this
thro
ugh
Soc
ial
Car
e C
entr
es. A
va
riety
of s
ervi
ces
are
prov
ided
by
diffe
rent
or
gani
satio
ns S
ome
serv
ices
, suc
h as
w
ashi
ng,
bath
ing
and
pers
onal
hyg
iene
, ar
e pe
rfor
med
by
heal
th
care
wor
kers
(e.
g.
com
mun
ity c
are
nurs
es).
Mea
ls a
re
dist
ribut
ed th
anks
to
the
Pol
ish
Red
Cro
ss,
the
Pol
ish
Com
mitt
ee
on S
ocia
l Wel
fare
and
N
GO
s. S
ome
of th
e m
eals
com
e fr
om
cant
eens
in c
are
hom
es a
nd s
choo
ls.
Som
e lo
cal
auth
oriti
es p
rovi
de
hom
e he
lp
serv
ices
and
gr
ants
to
depe
nden
t, m
ainl
y po
or a
nd is
olat
ed,
seni
ors.
Ope
n ca
re c
omm
unity
ce
ntre
s fo
r ol
d pe
ople
wer
e se
t up
by
volu
ntar
y or
gani
satio
ns
fund
ed b
y th
e S
tate
. S
ome
loca
l au
thor
ities
pro
vide
ho
me
care
se
rvic
es b
ut s
uch
serv
ices
are
not
pr
ovid
ed u
nifo
rmly
th
roug
hout
the
co
unt
ry.
In s
om
e ar
eas,
loca
l au
thor
ities
and
m
any
paris
hes
prov
ide
free
mea
ls
at h
ome
to p
eopl
e in
nee
d.
Non
-med
ical
hom
e ca
re s
ervi
ces
are
ofte
n pr
ovid
ed b
y ho
me
heal
th
assi
stan
ts a
nd
hous
ekee
pers
who
pr
ovid
e as
sist
ance
w
ith h
ouse
hold
ch
ores
. C
erta
in
serv
ice
s su
ch a
s sh
oppi
ng a
nd s
impl
e ho
useh
old
help
may
al
so b
e pr
ovid
ed b
y yo
ung
men
who
de
cide
to
do
com
mun
ity s
ervi
ce
inst
ead
of m
ilita
ry
serv
ice.
Dom
estic
ca
rew
orke
rs fr
om
Eas
tern
Eur
ope
are
take
n on
to c
arry
out
ho
useh
old
task
s
A t
otal
of
144
out
of 2
90
mun
icip
aliti
es
have
re
spon
sibi
lity
for
daily
car
e. In
the
othe
rs, c
ount
y co
unci
ls a
re
resp
onsi
ble.
M
unic
ipal
ities
can
pr
ovid
e se
rvic
es
(vol
unta
ry d
ay
care
, re
lief/s
uppo
rt fo
r re
lativ
es, a
ssis
tive
devi
ces)
th
emse
lves
or
by
priv
ate
prov
ider
s.
Sup
port
for
com
mun
ity-
dwel
ling
peop
le
with
dem
entia
va
ries
per
com
mu
nity
: 9%
of
the
com
mun
ities
(2
002)
had
sp
ecia
lly a
rran
ged
hom
e ca
re fo
r de
men
tia. O
nly
youn
g pe
ople
(<
65)
with
de
men
tia h
ave
a rig
ht t
o re
ceiv
e he
lp fr
om a
pe
rson
al a
ssis
tant
in
stea
d of
hom
e ca
re.
Sup
port
fr
om v
olun
tary
or
gani
satio
ns is
lim
ited.
R
ole
of
the
fam
ily
To
be c
onsi
dere
d el
igib
le fo
r ca
re,
asse
ssm
ents
ta
ke p
lace
by
the
CIZ
org
anis
atio
n th
at d
eter
min
es
how
muc
h an
d w
hat
kind
of c
are
a pe
rson
is
entit
led
to
rece
ive.
Fam
ily
Ass
essm
ents
sh
ould
acc
ount
fo
r th
e w
ishe
s of
th
e in
divi
dual
and
hi
s or
her
car
er,
and
of th
e ca
rer's
ab
ility
to
cont
inue
to
pro
vide
car
e.
Sco
tland
: P
eopl
e ov
er 6
5 ye
ars
of
age
wer
e gr
ante
d
Str
ong
emph
asis
on
sup
port
from
th
e fa
mily
, pa
rtic
ular
ly
wom
en:
"soc
ial
du
ty".
It is
ge
nera
lly
acce
pted
as
norm
al a
nd
legi
timat
e th
at th
e co
mm
unity
and
Pro
vidi
ng
info
rmal
car
e is
se
en a
s a
fam
ily
oblig
atio
n. T
he
spou
se a
nd
child
ren
(and
to a
le
sser
ext
ent
sibl
ings
) ar
e re
spon
sibl
e fo
r m
aint
enan
ce a
nd
care
whi
ch
Adu
lt ch
ildre
n ha
ve a
le
gal o
blig
atio
n to
pr
ovid
e m
aint
enan
ce
to th
eir
pare
nts
and
othe
r as
cend
ants
if
in n
eed.
Thi
s ob
ligat
ion
exte
nds
to
daug
hter
s-in
-law
and
so
ns-in
-law
in c
erta
in
circ
umst
ance
s w
ith
rega
rd to
the
ir
Chi
ldre
n ar
e le
gally
ob
liged
to p
rovi
de f
or
thei
r el
derly
or
disa
bled
par
ents
and
th
is c
an b
e en
forc
ed
in c
ourt
if n
eces
sary
. A
per
son
can
mak
e an
agr
eem
ent
with
so
meo
ne t
o ex
chan
ge
the
owne
rshi
p of
pr
oper
ty f
or h
elp
and
The
maj
ority
of
olde
r pe
ople
co
ntin
ue t
o liv
e at
ho
me,
with
or
with
out
rela
tives
. F
amily
is
resp
onsi
ble
for
the
care
of
depe
nden
t re
lativ
es o
f all
ages
, w
ithou
t di
rect
sup
port
fro
m
Due
to
the
char
acte
r of
the
LTC
I, it
has
also
bee
n ar
gued
that
fa
mily
sup
port
or
a st
able
soc
ial n
etw
ork
is p
resu
ppos
ed,
whi
ch in
turn
hin
ders
th
e de
velo
pmen
t of
m
ore
com
preh
ensi
ve,
com
plex
car
e ar
rang
emen
ts f
or
Hea
lth s
ervi
ce
auth
oriti
es a
re
oblig
ed to
pro
vide
ho
me
care
ser
vice
s if
the
need
s ca
nnot
be
met
in a
ny o
ther
w
ay.
Muc
h of
the
care
is c
arrie
d ou
t by
fam
ilies
. T
here
is
no s
tatu
tory
ob
ligat
ion
for
35
![Page 49: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/49.jpg)
play
s a
role
in
thes
e as
sess
men
ts.
free
per
sona
l as
wel
l as
nurs
ing
care
. T
his
is n
ot
depe
nden
t on
fin
anci
al s
tatu
s,
cap
ital a
sset
s,
mar
ital s
tatu
s or
th
e am
ount
of
care
pro
vide
d by
an
unp
aid
care
r.
inst
itutio
ns s
houl
d be
com
e in
volv
ed
only
aft
er t
he
fam
ily r
esou
rces
-
ofte
n in
terp
rete
d in
a v
ery
exte
nded
sen
se
(up
to th
e th
ird
degr
ee o
f kin
ship
) ha
ve r
un o
ut.
Peo
ple
with
in
suff
icie
nt
finan
cial
re
sour
ces
can
ask
for
"alim
ony"
fr
om th
e fa
mily
.
cove
rs e
very
thin
g th
at is
ess
entia
l fo
r su
sten
ance
, sh
elte
r, c
loth
ing
and
med
ical
as
sist
ance
. The
ex
tent
dep
ends
on
the
mea
ns o
f th
e pr
ovid
ers
and
the
need
s of
the
depe
nden
t pe
rson
, and
end
s w
hen
the
prov
ider
die
s or
w
hen
thei
r w
ealth
ha
s fa
llen
to a
m
inim
um le
vel.
pare
nts-
in-la
w.
nurs
ing
in c
ase
of
sick
ness
. th
e S
tate
. If a
fa
mily
is u
nabl
e to
ca
re, t
he
depe
nden
t pe
rson
is
take
n ca
re o
f by
the
Soc
ial S
ecur
ity
syst
em.
In m
any
area
s, n
eigh
bour
s,
frie
nds
and
volu
ntee
rs o
ffer
sitti
ng s
ervi
ces.
peop
le w
ith d
emen
tia.
child
ren
to c
are
for
or f
inan
cial
ly s
uppo
rt
thei
r pa
rent
s.
Tab
le 3
. Ove
rvie
w o
f sta
ges
of d
emen
tia in
rel
atio
n to
hou
sing
con
ditio
ns a
nd c
are
supp
ort.
de G
raaf
f and
Hup
kens
27
Rei
sber
g28
D
eme
ntia
st
ages
H
ousi
ng c
ond
ition
s a
nd s
upp
ort
F
AS
T
stag
e
Hou
sing
co
nditi
ons
and
su
ppo
rt
1: p
rem
anife
st
Ow
n ho
me
1
Ow
n ho
me
2:
ear
ly
dem
ent
ia
If pe
rson
with
dem
entia
live
s a
lon
e, th
e pe
rso
n is
stil
l ab
le to
live
in
dep
end
ently
as
lon
g as
(s)
he
does
not
mo
ve to
ano
ther
dw
elli
ng.
2
Ow
n ho
me
3: m
oder
ate
dem
ent
ia
The
per
son
can
mai
nta
in li
vin
g at
hom
e w
ith t
he h
elp
of fo
rmal
car
e (G
P, h
ome
care
, occ
asio
nal d
ay c
are)
and
fam
ily c
are.
3
Ow
n ho
me.
Pe
ople
can
stil
l per
form
all
bas
ic A
DLs
sat
isfa
ctor
ily.
4: s
ever
e de
me
ntia
O
lder
per
son
can
mai
ntai
n liv
ing
at h
ome
with
hel
p in
cas
e be
hav
iour
al p
robl
ems
have
(no
long
er)
com
e in
to p
rom
ine
nce,
or
have
bee
n ad
equ
ate
ly c
ount
ere
d b
y m
edic
atio
n. M
any
will
mov
e to
a
nurs
ing
hom
e.
4 O
wn
hom
e. P
eop
le c
an s
till f
unc
tion
ind
epe
nde
ntly
in th
e co
mm
unity
, al
tho
ugh
func
tioni
ng is
com
prom
ise
d. S
ome
pers
ons
get
inst
itutio
nalis
ed,
al
tho
ugh
a sm
alle
r pe
rce
ntag
e st
ays
to r
esid
e in
the
com
mun
ity fo
r 3
to 4
m
ore
year
s.
5: e
nd-s
tag
e de
me
ntia
In
stitu
tiona
l ho
usin
g an
d ca
re.
5 P
eop
le c
an
no lo
nge
r fu
nctio
n in
depe
nde
ntly
in a
com
mu
nity
set
ting.
A
ssis
tanc
e of
a c
arer
req
uire
d. D
ay
care
pro
gra
mm
es m
ay
be
usef
ul fo
r th
e
pers
on
with
de
men
tia, a
s w
ell
as c
ontin
uou
s su
ppor
t gro
ups
for
the
care
r.
6 F
ull-t
ime
hom
e h
ealth
car
e as
sist
ance
is fr
eque
ntly
use
ful a
t th
is s
tage
. In
cert
ain
case
s, in
stitu
tion
alis
atio
n sh
oul
d be
dis
cuss
ed w
ith th
e fa
mily
. Mos
t pe
opl
e in
this
sta
ge a
re in
stitu
tiona
lise
d.
7 P
eop
le li
ve in
stitu
tion
ally
, req
uiri
ng c
ompl
ete
care
at a
ll tim
es.
Ful
l-tim
e as
sist
ance
in a
com
mun
ity o
r in
stitu
tion
al s
ettin
g is
a n
eces
sity
at t
his
stag
e.
36
![Page 50: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/50.jpg)
6. Discussion The range of health care services and types of housing is unique per country and, contrary to popular belief, can differ a lot from the national situation even compared to neighbouring countries. Apart from the national choices in terms of financing, national values seem important too. 6.1. Care solutions Moise et al.12 explicitly mention that dementia is a relatively new area of policy focus, and not all developed nations have specific policies for the condition. Housing is mentioned as one of the services for the provision of care. The policy focus has shifted to favour care of people with long-term needs within the community rather than in institutions. Responsibility for dementia is often given to one particular government ministry, although housing is of importance to several areas of government. For the EU, there are great disparities in the provision of home care services and the need for greater support for carers, including respite care, technological solutions11, and appropriate housing. Even though current provisions reflect the historical, economic, political, cultural, and religious developments of each member state, governments should recognise and respect the right of people to appropriate and affordable home care services. On a macro-economic level, the provision of informal ADL care is cheaper than formal care. However, it is questionable if relatives are able to cope with the emotional burden, apart from the financial consequences. Another process in health care is task redistribution, for instance in SSGA. There, skilled nurses are replaced with people trained on a lower level in surveillance while more effort is expected from informal carers. Also, more input in terms of assistance is requested from relatives of people in SSGA compared to those in care and nursing homes. All countries with high levels of services witness the same political processes of stimulation of ageing-in-place and deinstitutionalisation. In Europe, the chance of receiving formal care is the largest in The Netherlands and about equal in France and Denmark. Formal care is hardly an option in Greece, though in countries like Germany and Italy informal care is dominant as well10. These figures are likely to also apply to care for OAWD. The Netherlands has traditionally been a country with a large institutional sector. A mere two-thirds of all Dutch OAWD live at home, compared to an assumed 73% in all developed countries together5. 6.2. Housing solutions The current housing stock in the EU is not able to cope with the rise in the number of people with dementia, neither quantitatively nor qualitatively, and new development is needed. A request for assistance is thought to be interpreted as an inability to continue independent living, so many older people ask for less help than necessary31. Assistance, however, can also be given in the form of architectural modifications and technological solutions. These solutions may even alleviate or substitute care given by informal and professional carers. Adaptations in the level of technology in and around the dwelling take place over time due to technological progress and diminishing abilities to work with technology (Figure 1). The use of technologies in the dwelling for daily support shifts from the resident to the (in)formal carer. People with dementia pose special restrictions on the kind of home or technology that is suitable due to a decline in cognitive function, an altered sensitivity to environmental stimuli, and frequent falling3. The slow realisation of new supportive housing projects, the methods of financing home modifications and services, and the familiarity of OAWD, their relatives, and even state services with the possibilities for specific home modifications form risk factors to ageing-in-place from a housing perspective. Even though deinstitutionalisation of the health care sector is progressing, it is unlikely that all living arrangements for people with dementia will one day be non-institutional. A scenario of all people with dementia being cared for with the help of informal and formal care in homes that have undergone modifications is not realistic. There will always be a group of OAWD that, due to health status, family situation, or financial limitations, needs institutional care and residence. However, a new gap lies around the corner; the health care sector is increasingly facing a shortage of schooled personnel, while relatives have jobs that do not allow them to care for a loved one.
37
![Page 51: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/51.jpg)
References 1. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie
H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca M and for Alzheimer’s Disease International. Global prevalence of dementia: A Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
2. van Vliet AAM (2004). Zelfredzaam wonen. Bouwtechnische maatregelen voor de systematische aanpassing van de woning aan veranderende woonbehoeften. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
3. van Hoof J, Kort HSM. Supportive living environments: a first concept of a dwelling designed for older adults with dementia. Dementia 2009;8(2):293-316
4. O’Malley L, Croucher K. Housing and dementia care - a scoping review of the literature. Health and Social Care in the Community 2005;13(6):570-577
5. Wimo A, Winblad B, Jönsson L. An estimate of the total worldwide societal costs of dementia in 2005. Alzheimer’s & Dementia 2007;3(2):81-91
6. UBS (2005) A comparison of purchasing power around the globe – February 2005. Prices and earnings. Update of the 2003 edition. UBS AG, Wealth Management Research, Zürich, Switzerland
7. Alzheimer Europe (2006) Dementia in Europe - Yearbook 2006. Alzheimer Europe, Luxembourg City, Luxembourg
8. Brookmeyer R, Johnson E, Ziegler-Graham K, Arrighi HM. Forecasting the global burden of Alzheimer’s disease. Alzheimer’s & Dementia 2007;3(3):186-191
9. Nies H, Berman PC (2004) Foreword. In: Nies H, Berman PC, editors. Integrating services for older people: A resource book for managers. European Health Management Association, Dublin, Ireland. pp. 11-16
10. Pommer E, van Gameren E, Stevens J, Woittiez I (2007) Verschillen in verzorging. De verzorging van ouderen in negen EU-landen. Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch]
11. Alzheimer Europe (2006) Who cares? The state of dementia care in Europe. Alzheimer Europe, Luxembourg City, Luxembourg
12. Moise P, Schwarzinger M, Um M-Y and the Dementia Experts’ Group (2004) OECD Health Working Papers No. 13. Dementia Care in 9 OECD Countries: A Comparative Analysis. Organisation for Economic Co-operation and Development, Paris, France
13. Tjadens FLJ, Duijnstee MSH (1999) Visie op mantelzorg. NIZW, Utrecht, The Netherlands [in Dutch]
14. Cohen U, Weisman GD (1991) Holding on to home: Designing environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
15. Singelenberg JPJ (2002) Kleinschalige woonvormen voor dementerende ouderen in Duitsland. Hausgemeinschaften als alternatief voor het verpleeghuis. Aedes-Arcares Kenniscentrum Wonen-Zorg, Utrecht, The Netherlands [in Dutch]
16. Diehl J, Staehelin H, Wiltfang J, Hampel H, Calabrese P, Monsch A, Schmid R, Romero B, Schunk M, Kuhlmann HP, Wolter-Henseler DK, Mauerer C, Stoppe G, Kurz A und für die deutschsprachigen Memory-Kliniken. Erkennung und Behandlung der Demenz in den deutschsprachigen Memory-Kliniken: Empfehlungen für die Praxis. Zeitschrift für Gerontologie und Geriatrie 2003;36(3):189-196 [in German]
17. Klie T, Pfundstein T, Eitenbichler L, Szymczak M, Strauch M. Konzeptionelle und rechtliche Varianten der Versorgung von Menschen mit Demenz zwischen ambulant und stationär. Zeitschrift für Gerontologie und Geriatrie 2005;38(2):122-127 [in German]
18. Klie T, Schmidt R. Demenz und Lebenswelten. Zeitschrift für Gerontologie und Geriatrie 2002;35(3):177-180 [in German]
19. Department for Communities and Local Government (2008) Lifetime homes, lifetime neighbourhoods. A national strategy for housing in an ageing society. Department for Communities and Local Government, London, UK
20. Health Council of the Netherlands (2002) Dementia. Publication no. 2002/04. Health Council of the Netherlands, the Hague, The Netherlands [in Dutch]
21. VWS (2004) Sector report care 2000-2003. Ministry of Health, Welfare and Sport, the Hague, The Netherlands
22. Schuurmans MJ, Duijnstee MSH. De zorg voor chronisch zieke ouderen. Tijdschrift voor Verpleegkundigen 2003;113(7):46-51 [in Dutch]
23. Martin S, Cunningham C, Nugent C. Ethical considerations for integrating technology into community-based service models for adults with dementia. Alzheimer’s Care Today 2007;8(3):251-258
24. Valla P, Harrington T. Designing for older people with cognitive and affective disorders. Archives of Gerontology and Geriatrics 1998;26(Supplement 1):515-518
38
![Page 52: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/52.jpg)
25. Cantegreil-Kallen I, Turbelin C, Angel P, Flahault A, Rigaud A-S. Dementia management in France: Health care and support services in the community. Dementia 2006;5(3):317-326
26. Dettbarn-Reggentin J. Studie zum Einfluss von Wohngruppenmilieus auf demenziell Erkrankte in stationären Einrichtungen. Zeitschrift für Gerontologie und Geriatrie 2003;38(2):95-100 [in German]
27. de Graaff WJ, Hupkens PEM. Dementie als huisartsgeneeskundige opgave. Huisarts en Wetenschap 1985;28(Suppl H&P 9):25-29 [in Dutch]
28. Reisberg B. Dementia: a systematic approach to identifying reversible causes. Geriatrics 1986;41(4):30-46
29. van Waarde H, Wijnties M (2006) De toekomst van kleinschalig wonen voor mensen met dementie. Aedes-Actiz Kenniscentrum Wonen en Zorg & Werkprogramma Wonen met Dementie, Utrecht, The Netherlands [in Dutch]
30. Wijnties M, Paquay H (2004) Toepassingsvormen van kleinschalig wonen. Plaats en samenhang van kleinschalig wonen binnen de eigen organisatie en binnen het totale zorgaanbod in de wijk. Aedes Arcares Kenniscentrum Wonen-Zorg, Utrecht, The Netherlands [in Dutch]
31. Kort H, Bakker E (2004) Kwetsbare mensen op de stoep van de thuiszorg. NIZW, Utrecht, The Netherlands [in Dutch]
39
![Page 53: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/53.jpg)
40
![Page 54: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/54.jpg)
3
Design principles and environmental interventions van Hoof J, Kort HSM, van Waarde H, Blom MM Environmental interventions and the design of homes for older adults with dementia: an overview. American Journal of Alzheimer’s Disease and Other Dementias 2010;25(3):202-232 After the overview of policies and practices in the European Union and The Netherlands given in the preceding chapter, the next chapters focus on the evaluation of aspects of housing facilities, including home modifications and indoor environmental conditions in order to support ageing-in-place. Chapter 3 provides the first study in this dissertation in the field of architectural solutions to support ageing-in-place. This chapter consists out of an overview of (i) design principles and (ii) environmental interventions. The overview includes available environmental interventions for persons with dementia, information on what lies at the basis of these interventions, and the underlying evidence for the interventions. The design principles and environmental interventions are gathered from literature and are supplemented with data from practice gathered via focus group sessions. The study explores the solutions and underlying needs for environmental interventions through a tabulation method taken from the Ministry of Community and Social Services of Ontario, which includes a number of activities of daily living and functions relevant for dementia, including the need for safety and security and memory support. Within the combined framework of ICF-MIBD, Chapter 3 deals with the evaluation of various building systems in order to account for needs within the basic and functional value domains and the fulfilment of accompanying performances.
41
![Page 55: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/55.jpg)
42
![Page 56: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/56.jpg)
In Western societies, the vast majority of people with dementia live at home, and wish to remain doing so for as long as possible. Ageing-in-place can be facilitated through a variety of environmental interventions, including home modifications. This paper provides an overview of existing design principles and design goals, and environmental interventions implemented at home, based on literature study and additional focus group sessions. There is a multitude of design principles, design goals, and environmental interventions available to assist with activities of daily living and functions, although few systematic studies have been conducted on the efficacy of these goals and interventions. The own home seems to be a largely ignored territory in research and government policies, which implies that many problems concerning ageing-in-place and environmental interventions for dementia are not adequately dealt with. 1 Introduction In today’s ageing society, ageing-in-place in combination with a sufficient amount of professional home care is commonly promoted as a strategy for maintaining autonomy, independence, sense of identity, as well as for maximising financial resources. The home and possessions represent what a person has accomplished throughout life and provide a quality of life that has no substitute in an institutional setting1. The wish to remain living independently, regardless of the condition of housing, neighbourhood, and health, is often a personal choice2, but is influenced by the personal disablement process or health status of a partner, and more specifically the objective and subjective burdens of care experienced by the partner3. Older adults with dementia, in particular, pose great challenges in terms of creating appropriate, healthy and supportive living environments, in which they can perform optimally and are being compensated for a decreasing vitality and overall health status. According to international consensus, there are an estimated 24.3 million people with dementia worldwide4. For the European Union, estimates go as far as 8 million5. In contrast to popular belief, the vast majority of people with mainly early to moderate dementia live at home in industrialised countries (The Netherlands 65%; United States 70%; Italy 80%; Japan 85%; all industrialised countries 73%)5-9. According to the OECD10, common policy principles in relation to dementia concern the support for older adults to remain at home as long as possible, and the delay of institutionalisation. Carers should be supported in order to achieve these goals, also because their availability in the longer-term is under pressure. The policy shift to community-based care relies partly on the availability of informal carers as a substitute for formal care provided in institutions10. The importance of the own home environment as a setting for the provision of (dementia) care was already acknowledged at least two decades ago by Pynoos et al.11. Good care is costly, and the financial and societal costs of care for people with dementia are rather significant5. The costs of informal care in 2005 were an estimated € 26.8 billion for the European Union, or about € 4,700 per person with dementia9. The direct costs of dementia care are an estimated € 54.3 billion, or € 14,200 per person with dementia. Alzheimer Europe12 explored the impact of dementia on informal carers and found that for the majority of carers important care services were not available. Apart from the emotional burden caring for a loved-one poses on a relative, there are also negative financial consequences12. The large institutional long-term care sector in north-west Europe is under a multitude of pressures too, which have their origin in government spending and the availability of formal carers. There is challenging shift towards substitution of institutional by non-institutional living5. Governments and community organisations try to solve the increasing demands of older adults in relation to the public housing task by constructing accessible dwellings in neighbourhoods with a high density of services. Such housing concepts for older adults are, to a certain extent, not appropriate for people with dementia13, for instance, due to a decline in cognition, behavioural symptoms as wandering, and an altered sensitivity to environmental conditions. People with dementia may benefit from a wide range of environmental interventions including home modifications, which can be seen as a nonpharmacologic intervention to assist both the individual with dementia and informal carers with (instrumental)
43
![Page 57: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/57.jpg)
activities of daily living and caring13. The foundation of nonpharmacologic management is to recognise that for the individual with dementia it is no longer possible to easily adapt to new conditions and that the environment must therefore be adapted to the individual’s specific needs14. Adapting the private home to specific user needs, in a balanced combination with pharmacologic, behavioural and occupational approaches, is likely to be the most effective intervention to improve the well-being of people with dementia and their carers. Environmental or behavioural techniques should be used as a first-line treatment, rather than beginning with pharmacologic interventions15. Marshall16 states that there is an increased awareness that the built environment has a fundamental effect on a person with dementia, which is probably much greater than for people without a cognitive impairment. This is also captured within the International Classification of Functioning, Disability and Health of the World Health Organization. Within this classification, environmental factors may support or hinder the person with a (chronic) disease17. Schiff18,p.4 states that the impact of the environment on the induction of problem behaviours is addressed in the literature. At the same time, there is a focus “on how ‘bad’ environments can hurt, but not on how ‘good’ environments can help.” According to Lawton19, much of environmental psychology, especially gerontology, has the one-sided view to cast a person as a reactor to environmental press. The environmental docility hypothesis suggests that “environmental press accounts for a greater proportion of behavioral outcomes as personal competence diminishes”19,p.506. Lawton19,p.507 has suggested the ‘environmental proactivity hypothesis’, which states that “environmental resources are likely to be better used by people of higher competence”. An individual with dementia may not be able to make sense of environmental cues and may ignore or misinterpret information that would otherwise support functional performance or adaptive behaviour20. A poor fit between cognitive ability and environmental cues may negatively affect behaviour and performance20. Since an appropriate design of home environments and the implementation of environmental interventions have a great impact on the daily lives of people with dementia and their carers, and as the knowledge on these matters is scattered throughout the literature and not described and discussed in their entirety, the goal of this paper is to combine demand and supply in terms of design goals and environmental interventions. This means connecting the needs of people with dementia and their carers to specific design solutions. This is done in two ways. First, this paper summarises the various design goals and principles specified for dementia architecture. Second, this paper provides an overview of environmental interventions available for people with dementia, which are used as a strategy by both informal and formal carers to support activities of daily living, to lessen or account for abnormal behaviour, to compensate for loss of cognitive functions, and to alleviate the burden of care provided at home. The results are discussed in relation to the implementation of environmental interventions, as well as in relation to the evidence supporting these interventions. 2. Methodology This study makes use of the International Classification of Functioning, Disability and Health (ICF) of the World Health Organization17 as a framework for analysis. Data were gathered through literature study and supplementary focus group sessions. For the presentation of data, a modified tabulation method first used by the Ministry of Community and Social Services of Ontario21 has been used. These three aspects of the methodology are described in the following sections. 2.1. Framework Within the International Classification of Functioning, Disability and Health (ICF) of the World Health Organization17, health problems are described as well as limitations and/or restrictions that result from diseases and disorders. In this classification, the built environment is an environmental factor that influences health, by focusing on facilitating or hindering impact of features of the physical, social and attitudinal world17. In this case, the word environmental has a wider meaning than in the domain of building sciences, as it also includes the social
44
![Page 58: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/58.jpg)
environment and context. Within the ICF, supportive living environments with positive facilitators and negative barriers/hindrances (ICF domain e155 Design, construction and building products and technology of buildings for private use) may help maintain autonomy and self-direction or pose limitations. Within the ICF, supportive living environments with positive facilitators (ICF domain e155 Design, construction and building products and technology of buildings for private use) help maintain autonomy and self-direction. Therefore, such environments are believed to contribute to a delay in the demand of specialist care and facilities, whereas environments with barriers/hindrances have a negative impact. This paper focuses at these facilitators and barriers/hindrances in relation to (instrumental) activities of daily living and needs of individuals with dementia and their informal carers, for instance, the need for safety and security. Other relevant domains within ICF that appear in this study are e115 Products and technology for personal use in daily living; e120 Products and technology for personal indoor and outdoor mobility and transportation; e125 Products and technology for communication; and e150 Design, construction and building products and technology of buildings for public use. 2.2. Data collection The gathering of data was made up of two parts: general design goals in relation to dementia, and specific environmental modification practices at home. Many of the general design goals have been described for special care unit (SCU) design. As these goals address needs of persons with dementia irrespective of the stage of dementia and accompanying symptoms, they can also be considered for application to the home environment. The own home (focus in this article) is the dwelling persons with dementia live in during the first stages of dementia. This is not the case if the person with dementia is first diagnosed with dementia when already living in an institutional setting for somatic reasons5. In the own home, technological applications particularly serve as everyday items used by the residents and to a lesser degree for specific care purposes. The modifications identified and described in this study can also be used for assisted-living facilities, and to a lesser extent for institutional settings. An overview of design principles or design goals for living environments for persons with dementia is presented in Section 3. The overview of architectural and indoor design modifications is given per activity/function, and presented in Section 4. In order to gather data, two methods were applied: literature study and focus group sessions. Section 5 provides a discussion of the findings in terms of evidence and implementation. 2.2.1. Literature study Both books and peer-reviewed articles on architectural modifications and related technology for dementia are included in the search. This search included databases as PubMed and databases of technological papers, without a limitation to the age of papers, up to November 2009. All volumes of the journals ‘Dementia’, ‘American Journal of Alzheimer’s Disease and Other Dementias’, and ‘Alzheimer’s Care Quarterly / Alzheimer’s Care Today’, known for publishing on housing and technology in relation to dementia, were searched manually for relevant papers. Conference proceedings available in libraries in The Netherlands including papers on dementia and design were also consulted. Also, the study included multiple sources from The Netherlands and mainland Europe, to provide a counterweight for the large amount of Anglo-Saxon literature, since housing and architecture differ greatly per country. The literature included in this study covers the whole housing continuum, which stretches from the own home to institutional types of housing such as nursing homes and SCUs. The literature available on the design of SCUs is elaborate, and the knowledge is often applicable to the private home and is thus included in this study. The search also included studies related to individuals with dementia who are younger than 65 years. The literature search was complicated by the large differences in writing style or use of professional terms between nursing and occupational therapy, and technological sciences. These two domains give a different meaning to the term physical environment; the first meaning the indoor environment as a whole, the second as the whole of the thermal, visual, and acoustical environment as well as the indoor air quality22,23. An example from the domain of health care architecture is given by Diaz Moore and Verhoef24, who state that the physical environment consists of spatial attributes (volumetrics and degree of enclosure), sensory attributes (related to the indoor environment), fixed components, semi-fixed components (furniture), and non-fixed components (for instance, glasses and magazines).
45
![Page 59: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/59.jpg)
Excluded from this study are technology requirements for appropriate use by people with dementia13,25, as well as ICT-based services for the support of people with dementia and their carers, which are reviewed by Lauriks et al.26. This study does not include special clothing, and certain assistive technologies as wheelchairs and walkers. The study does, however, include assistive devices mounted to the home’s physical structure as walls and ceilings, and in cases that the modified technology specifically addresses dementia. The study included structural conditions needed for the proper use, or the installation, of assistive technologies. Products for leisure are also not within the scope of this paper, and are treated by van Rijn et al.27. The indoor environment (ICF domains e225 (climate), e240 (light), e250 (sound), and e260 (air quality)) and building services are not included in this study. Their importance for dementia is described by van Hoof et al.22,23. Outdoor spaces and gardens, which need to be safe and accessible, are reviewed by Mitchell et al.28 and are excluded from this study as well. This study only addresses indoor spaces in the own home. In case of assisted-living facilities and block of apartments, public spaces and mutual corridors are excluded in this study as well. 2.2.2. Focus group sessions A second method applied to gather data and to validate the findings from the literature study were two rounds of consulting by a focus group in 2006. The focus group consisted of representatives of various patient organisations and organisations for the aged, who have expertise in the field of care and environmental interventions including home modifications. These focus group sessions were part of a second study by van Hoof and Kort13. The members of the focus groups have extensive knowledge of home modifications and user needs, and have long-standing experience with specific diseases and biological ageing. The members were invited to provide feedback on a preliminary home design for people with dementia and its programme (design features), and to bring various notions concerning the home environment and related design solutions together13. Apart from providing feedback on the design and the accompanying environmental interventions, the members came up with additional design principles and interventions they knew from daily practice. Problems pointed out by the focus group members were studied and new design solutions were sought to address these problems. They present additional data applicable to countries in North West Europe with similar the building traditions. Actual people with dementia or their relatives were consulted in an indirect manner via a representative of the Dutch Alzheimer Society (Stichting Alzheimer Nederland). This representative discussed the design during a number of ‘Alzheimer Café’ sessions in The Netherlands, informal gatherings for with people with dementia and their partners. The feedback from these persons was used as input for the design process. The results of the focus group sessions are only shown in this work if the results have not yet been reported in the literature. 2.3. Presentation of data The overview of environmental interventions is based on specific activities the interventions relate to. In general, activities are carried out in a given space of the home, for instance, cooking is carried out in a kitchen space. Results are presented in tables per activity or function. The structure of the tables, and the specific topics these tables deal with, are taken and adapted from a report published by the Ministry of Community and Social Services of Ontario, Canada21. This report looks specifically at the ways in which technology and environmental design can be used to assist individuals with dementia with activities. It is the product of an extensive literature search as well as interviews with clinicians, technologists and researchers21. The adapted tables include (i) criteria for use and associated deficits (the subheading ‘associated deficits’ includes the idea of support of existing skills or those in danger in being lost), (ii) specific environmental interventions, (iii) description of the type of intervention, as well as (iv) comments and additional information regarding the intervention. The environmental interventions in this study are labelled as object modification (OM), task simplification (TS), assistive device (AD), or home modification (HM), after Gitlin and Corcoran20 (Figure 1). Some environmental interventions can have more than one label, depending on the type of problem that is addressed. In general, adaptations to the dwelling’s structure are labelled ‘home modification’. Modifications to furniture, utensils, equipment, and other items in the home are labelled ‘object modifications’. Assistive devices include assistive aids and technologies, which specifically address a given health problem. Task simplifications
46
![Page 60: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/60.jpg)
include remaining modifications that support independence at home. The tables include both low and high-tech interventions, although most of the interventions can be classified as low-tech. There may be some overlap or duplication between the tables, because some environmental interventions address more than one activity or space in the home, or function. In the tables, there is no distinction between potential users of the environmental interventions; the person with dementia, the carer or both. Carers, however, are most likely to implement the intervention in practice. Also, some of the environmental interventions are –to a large extent- related to biological ageing. These interventions may not only have benefits to individuals with dementia but also to the ageing population in general. In practice, persons with dementia have different underlying causes of dementia, such as dementia of the Alzheimer type, vascular dementia and Lewy body dementia. Individual variety in progress and manifestation of dementia is seen, and therefore requirements may vary. This calls for a tailored approach when implementing environmental interventions, and this is the reason why type and stage of dementia are not explicitly included in the analysis. Activities included in this study are toileting, bathing and personal care, dressing and doing laundry, sleeping, cooking, and dining. Functions that are supported through environmental interventions are (i) safety and security at home including wandering, as well as (ii) perception, orientation, and memory.
Figure 1. Disablement model, role of home environmental interventions and impact on carers, taken and adapted from Gitlin and Corcoran20. 3. Dementia and daily living: goals for environmental design Some of the performance deficits, particularly those seen in the first stages of dementia, can be countered or supported by design strategies29. The stage of dementia, of course, is not synonymous to the level of physical independence. The stage of dementia and personal abilities are more important in determining appropriate design than is the specific type of setting or housing21. Steeman et al.30 state that community-dwelling individuals with dementia emphasise their remaining competencies, instead of focusing on skills lost. As dementia progresses, there comes a moment that persons can no longer acquire new knowledge or learn new skills, although the ability to perform previously learned skills that require repetitive motions appears to be retained31,32. This calls for a logical structure of the dwelling and the neighbourhood, with a minimum of changes33. Living independently (alone or with a spouse) is predicted by the relationship with the carer and his/her perceptions of the functioning of the person with dementia, more than by cognitive functioning34. In the end, modifying the home environment is a temporary solution to an ever increasing problem. Since older people with dementia often cope with the same age and ageing-related health problems as other older adults, the goals for planning and designing for dementia include those for the ageing population in general21, for instance, designing for accessibility. In addition, numerous researchers and institutes have described design principles or goals for dementia11,16,21,32,35-43, in particular for the design of SCUs (Table 1). In order to achieve these goals, there is an extreme variation of modifications and environmental strategies among units ranging “from merely installing locks on the door, to elaborate and detailed environmental changes”42,p.8.
47
![Page 61: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/61.jpg)
Tab
le 1
. Ove
rvie
w o
f des
ign
prin
cipl
es o
r de
sign
go
als
for
livin
g en
viro
nmen
ts fo
r pe
rson
s w
ith d
emen
tia.
MC
SS
* (2
1) /
Zgo
la (
38)
Env
ironm
ent
shou
ld:
•be
stru
ctur
ed
•be
stab
le
•pro
vide
env
ironm
enta
l rou
tines
(as
soci
atio
n of
ac
tiviti
es w
ith c
erta
in lo
catio
ns)
•ser
ve a
s a
(mem
ory)
cue
•fac
ilita
te o
rient
atio
n •p
rovi
de s
ecur
ity
•pro
mot
e re
colle
ctio
n
Pyn
oos
et a
l. (1
1)
Env
ironm
ent
shou
ld:
•pro
mot
e di
gnity
and
inde
pend
ent f
unct
ioni
ng
•pro
vide
app
ropr
iate
sen
sory
stim
ulat
ion
•pro
vide
sec
urity
and
saf
ety
•pro
vide
the
appr
opria
te le
vel o
f act
ivity
/task
•p
rovi
de a
hom
e-lik
e an
d fa
mili
ar a
tmos
pher
e •p
rovi
de fo
r in
divi
dual
con
trol
and
priv
acy
•cre
ate
oppo
rtun
ity fo
r so
cial
isin
g •b
e fle
xibl
e an
d ad
apta
ble
in s
uppo
rtin
g th
e pe
rson
’s
beha
viou
ral a
nd p
hysi
cal n
eeds
•e
mph
asis
e w
elln
ess
and
mai
ntai
n co
nnec
tion
with
th
e he
alth
y an
d th
e fa
mili
ar
Sch
iff (
18)
Env
ironm
ent
shou
ld:
•be
clea
r an
d w
ell-s
truc
ture
d •b
e st
able
and
fam
iliar
•s
erve
as
a cu
e to
beh
avio
ur
•ser
ve a
s a
cue
to m
emor
y •s
uppo
rt r
ealit
y or
ient
atio
n
Coh
en a
nd
Wei
sman
(35
) T
hera
peut
ic
goal
s fo
r go
od d
esig
n:
•ens
ure
safe
ty a
nd s
ecur
ity;
•sup
port
func
tiona
l abi
lity
thro
ugh
mea
ning
ful a
ctiv
ity to
he
lp m
aint
ain
com
pete
nce
and
enha
nce
self-
este
em
•max
imis
e aw
aren
ess
and
orie
ntat
ion
•pro
vide
(ca
refu
lly r
egul
ated
) op
port
uniti
es fo
r (s
enso
ry)
stim
ulat
ion
and
chan
ge, a
void
ing
eith
er d
epriv
atio
n or
ov
erlo
ad
•max
imis
e au
tono
my
and
cont
rol
•ada
pt to
cha
ngin
g ne
eds
•est
ablis
h lin
ks to
the
heal
thy
and
fam
iliar
, for
in
stan
ce, m
aint
ain
as m
any
links
as
poss
ible
with
pa
st li
ves
•pro
vide
opp
ortu
nitie
s fo
r so
cial
isat
ion
•pro
tect
the
need
for
priv
acy.
B
raw
ley
(40)
A
func
tiona
l en
viro
nmen
t sh
ould
:
•ena
ble
com
mun
icat
ion
and
appr
opri
ate
exer
cise
•m
inim
ise
agita
tion
•min
imis
e ha
zard
and
ris
ks o
f fal
ls a
nd in
jury
•pro
vide
nur
turin
g, c
omfo
rt a
nd s
ecur
ity
•ant
icip
ate
pote
ntia
l cog
nitiv
e de
ficits
•p
rovi
de c
ures
and
ass
ista
nce
for
way
findi
ng
Mar
shal
l (16
) D
esig
n sh
ould
: •c
ompe
nsat
e fo
r di
sabi
lity
•max
imis
e in
depe
nden
ce
•enh
ance
sel
f-es
teem
and
con
fiden
ce
•dem
onst
rate
car
e fo
r st
aff
•be
orie
ntat
ing
and
unde
rsta
ndab
le
•rei
nfor
ce p
erso
nal i
dent
ity
•wel
com
e re
lativ
es a
nd th
e co
mm
unity
•a
llow
con
trol
of s
timul
i F
lem
ing
et a
l. (3
2)
Spe
cial
car
e un
its s
houl
d pr
ovid
e or
fa
cilit
ate:
•ens
ure
safe
ty a
nd s
ecur
ity
•red
uce
the
size
of t
he g
roup
and
be
smal
l •m
ake
the
envi
ronm
ent s
impl
e, a
nd p
rovi
de g
ood
visu
al
acc
ess
•red
uce
unw
ante
d an
d un
nece
ssar
y st
imul
atio
n •h
ighl
ight
hel
pful
stim
uli
•pro
vide
for
plan
ned
wan
derin
g •m
ake
the
envi
ronm
ent a
s fa
mili
ar a
s po
ssib
le
•pro
vide
opp
ortu
nitie
s fo
r bo
th p
rivac
y an
d co
mm
unity
•p
rovi
de fo
r vi
sito
rs, i
.e.,
links
to th
e co
mm
unity
•m
ake
the
envi
ronm
ent a
s do
mes
tic a
s po
ssib
le
48
![Page 62: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/62.jpg)
Dia
z M
oore
et
al. (
39)
Day
car
e se
tting
s sh
ould
pr
ovid
e or
fa
cilit
ate:
•saf
ety
and
secu
rity
•fun
ctio
nal i
ndep
ende
nce
•orie
ntat
ion
•sen
sory
stim
ulat
ion
•mea
ning
ful a
ctiv
ity
•soc
ial i
nter
actio
n
•priv
acy
•per
sona
l con
trol
•c
ontin
uity
of t
he s
elf
•spi
ritua
lity
•arc
hite
ctur
al d
elig
ht
Bur
ton
and
Tor
ringt
on (
41)
Dem
entia
-fr
iend
ly
desi
gn s
houl
d be
:
•fam
iliar
•l
egib
le
•dis
tinct
ive
•acc
essi
ble
•com
fort
able
•s
afe
Mar
quar
dt a
nd
Sch
mie
g (4
3)
Crit
eria
of a
th
erap
eutic
en
viro
nmen
t:
•leg
ibili
ty (
logi
cal r
oom
syn
tax;
furn
ishi
ng; f
ixtu
res
and
fittin
gs)
•fam
iliar
ity (
biog
raph
ical
ref
eren
ce; h
omog
eneo
us a
nd
smal
l gro
ups;
non
-inst
itutio
nal c
hara
cter
) •s
ocia
l int
erac
tion
(priv
acy;
bel
ongi
ng; c
omm
unic
atio
n)
•aut
onom
y (b
arrie
r-fr
ee, c
ompe
nsat
ing
envi
ronm
ent;
safe
ty a
nd s
ecur
ity; o
rient
atio
nal c
ues)
•s
enso
ry s
timul
atio
n (e
ncou
rage
men
t; av
oida
nce
of
over
stim
ulat
ion;
acc
ess
to th
e ou
tdoo
rs)
*MC
SS
, Min
istr
y of
Com
mun
ity a
nd
Soc
ial S
ervi
ces
49
![Page 63: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/63.jpg)
Apart from the goals stated by Brawley40, functional design for older adults may mean providing more traditional looking spaces, including the furnishings, finishes, fabrics and patterns. Technological appliances should be incorporated into the design by disguising them in more conventional forms40. Marshall16 summarises an international consensus on design principles for institutional settings that can be embodied in design features. Although there is an overlap with the goals described by Cohen and Weisman35, the design principles by Marshall explicitly include the needs of carers. The features described by Fleming et al.32 show great similarities with those described by Cohen and Weisman35, and Marshall16. In summary, the goals presented in Table 1 prioritise the creation of safe and secure, simple, well-structured and familiar environments that provide cues and privacy to residents. Such environments should allow residents to see everything in the dwelling, provide a décor that would have been familiar to the residents in their early adulthood, and offer quiet spaces for withdrawal for both the individual with dementia and the partner or formal carer. Fortunately, all goals described for SCUs can be applied without difficulty to the own home environment. The environmental modifications that pertain to the achievement of these goals have both direct and prevention effects20 (Figure 1). Environmental interventions have a direct impact on the functioning and participation, which are affected by dementia. 4. Environmental interventions for dementia There is a broad range of environmental interventions available to support individuals with dementia when doing a range of daily activities and functions. Activities included in this overview are toileting, bathing and personal care, dressing and doing laundry, sleeping, cooking, dining, as well as a section on general safety and security-related interventions at home, which includes wandering, and a section on assistance with perception, orientation, and memory. 4.1. Toileting There are numerous environmental interventions available to support individuals with dementia and their carers during toileting (Table 2). These interventions can be applied to any type of space, whether it concerns a separate restroom or a larger bathroom. Environmental interventions identified in this study focus on an increased usability through an improved and faster localisation of the restroom. Tilly and Reed44 state that for people who need to use the toilet providing cues to help find the restroom quickly may reduce the risk of wandering. The authors postulate that furniture should be sturdy and in good condition and, when possible, may be arranged in a manner that approximates the resident’s previous bedroom-to-restroom path to enhance familiarity. However, it still remains necessary to create and maintain a clear path to the restroom. Other items identified are related to assistance during toileting, as well as compensating for reduced judgment and awareness. There are also interventions which aim to increase safety during toileting and minimise or postpone incontinence by facilitating toileting. The interventions reflect a combination of solutions that address both the effects of biological ageing and dementia. 4.2. Bathing and personal care In most homes, bathrooms are the location for bathing and carrying out personal care activities (Table 3). To many the bathroom is a place for relaxation46. The bathroom is often seen as the most dangerous room in the home. Risks include common home injuries, slips and falls, burns, poisoning, cuts, electrocution, as well as drowning49,56. Measures to increase general safety benefit both the carer and the individual with dementia. For instance, there should be enough space for a carer to assist during bathing49. Bathing also requires a good routine50, privacy, and a relaxing, calming atmosphere. Often privacy is sacrificed for safety, yet certain compromises have to be made to preserve both49. By relocating the bathroom downstairs, the need for climbing stairs can be avoided49. Given the dangers present in the bathroom, and the restricted availability of domestic care, it is important to minimise the need for cleaning. This can be achieved by using certain coatings and maximising tile size (smaller surface of mortar joints).
50
![Page 64: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/64.jpg)
4.3. Dressing and doing laundry Dressing and doing laundry are two activities which are connected to clothing. Dressing and undressing are activities that most often take place in the bedroom and the bathroom. Warner49 advises to set up a special zone in the home for (un)dressing. Apart from various modifications and simplifications that can be made to clothing, there are numerous environmental interventions and adaptations that can be applied for assistance (Table 4). People with dementia commonly have problems in choosing what to wear from the variety of clothes hanging in a wardrobe. The elimination of choices in the selection of clothing may help retain the functional ability to dress independently32,67. Namazi and DiNatale Johnson67 mention that this is supported by clinical research, which concludes that visual search and attention are hindered by additional visual information. Simplifications, however, do not address the complex components of the dressing task from the perspective of individual autonomy and decision making in a supportive environment67. There are also environmental interventions that can help in doing laundry, which range from small interventions such as placing washing machines and dryers near the bathroom49, and the transfer of dangerous laundry tasks to a new location such as the kitchen area49, to applying specific technologies and interventions presented in Table 5. 4.4. Sleeping The bedroom should support optimum rest and sleep. Good sleep is important for restoration of body and mind. The bedroom is both a refuge and a personal space, and one should be careful when changing this49. Falls resulting from walking around, dressing, and transfers are considered to be a major problem in bedrooms49. When climbing stairs is difficult due to impaired mobility, bedrooms might be relocated to the ground level if the structure of the home allows for it56. Spouses, who used to sleep in the same bed, may find that this is no longer an option due to incontinence or nocturnal restlessness49. A second bedroom may then be advisable. In general, the bedroom should be a homelike and pleasant sleeping environment, for which a large number of environmental interventions exist (Table 6). Some persons will have their beds put in the living room by the care organisation. In such a situation, results may be applied to the living room. 4.5. Domestic and homemaking activities; cooking, cleaning, doing dishes The kitchen is the space where domestic and homemaking activities as cooking, cleaning and doing the dishes are carried out. It is a potentially dangerous room in the home. Apart from the use of gas and sharp objects, individuals with dementia may try to cook when being by themselves and then forget about it. Today’s modern kitchens, which are often equipped with various kitchen appliances, often have a high-tech character, and make no sense to someone with dementia46. One of the goals of a modified kitchen (Table 7) is to have people with dementia participate in various kitchen activities with a minimum of risks. 4.6. Eating and drinking Eating and drinking are important rituals that retain cultural, social and psychological significance throughout life75. Dining is an activity that follows from the preparation of food, and which is carried out either in the kitchen, dining room or living room. In the early and middle stages of dementia, the need for mealtime assistance may vary from complete independence to minimal support. The progression of dementia is often accompanied by a decreased ability to execute the sequential behaviours required to feed oneself75. Many environmental interventions are available to facilitate independent dining, and to increase safety during mealtimes (Table 8). Mace and Rabins56 state that some people with dementia do better in a dining room or kitchen were there are many subtle cues like food smells that remind them to eat. Moreover, the dining area should be well-lit, so that people can see their food, but lighting should not be overpowering or glaring, and background noise should to limited to a non-distracting level23,50,56. Adequate exposure to light, for instance, near the dining table is important for the support of activities of daily living as eating23, whereas it also has benefits to behaviour and circadian rhythmicity76,77. Some sources warn for poisonous plants that may be mistaken for edible vegetables. At the same time, Schiff18 states that plastic plants and flowers, which could be used as a substitute, do not confirm the sense of what plants and flowers ought to feel and smell like.
51
![Page 65: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/65.jpg)
4.7. Increasing safety, and assistance with perception, orientation, and memory A wide range of environmental interventions can be introduced to maximise home safety. Safety and security constitutes a large array of domains, including mobility and wandering, orientation and perception, and devices for communication, or in short, all items in the home, not per se in designated rooms, that contribute to safer living and a sense of security. Carter et al.79 assessed 37 different environmental hazards in the homes of older adults in Australia in a cross-sectional survey including interviews and inspections among 425 subjects. About 80% of the homes inspected had at least one hazard, and 39% had more than five hazards. Most hazards were found in bathrooms, kitchens and stairways, of which poor flooring was the most potential hazard followed by poor lighting. Much of what we know about safety and security is based on studies of what relatives and care professionals do themselves to manage dementia symptoms. The simplification of the home and the removal of clutter mean that the person with dementia does not need to think through more things, which may prevent the occurrence of accidents56. At the same time, tidy homes may even be understimulating, leading to sensory deprivation and disorientation, and a loss of familiarity. A home should encourage correct decisions and avoid wrong ones49. Another point often mentioned is lighting as a means to increase safety, in particular in relation to mobility49,50,56. Wandering behaviour can pose safety hazards to the wanderer and is a cause of great concern among relatives. There are roughly three types of wandering: (i) as a consequence of disorientation; (ii) habitual activity stemming from previous experience; and (iii) restless activity-seeking in case of understimulation. There are a number of environmental interventions available to limit the risks associated with wandering or to diminish the behaviour. People with dementia are known to have problems with perception, orientation and memory. Many environmental interventions exist to support people in daily life, such as labelling things in the home, avoiding patterns that are distracting or confusing, and using see-through materials and items. Schiff18 makes a good point about institutional settings, which may also apply to the own home. If a person with dementia looks out of a window and sees that it is snowing outside, and then turns to see a large mural (or a picture or poster) of autumn trees, it is not surprising if disorientation arises. The home should be conductive to orientation in time (of year). Tables 9 and 10 provide an overview of environmental interventions to improve general safety and security at home (including wandering), as well as an overview of interventions to assist with perception, orientation, and memory.
52
![Page 66: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/66.jpg)
Tab
le 2
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
toile
ting.
C
rite
ria
for
use
A
ssoc
iate
d de
ficits
E
nvi
ron
men
tal i
nte
rven
tio
n
Typ
e o
f in
terv
enti
on
Co
mm
ents
R
efer
ence
s
Inab
ility
to
lo
cate
th
e to
ilet
Spa
tial d
isor
ient
atio
n a
nd/o
r pe
rce
ptua
l def
icits
V
isua
l cue
s: R
ed li
ght a
t res
troo
m d
oor
; co
lour
ed li
ne
on
floor
lead
ing
to r
estr
oom
H
M
Not
sui
tab
le o
r us
eful
for
peop
le w
ith s
ever
e de
me
ntia
21
P
ut (
pict
ure)
sig
n on
the
door
H
M
21
,45-
47
Le
ave
acce
ss d
oor
ope
n to
enh
anc
e vi
sibi
lity
HM
/TS
T
oile
ts a
re e
asily
foun
d. F
or lo
calis
atio
n a
nd t
o pr
eve
nt
ina
ppro
pria
te s
exua
l be
havi
our
21,3
2,48
,49
R
emov
e to
ilet
lid
OM
38
C
olo
ure
d to
ilet s
eat
OM
A
dds
cont
rast
50
Inab
ility
to
rea
ch t
he
toile
t fa
st
eno
ug
h
Mot
or p
robl
ems
(tre
mor
, ps
ycho
mot
or s
low
ing)
P
orta
ble
com
mod
e (c
hai
r), u
rina
l, be
dpan
A
D
21
,47,
51-5
3
E
asy
acce
ss to
the
toile
t H
M/T
S
Incl
udin
g op
en
door
s 21
Red
uced
mo
bilit
y an
d ba
lanc
e
Rai
sed
toile
t sea
t O
M
Rai
se b
y up
to 8
cm
21
,47,
53-5
5
G
rab
bars
, gu
ard
rai
ls, a
rms
for
the
toile
t H
M/O
M
Per
son
ma
y co
ntin
ue
to u
se th
e un
safe
toile
t pap
er h
olde
r / t
ow
el r
ack
/ soa
p d
ish
to h
old
on
to
21,3
8,49
,56
-59
Nee
d a
ssi
stan
ce u
sin
g t
he
toile
t
Red
uced
mo
bilit
y an
d co
ord
inat
ion
A
utom
ated
toile
t w
ith b
idet
func
tion
HM
/OM
In
corp
orat
es a
utom
atic
flu
sher
, w
arm
wat
er b
idet
, ho
t ai
r dr
yin
g (c
an b
e in
stal
led
on
a st
anda
rd to
ilet b
ow
l). M
ay
caus
e fe
ar
21,4
9,60
N
on-s
lip fl
oor
cov
erin
g ne
ar to
ilet a
nd
wa
shba
sin
H
M
54
O
ver
the
toile
t ch
air,
toi
let
rais
er
OM
21,5
4
Red
uced
coo
rdin
atio
n, c
onfu
sion
P
ull c
ord
O
M/T
S
Ofte
n fa
mili
ar w
ay
to fl
ush.
Can
be
supp
lem
ente
d w
ith
auto
mat
ic fl
ush
ing
F
ocus
gro
up
Wea
knes
s, r
educ
ed c
oor
dina
tion
R
ubbe
r gr
ips,
doo
rkno
b ad
ap
tors
, and
co
vers
for
han
dles
O
M
21
Red
uce
d j
ud
gm
ent
or
awar
enes
s
Con
fusi
on; r
ed
uced
co
ordi
natio
n / T
rem
or o
r sp
astic
ity o
f han
ds
Rem
ove
lock
s O
M
53
Con
fusi
on
Rem
ove
was
te b
aske
ts, h
amp
ers
and
othe
r ite
ms
rese
mbl
ing
toile
t bo
wls
O
M
Str
ateg
y if
item
s ar
e be
ing
used
as
such
. Als
o, to
ilets
can
be
use
d fo
r hi
din
g or
dis
posi
ng
of e
very
day
item
s 20
,49,
59
53
![Page 67: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/67.jpg)
Tab
le 3
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
bat
hing
and
per
sona
l car
e ac
tiviti
es in
the
bath
room
. C
rite
ria
for
use
A
ssoc
iate
d de
ficits
E
nvi
ron
men
tal i
nte
rven
tio
n
Typ
e o
f in
terv
enti
on
C
om
men
ts
Ref
eren
ces
Dif
ficu
lty
in b
ath
ing
in
dep
end
entl
y
Per
cept
ual
def
icits
and
red
uce
d m
obi
lity
/ coo
rdin
atio
n
Vis
ual c
ues:
Ref
lect
ive
tap
e/st
rips
OM
It
may
not
be
safe
to le
ave
the
pers
on
unat
tend
ed
21,5
4
Pad
ded
tran
sfe
r se
at /
(fol
d-do
wn
) w
all
seat
in s
how
er.
Bat
h se
at /
tub
chai
r A
D
Ibid
em. T
o be
use
d in
cas
e of
exh
aust
ion
or v
ertig
o.
21,4
7,49
-54,
56-
58,6
1
Gra
b ba
rs o
n ri
m o
f tub
, and
sho
we
r w
all,
non
slip
mat
eria
l on
floor
suc
h a
s til
es o
r st
icke
rs. S
peci
al n
on-
slip
coa
tings
HM
/OM
It
may
not
be
safe
to le
ave
the
pers
on
unat
tend
ed,
espe
cial
ly in
are
as w
ith w
ater
spi
lled
on
floor
21
,47,
49-
54,5
7,58
,61
-63
C
hair
in b
athr
oom
A
D
To
sit o
n w
hile
dry
ing
off
49
G
rab
bar
in fr
ont
of s
ink
OM
T
o ho
ld o
n to
wh
en
stan
din
g
49
F
loor
-to-
ceili
ng s
afet
y po
le
HM
/OM
Ib
idem
61
R
epla
ce t
ow
el r
acks
with
gra
b ba
rs
HM
/OM
P
eopl
e m
ay h
old
on t
o an
y ite
m
49
Red
uced
ra
nge
of m
otio
n
Han
dhe
ld s
ho
we
rhea
d (o
r h
ose
) fo
r ba
thin
g (w
ith o
n-of
f pau
se b
utto
n)
OM
S
ome
have
fea
r fo
r sh
ower
wat
er (
whe
n co
min
g fr
om
abov
e). I
n or
der
to c
ontr
ol s
pilli
ng o
f w
ater
47
,49,
51-5
4,56
-58
,61
Soa
p at
tach
ed t
o a
long
han
dle/
strin
g or
m
agn
et, l
iqui
d so
ap d
isp
ense
rs, s
oap
dish
w
ith r
aise
d ed
ges
OM
T
o m
inim
ise
the
risk
of fa
lls o
r sl
idin
g af
ter
drop
pin
g so
ap
21,4
9,54
Air
drye
r fo
r bo
dy
AD
S
hou
ld h
ave
eno
ugh
air
flow
to d
ry e
ntire
bo
dy.
In c
ase
of
frag
ile s
kin.
Ma
y al
so b
e m
isu
nder
sto
od a
nd t
here
fore
ca
use
fear
21,6
4
P
rovi
de
a ho
rizon
tal s
loth
ne
ar
botto
m o
f th
e ba
th tu
b (o
n e
xter
nal s
ide
) H
M
To
crea
te e
xtra
spa
ce fo
r th
e fe
et o
f car
er, i
n or
der
to a
llow
be
ndi
ng
over
/ re
ach
ing
F
ocus
gro
up
P
rovi
de
a on
e-ha
nde
d fa
ucet
with
a la
rge
han
dle
O
M
Eas
y fo
r ca
rer
to o
pera
te. A
ccor
ding
to Z
gola
38, s
uch
fauc
ets
sho
uld
be r
epla
ced
by
trad
ition
al ta
ps
Foc
us g
roup
Red
uced
mo
bilit
y H
ydra
ulic
bat
h lif
t A
D
May
be
too
com
ple
x fo
r pe
ople
with
sev
ere
dem
ent
ia
21
Rep
laci
ng th
e tu
b w
ith a
ro
ll-in
sho
wer
H
M
Acc
ess
for
wh
eel
chai
rs. A
lso
for
disp
osal
of c
lea
nin
g w
ater
20
,49
Was
hbas
ins
whi
ch c
an
be a
djus
ted
in
heig
ht
HM
F
or p
erso
ns in
a w
he
elch
air
Foc
us g
roup
Inab
ility
to
gra
sp/r
each
/ho
ld
ob
ject
s
Wea
knes
s, r
educ
ed c
oor
dina
tion
R
ubbe
r gr
ips
and
do
orkn
ob a
dapt
ors.
P
last
ic fo
am c
over
s O
M
21
F
auce
t han
dle
s lo
cate
d o
n th
e si
de o
f the
si
nk
OM
M
ore
acce
ssib
le th
an r
ear
fau
cets
for
peop
le in
w
he
elch
airs
40
54
![Page 68: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/68.jpg)
G
ood
qual
ity s
how
er
curt
ain
one
can
gras
p or
hol
d o
n to
O
M
Cal
min
g co
lour
and
pat
tern
49
R
emov
e gl
ass
(she
lves
) an
d fr
agile
item
s O
M
Rep
lace
by
pla
stic
s 49
S
oft f
loor
cov
erin
g
HM
P
rote
ctio
n a
gain
st b
reak
ing
whe
n ite
ms
fall
on
hard
flo
or
54
Nee
d f
or
pro
tect
ion
Red
uced
jud
gm
ent
Lo
we
r te
mpe
ratu
re o
f w
ater
hea
ter
OM
T
o pr
even
t bur
ns. N
ot lo
wer
tha
n 6
0-6
5 °C
(gr
ow
th o
f Le
gio
nel
la)
21,5
0,51
,56
-58
Use
hid
den
tap
s, k
nobs
, con
trol
pa
nels
O
M
Ma
y co
ntrib
ute
to fe
elin
gs o
f sus
pici
on
54
The
rmos
tatic
tap
O
M
Inst
all a
tap
tha
t ca
nnot
be
bro
ken
by
over
-tur
nin
g.
The
rmos
tat t
aps,
whi
ch o
ften
requ
ire a
tw
istin
g ha
nd
mov
eme
nt, a
re d
iffic
ult t
o op
erat
e an
d of
ten
unk
now
n to
pe
opl
e w
ith d
em
entia
. A s
olut
ion
wo
uld
be to
inst
all
ther
mos
tat d
evic
es u
nde
rnea
th th
e ba
thtu
b a
nd
wa
shba
sins
54,6
0,65
P
ress
ure-
sens
itive
and
/or
tem
pera
ture
lim
itin
g (a
nti-s
cald
ing)
bal
anci
ng v
alve
on
taps
OM
49
Con
fusi
on /
diso
rient
atio
n
Rem
ove
or lo
ck p
lug
sock
ets
HM
/OM
In
stal
l chi
ld-p
roof
plu
g co
vers
in o
utle
ts
49,5
0,54
Out
lets
are
gro
und
fau
lt in
terr
upte
d (G
FI)
H
M
GF
I out
lets
and
circ
uit b
reak
ers
hel
p pr
otec
t fro
m s
hock
s 49
,54
Rem
ove/
avoi
d (p
orta
ble
) el
ectr
onic
s.
Unp
lug
sma
ll e
lect
ric a
ppl
ianc
es
OM
49,5
0,54
,60
Hai
r dr
yer
sho
uld
be
atta
ched
to th
e w
all
OM
S
imila
r to
hai
r dr
yers
foun
d in
hot
els.
GF
I out
lets
do
not
prot
ect a
gain
st e
lect
rocu
tion
from
mos
t hai
r dr
yers
60
Lab
el ta
ps h
ot a
nd c
old
O
M/T
S
Use
col
ours
21
,50,
54
Sto
re a
wa
y so
ap, c
lea
ning
flu
ids,
sh
amp
oo, b
ath
pea
rls, e
tc.
OM
/TS
M
ay
be
reg
ard
ed a
s ed
ible
51
,54,
56-5
9
Med
icin
e ca
bin
et (
child
proo
f loc
k)
OM
F
or s
tora
ge o
f dan
gero
us it
em
s (t
hat m
ay
be
eate
n). O
r si
mpl
y re
mov
e m
edic
atio
n fr
om
bat
hroo
m
11,4
7,51
,54,
56-
59,6
3
Rem
ove
sink
sto
pper
s fr
om b
atht
ub a
nd
wa
shba
sins
O
M
In o
rder
to p
reve
nt fl
ood
ing
54
,57
Rem
ove
lock
on
door
O
M
Lock
s ca
n b
e d
e-ac
tivat
ed
rath
er th
an r
emov
ed
21,5
4,57
,58,
64
Rem
ove
sho
wer
hea
ds th
at s
pra
y ov
er
rim o
f bat
h tu
b / t
ight
en h
and
sho
we
rs
OM
In
ord
er to
pre
vent
floo
din
g / s
lidin
g 54
R
emov
e sh
arp
obje
cts
OM
/TS
11,5
8
In
stal
l a g
rill
type
of d
oor
sill
H
M
To
prev
ent f
loo
din
g / m
inim
ise
ris
k of
falli
ng
Foc
us g
roup
55
![Page 69: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/69.jpg)
Per
cept
ual
def
icits
and
red
uce
d m
obi
lity
/ coo
rdin
atio
n,
diso
rient
atio
n
Cov
er, i
nsul
ate
, or
bloc
k ra
dia
tors
/ co
nvec
tors
/ w
ate
r pi
pes
OM
In
ord
er to
pre
vent
bur
ns o
r in
jurie
s in
fall
inci
dent
s 49
,51,
54,5
6
Inst
all h
eat
lam
ps a
nd r
adi
ant f
loor
he
atin
g sy
stem
s H
M
Use
tim
er s
witc
hes
for
lam
ps
49,6
4
Cov
er d
rain
s of
was
hbas
ins
OM
W
hen
in w
hee
lcha
ir, p
rote
ctio
n of
kne
es a
gain
st b
urns
49
Bat
htub
with
cus
hion
ed w
alls
H
M/O
M
49
Cus
hion
or
soft
en it
ems
that
can
not
be
rem
ove
d or
rel
ocat
ed (
taps
, etc
.). A
dd
cush
ione
d ed
ge
prot
ecto
rs to
wa
shba
sins
OM
In
ord
er to
pre
vent
falls
wh
en u
natte
nde
d 49
,54
S
heet
rub
ber
or
a cu
shio
ned
low
gla
re
vin
yl o
n flo
or
HM
W
arm
er th
an ti
le fl
oor
and
less
slip
per
y 40
R
emov
e au
xilia
ry h
eat s
ourc
es
OM
T
o pr
otec
t aga
inst
ele
ctric
sho
cks
51
P
rovi
de
a w
ind
ow
H
M
For
add
ition
al (
day)
light
an
d o
rient
atio
n
64
R
emov
e cl
utte
r an
d ob
ject
s O
M/T
S
In o
rder
to p
reve
nt fa
lls
52,5
6,58
Nee
d f
or
assi
stan
ce w
ith
p
erce
pti
on
Con
fusi
on d
ue t
o re
duce
d pe
rce
ptua
l ski
lls
Cov
er /
rem
ove
mirr
ors
OM
In
cas
e m
irror
s ar
e di
stra
ctin
g o
r w
hen
peo
ple
do n
ot
reco
gni
se th
eir
ow
n r
efle
ctio
ns
49,5
0,54
,59,
63,6
6
Rem
ove
or d
ism
antle
wh
irlpo
ols
HM
/OM
W
hirlp
ool
s m
ay
caus
e fe
ar a
nd a
gita
tion
by
exce
ssiv
e no
ise
32
,64
Con
fusi
on
Mar
k do
or to
the
bath
room
O
M
59
Nee
d f
or
org
anis
atio
n a
nd
p
riva
cy
Nee
d fo
r pr
ivac
y / c
onfu
sion
due
to
red
uce
d pe
rcep
tua
l ski
lls
To
wel
s sh
ould
be
kept
rea
dy
TS
P
refe
rab
ly a
war
m to
we
l fro
m a
tow
el r
adia
tor
50,6
4
Impa
ired
mem
ory
Sho
we
r ca
dd
y A
D
Sto
res
sham
po
o, s
oap,
etc
. 21
,53
Rem
ove
exce
ss m
ater
ials
T
S
54
,58
56
![Page 70: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/70.jpg)
Tab
le 4
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
dre
ssin
g.
Cri
teri
a fo
r u
se
Ass
ocia
ted
defic
its
En
viro
nm
enta
l in
terv
enti
on
T
ype
of
inte
rven
tio
nC
om
men
ts
Ref
eren
ces
Dif
ficu
lty
in d
ress
ing
in
dep
end
entl
y
Red
uced
ra
nge
of m
otio
n or
co
ord
inat
ion
D
ress
ing
aids
: st
icks
, st
ocki
ng d
evic
es,
lon
g ha
nde
d sh
oe h
orn
AD
/TS
21
Con
fusi
on, i
mp
aire
d m
em
ory
for
dres
sing
S
tore
aw
ay
clo
thes
out
of r
each
from
the
pers
on
with
de
men
tia
TS
In
cas
e w
hen
the
pers
on w
ith d
eme
ntia
put
s on
mul
tiple
la
yers
54
Per
cept
ual d
efic
its
Rem
ove
pict
ures
of p
eopl
e O
M/T
S
Ma
y b
e pe
rcei
ved
as r
eal p
eo
ple
star
ing
wh
en
(un)
dres
sin
g
68
Con
fusi
on a
nd im
pair
ed
jud
gm
ent
Pla
ce t
wo
wa
rdro
bes,
on
e ob
viou
s a
nd
one
hid
den,
with
the
obvi
ous
wa
rdro
be
cont
aini
ng
only
one
or
two
sets
of c
loth
es
OM
/TS
In
ord
er to
lim
it pr
oble
ms
in c
hoo
sing
32
R
educ
e ch
oice
s in
col
our
and
styl
e T
S
Rem
ove
clot
hes
from
clo
set
20,2
1,32
,50,
51
A
rran
ge
com
plet
e ou
tfits
T
S
On
shel
ves
or h
ange
r 21
,50
S
epar
ate
sum
mer
and
win
ter
clot
hin
g in
tw
o cl
oset
s, a
s w
ell
as d
ay
and
nig
ht
outfi
ts
TS
54
S
lidin
g cl
oset
doo
rs
OM
O
pen,
ove
rlap
pin
g sl
ider
s re
veal
onl
y h
alf t
he c
lose
t an
d lim
it ch
oice
49
O
pen
she
lves
inst
ead
of d
raw
ers
for
clot
hing
O
M
69
P
ut a
wa
y us
ed
clo
thes
in b
aske
t T
S
In o
rder
to p
reve
nt th
em fr
om b
eing
put
on
aga
in
54
O
rgan
ise
clot
hing
by
colo
ur a
nd o
utfit
T
S
67
P
ut p
ictu
res
of c
ompl
ete
outfi
ts o
n cl
oset
do
or o
r n
ear
dres
sin
g lo
catio
n
TS
54
Seq
uen
cing
diff
icul
ties
Lay
out c
loth
es in
ord
er to
be
put o
n T
S
21
,32,
50
Per
cept
ual
def
icits
and
red
uce
d m
obi
lity
/ coo
rdin
atio
n
Pro
vid
e ph
ysic
al s
uppo
rt
OM
G
rab
bars
, cha
ir or
bed
54
57
![Page 71: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/71.jpg)
Tab
le 5
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
doi
ng la
undr
y.
Cri
teri
a fo
r u
se
Ass
ocia
ted
defic
its
En
viro
nm
enta
l in
terv
enti
on
T
ype
of
inte
rven
tio
nC
om
men
ts
Ref
eren
ces
Dif
ficu
lty
in d
oin
g l
aun
dry
Con
fusi
on, i
mp
aire
d m
em
ory
and
com
pre
hens
ion
Use
ste
am ir
on
s w
ith a
utom
atic
shu
t-of
fs
OM
Ir
ons
ma
y be
dan
ger
ous.
Sto
re a
wa
y 38
,49,
54
Red
uce
d j
ud
gm
ent
or
awar
enes
s
Con
fusi
on
Pro
vid
e a
com
fort
able
cha
ir
OM
T
o al
low
one
to a
ssis
t and
be
with
car
er a
s h
e/sh
e do
es
the
lau
ndry
49
Use
sile
nt m
achi
nes
Was
hin
g m
ach
ines
, cen
trifu
ges
etc
ma
y ca
use
fear
54
Rem
ove
lau
ndry
bas
kets
res
em
blin
g to
ilets
O
M
Str
ateg
y if
bask
ets
are
bein
g us
ed a
s su
ch
49
R
efra
in fr
om tu
rnin
g on
was
hing
mac
hin
e,
cent
rifug
e du
ring
coo
kin
g
TS
54
Nee
d f
or
pro
tect
ion
Red
uced
jud
gm
ent
P
reve
nt m
isus
e of
det
erg
ents
and
ble
ach
O
M
Als
o st
ore
aw
ay
cle
anin
g ch
em
ical
s 49
P
reve
nt p
orta
ble
elec
tric
al a
pp
lianc
es
near
the
lau
ndry
sin
k O
M
49
In
stal
l flo
od
dete
ctor
/ flo
od a
larm
O
M
Per
son
with
de
men
tia m
ay
no
t und
erst
and
the
alar
m
49
Per
cept
ual
def
icits
and
red
uce
d m
obi
lity
/ coo
rdin
atio
n
Ref
rain
from
han
gin
g cl
othe
s lin
e / r
ack
ind
oors
O
M
To
prev
ent
wa
lkin
g in
to th
em
54
Use
a to
ploa
der
was
hing
mac
hin
e
OM
T
o pr
even
t th
e ne
ed
for
ben
ding
ove
r. M
ach
ine
can
als
o be
rai
sed
F
ocus
gro
up
58
![Page 72: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/72.jpg)
Tab
le 6
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
sle
epin
g.
Cri
teri
a fo
r u
se
Ass
ocia
ted
defic
its
En
viro
nm
enta
l in
terv
enti
on
T
ype
of
inte
rven
tio
n
Co
mm
ents
R
efer
ence
s
Nee
d f
or
pro
tect
ion
Per
cept
ual
def
icits
and
red
uce
d m
obi
lity
/ coo
rdin
atio
n,
diso
rient
atio
n
Low
er
the
bed,
put
mat
tres
s on
the
floor
O
M
If on
e fa
lls, t
he p
erso
n is
less
like
ly to
be
inju
red.
It is
m
ore
diffi
cult
to g
et o
ut
49,5
0,56
M
ove
bed
agai
nst
wa
ll T
S
One
-sid
ed p
rote
ctio
n a
gain
st fa
lling
. Bed
app
roac
hab
le
from
thre
e si
des
to h
elp
dres
s. M
akes
it e
asie
r to
cle
an
the
floor
or
put
a r
ailin
g o
n th
e w
all
(for
ass
ista
nce)
49
P
lace
bed
nea
r a
(sec
ured
) w
indo
w
TS
B
ed a
ppr
oac
habl
e fr
om th
ree
side
s to
he
lp d
ress
49
F
all-p
reve
ntio
n a
larm
A
D
Aco
ustic
al s
yste
m o
r m
onito
ring
dev
ice.
Per
son
with
de
me
ntia
ma
y no
t und
erst
and
the
alar
m
49
Ill
umin
atio
n on
the
wa
y to
toile
t / o
n co
rrid
or
HM
/AD
T
o m
ake
trip
s to
bat
hro
om le
ss d
ang
ero
us. A
utom
ated
sy
stem
s av
aila
ble.
Nig
ht li
ght
s 23
,49,
50,5
2,53
,55
A
void
ele
ctric
al b
lank
ets
AD
N
o ris
k of
ele
ctro
cutio
n in
cas
e of
inco
ntin
en
ce
54
Red
uced
ra
nge
of m
otio
n
Ext
ra o
utle
ts fo
r be
dsid
e el
ectr
ical
ap
plia
nces
H
M
Tab
le li
ght,
cord
less
pho
ne, r
adio
, clo
ck
49
Li
ght
ing
oper
abl
e fr
om b
ed
and
ne
ar d
oor
H
M
Dim
mer
s on
lig
ht
23,4
9
Red
uced
mo
bilit
y S
oft f
loor
cov
erin
g
HM
P
rote
ctiv
e m
easu
re a
gai
nst f
all i
ncid
ents
. Add
car
pet f
or
wa
rm fe
et a
nd a
cous
tical
val
ue
40,5
4
Acc
ount
for
rails
in c
eilin
g fo
r be
d lif
t H
M/A
D
Pre
vent
ive
me
asur
e
Sim
plify
and
re
mov
e ob
stru
ctio
ns
OM
F
urni
ture
, etc
. 49
Nee
d f
or
com
mu
nic
atio
n
Red
uced
mo
bilit
y In
stal
l a w
irel
ess
doo
rbel
l A
D
Allo
ws
for
com
mun
icat
ion
with
par
tner
in th
e h
ouse
wh
en
bou
nd to
be
d
70
(In
)ab
ility
to
get
ou
t o
f b
ed
Red
uced
mo
bilit
y, c
oord
inat
ion
and
stre
ngt
h
Tra
peze
dev
ice
/ gra
b ba
rs, b
ed r
ailin
gs
and
bed
han
dles
O
M
Req
uire
s ar
m s
tren
gth
beyo
nd
man
y in
div
idu
als’
ca
pabi
lity
21,4
7,49
,56
C
onto
ured
bed
/ ch
air
OM
21
A
djus
tabl
e be
d (
uppe
r p
art)
A
D
21
Wan
deri
ng
Put
a m
usic
al w
elc
ome
mat
bes
ide
the
bed
A
D
59
59
![Page 73: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/73.jpg)
Inco
nti
nen
ce
Red
uced
per
cept
ion
E
neur
itic
alar
m
AD
P
reve
ntiv
e m
eas
ure
21
P
rote
ctiv
e be
ddi
ng
O
M
21
,53
T
win
be
ds
OM
T
o pr
otec
t par
tner
from
inco
ntin
enc
e a
nd n
octu
rnal
re
stle
ssn
ess.
A s
econ
d b
edro
om m
ay
be
used
too.
49
Per
cept
ual
def
icits
and
di
sori
enta
tion
M
ake
a ‘te
xtur
e pa
th’ f
rom
ca
rpet
alo
ng
the
hall
from
the
bedr
oom
to th
e ba
thro
om
at h
and
leve
l
HM
T
o im
prov
e w
ayf
indi
ng
59
Red
uce
d j
ud
gm
ent,
aw
aren
ess
or
per
cep
tio
n
Con
fusi
on a
nd h
oard
ing
M
inim
ise
plac
es
to h
ide
item
s. R
emov
e w
ast
ebas
kets
O
M
In c
ase
of h
oard
ing.
Als
o a
stra
teg
y if
was
teb
aske
t is
used
as
a to
ilet.
Cam
era
surv
eilla
nce
optio
nal
38
,49
Con
fusi
on
Mar
k do
or to
the
bedr
oom
O
M
59
Con
fusi
on d
ue t
o re
duce
d pe
rce
ptua
l ski
lls
Cov
er o
r re
mo
ve m
irror
s O
M
Whe
n pe
ople
bec
ome
mor
e b
ed-b
oun
d, a
nd d
o no
t re
cog
nise
thei
r o
wn
ref
lect
ion
s 38
,49,
50,5
4,59
,63,
66
Lim
it m
irror
siz
e O
M
Rea
l siz
e re
flect
ions
of a
wh
ole
bo
dy
ma
y be
frig
hten
ing
49
60
![Page 74: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/74.jpg)
Tab
le 7
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
dom
estic
and
hom
emak
ing
activ
ities
; coo
king
, cle
anin
g, d
oing
dis
hes.
C
rite
ria
for
use
A
ssoc
iate
d de
ficits
E
nvi
ron
men
tal i
nte
rven
tio
n
Typ
e o
f in
terv
enti
on
C
om
men
ts
Ref
eren
ces
Nee
d f
or
gen
eral
ass
ista
nce
in
coo
kin
g f
oo
d
Per
cept
ion
def
icits
; poo
r m
oto
r co
ord
inat
ion;
trem
or
Inst
all s
tove
ne
xt to
sin
k H
M
Mea
l pre
para
tion
sho
uld
not b
e at
tem
pte
d b
y p
erso
ns
with
mod
erat
e to
sev
ere
dem
entia
. Min
imis
e d
ang
er
wh
en
drai
ning
boi
led
food
21,5
4
Kitc
hen
bla
de w
ith v
aria
ble
hei
ght
H
M
To
prov
ide
acce
ss to
wh
eel c
hair
user
s F
ocus
gro
up
Coo
k to
p sh
ould
be
leve
l with
cou
nter
top
H
M
21
F
ixe
d pl
aces
for
uten
sils
and
food
stu
ffs
TS
54
S
tore
hea
vy a
nd
mos
t of
ten
used
item
s at
co
nve
nie
nt h
eigh
t T
S
The
hig
hest
sh
elf a
t a m
axim
um
of 1
.40-
1.70
met
res.
R
efrig
erat
or a
t a 4
0 cm
pla
tform
54
C
reat
e su
ffici
ent
wor
k sp
ace
T
S
54
M
inim
ise
(cou
nte
r) c
lutte
r T
S
Kee
p p
ans
and
pot
s ac
cess
ible
49
,54,
56,5
8
G
rab
bar
in fr
ont
of k
itche
n si
nk
OM
49
S
helv
ing
uni
ts o
ver
and
unde
r w
ork
surf
aces
sho
uld
be m
inim
ise
d in
favo
ur o
f sh
allo
w s
hel
vin
g un
its a
t an
acce
ssib
le
heig
ht
HM
T
o av
oid
acci
den
ts
35
Con
fusi
on, i
mp
aire
d m
em
ory
Pla
ce p
ictu
res,
sig
ns a
nd
labe
ls o
n do
ors,
cl
oset
s, c
abin
ets
and
dra
we
rs
OM
/TS
Ill
ustr
atin
g th
e co
nten
ts.
Of
help
to
form
al c
arer
s /
stra
nger
s. U
se s
igns
to id
entif
y o
bjec
ts s
afe
to u
se
49,5
1,54
,56,
58
T
rans
pare
nt (
step
) sh
elv
ing
and
door
s.
Rem
ove
door
s/pa
nel
s. C
lear
, pla
stic
st
orag
e co
ntai
ners
OM
/TS
S
ee-t
hro
ugh.
Als
o be
nefit
s fo
rmal
car
ers
49
Poo
r m
otor
co
ordi
natio
n,
impa
ired
me
mor
y an
d at
tent
ion
P
rovi
de
plac
e fo
r pe
rso
n w
ith d
eme
ntia
to
sit (
chai
r, ta
ble
) an
d ca
rry
out
activ
ities
or
obse
rve
othe
rs
OM
/TS
F
or h
elp
ing
to p
rep
are
foo
d. P
lace
co
uld
be th
e di
ning
ta
ble.
Pla
ce fo
r th
e pe
rson
to w
atch
the
care
r (c
lingi
ng
beh
avio
ur)
49,5
4,56
,59
A
wor
k is
land
or
tabl
e ca
n se
rve
as a
ce
ntre
for
unob
trus
ive
obse
rva
tion
of th
e ho
useh
old
OM
/TS
A
lso
for
care
rs /
par
tner
s 35
61
![Page 75: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/75.jpg)
Nee
d f
or
pro
tect
ion
fro
m
dan
ger
Impa
ired
me
mor
y an
d at
tent
ion
S
afet
y sw
itche
s on
(ga
s) s
tove
(hi
dde
n in
ba
ck)
to d
isco
nne
ct b
urn
ers.
Man
ual
ly
turn
off
gas.
Aut
omat
ic s
hut-
off
of s
tove
an
d ot
her
sm
all a
pplia
nces
. Rem
ove
knob
s. In
stal
l sep
arat
e po
we
r sw
itch
on
the
stov
e
OM
/AD
T
urns
sto
ve o
ff au
tom
atic
ally
or
does
not
allo
w in
divi
dua
l to
turn
on
stov
e. P
erso
ns m
ay
forg
et a
ltog
ethe
r w
hat
the
y ar
e co
okin
g or
tim
ing.
Zgo
la3
8 w
hen
gas
is t
urne
d of
f, pe
rso
n w
ith d
em
entia
ma
y ca
ll a
serv
ice
wo
rker
21,3
8,47
,50,
51,5
4,57
-69,
63
In
stal
l gas
ala
rm
AD
P
erso
n w
ith d
em
entia
ma
y n
ot u
nder
stan
d th
e al
arm
. T
here
are
spe
cial
ala
rms
with
a c
onn
ectio
n to
a c
all
cent
re
Foc
us g
roup
In
stal
l rem
ote
switc
hes
or t
imer
s to
ki
tche
n e
quip
men
t, un
plug
wh
en n
ot in
us
e
OM
/AD
T
imer
s ca
n be
inst
alle
d to
co
ntr
ol e
lect
rical
out
lets
for
stov
es a
nd o
ther
app
lianc
es.
Als
o sh
ut o
ff af
ter
a ce
rtai
n tim
e in
the
eve
nin
g (c
urfe
w)
21,4
7,56
,63,
71,7
2
R
emin
der-
light
on
appl
ianc
es
OM
/AD
P
erso
ns m
ay
forg
et a
bou
t the
mea
ning
21
D
o no
t use
(m
icro
wav
e) o
ven
for
stor
age
O
M
Inap
prop
riate
item
s ca
n be
co
oked
and
ru
ine
d 49
,58
In
stal
l in
duct
ion
cook
er to
ps
HM
Le
ave
no r
oom
for
stor
age
unde
r a
grill
. Dis
cuss
ion
on
supp
ose
d da
nge
rs fo
r pe
opl
e w
ith p
acem
aker
s, s
ee
Fra
nk e
t al.7
3 a
nd Ir
nich
and
Ber
nste
in7
4.
49
C
over
sto
ve to
p O
M
With
alu
min
ium
cov
er o
r lid
57
,58,
63
D
ecre
ase
use
of /
stor
e a
wa
y da
nge
rous
ite
ms,
spa
re it
em
s an
d sh
arp
obje
cts
OM
Ite
ms
as k
nive
s, s
ciss
ors,
lette
r / b
ottle
/ ca
n op
ener
s,
pinc
ers,
fire
pla
ce e
quip
me
nt, c
utle
ry,
part
icu
larly
in c
ase
of e
xtre
me
agita
tion.
Ele
ctric
al e
quip
men
t, m
ixer
s,
kitc
hen
mac
hin
es. D
ices
, pet
food
, pla
stic
frui
ts, f
ruit-
shap
ed r
efri
gera
tor
mag
net
s. P
oiso
ns
11,4
7,50
,51,
54,5
7-59
,63
C
upbo
ard
/ cab
inet
that
can
be
lock
ed.
Saf
ety
lock
s O
M
One
suc
h ca
bine
t is
suffi
cien
t 35
,58
P
ut s
afet
y ca
tche
s on
ca
bine
ts a
nd
dra
wer
s O
M
59
S
tore
aw
ay
ap
plia
nces
that
can
no
lon
ger
be o
per
ate
d sa
fely
O
M
Incl
udin
g m
icro
wa
ve, e
lect
ric k
ettle
59
R
epla
ce g
lass
and
ear
the
nw
are
by
plas
tic
or p
aper
cup
s /
plat
es
OM
D
o no
t cau
se s
plin
ters
whe
n d
ropp
ed a
nd b
roke
n. E
asie
r to
cle
an u
p
49,5
4
F
ood
timer
s A
D
Per
sons
ma
y fo
rget
alto
geth
er
wh
at th
ey
are
coo
kin
g or
tim
ing
21,6
3
‘C
rash
bar
rier
’ for
pan
s on
sto
ve
OM
/AD
A
lso
ava
ilabl
e fo
r bo
ats
and
mob
ile h
omes
54
F
loor
sur
face
s no
n-sl
ippe
ry, e
spec
ially
ne
ar s
ink
HM
In
ord
er to
pre
vent
falls
wh
en w
ater
is s
pille
d
35,5
4
62
![Page 76: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/76.jpg)
P
rovi
de
suffi
cie
nt v
entil
atio
n
HM
T
o al
low
fres
h ai
r to
ent
er
22,2
3,54
In
stal
l ha
ndhe
ld fi
re e
xtin
gui
sher
s A
D
49
-51,
54,6
3
Con
fusi
on /
diso
rient
atio
n
Out
lets
are
gro
und
fau
lt in
terr
upte
d (G
FI)
H
M
GF
I out
lets
/ ci
rcui
t bre
aker
s h
elp
prot
ect a
gain
st s
hock
s 49
,54,
63
Inab
ility
to
han
dle
co
mp
lex
task
s
Inab
ility
to fo
llow
dire
ctio
ns
Pre
-pac
kage
d, d
ried
mea
ls a
nd
cold
cut
s.
Impr
oved
pac
kagi
ng fo
r op
enin
g / s
ealin
g
TS
B
oil i
n ba
g fo
od
shou
ld b
e av
oid
ed. T
oo h
ot to
be
han
dle
d sa
fely
21
,54
H
ang
a lis
t of d
irect
ions
for
prep
arin
g a
n ea
sy m
eal
TS
50
Inab
ility
to
cle
an
ind
epen
den
tly
Red
uced
mot
or
coor
dina
tion
and
mo
bilit
y S
mal
l lig
ht-w
eig
ht v
acuu
m c
lean
ers
AD
/TS
54
E
asily
dis
asse
mbl
ed
app
lianc
es
AD
/TS
M
inim
ises
be
ndi
ng
and
stoo
ping
21
P
lace
tea-
tow
els
in s
ight
T
S
In o
rder
to p
rom
ote
thei
r us
e
54
S
oil r
esis
tant
sur
face
s T
S
Red
uces
cle
anin
g re
quire
me
nts
21
Inab
ility
to fo
llow
dire
ctio
ns
Use
a s
ink
inst
ead
of a
dis
hw
ashe
r T
S
38
Nee
d t
o p
reve
nt
loss
es
Impa
ired
me
mor
y an
d at
tent
ion
Che
ck y
our
sin
k an
d dr
ain
. Mak
e su
re th
e tr
ap u
nder
nea
th th
e si
nk /
drai
n is
ac
cess
ible
HM
In
cas
e so
met
hin
g of
val
ue g
ets
drop
ped
do
wn
the
drai
n 49
P
ut a
lock
on
the
bin
O
M
In c
ase
of h
idin
g / s
torin
g / h
oard
ing
beha
vio
ur to
pre
vent
th
row
ing
aw
ay
valu
able
s. C
heck
bef
ore
disc
ard
ing
49
,51
Inab
ility
to
gra
sp a
nd
car
ry
ob
ject
s
Wea
knes
s, r
educ
ed c
oor
dina
tion
R
ubbe
r gr
ips,
doo
rkno
b ad
ap
tor,
pla
stic
fo
am c
over
for
han
dles
O
M/T
S
21
N
on-s
lip c
oat
ing
or m
ats
on w
ork
bla
de
OM
/TS
54
S
ing
le-c
ont
rol f
auce
t H
M/O
M
61
U
se s
olid
, lig
ht-w
eig
ht, p
last
ic b
ow
ls,
uten
sils
an
d to
ols
OM
/TS
P
ossi
bly
with
a s
uctio
n cu
p un
dern
eath
. Un
brea
kabl
e
21,5
4
Ja
r op
ene
rs, t
ube
win
ders
, bui
lt-up
ha
ndl
es o
n ut
ens
ils
OM
/TS
21
63
![Page 77: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/77.jpg)
Tab
le 8
. Env
ironm
enta
l int
erve
ntio
ns to
sup
port
eat
ing
and
drin
king
. C
rite
ria
for
use
A
ssoc
iate
d de
ficits
E
nvi
ron
men
tal i
nte
rven
tio
n
Typ
e o
f in
terv
enti
on
C
om
men
ts
Ref
eren
ces
Ref
usa
l o
r in
abili
ty t
o e
at
ind
epen
den
tly
Sev
ere
conf
usio
n; lo
ss o
f ap
pet
ite, o
r un
inhi
bite
d ap
pet
ite
Ref
riger
ator
do
or d
etec
tor
/ mon
itor.
S
ecur
ity a
larm
sys
tem
O
M/A
D
Sys
tem
to m
onito
r ho
w o
ften
door
is o
pene
d
49,7
8
R
efrig
erat
or a
nd
free
zer
with
(ch
ild-p
roof
) lo
cks
OM
T
o pr
even
t exc
ess
eatin
g
51,5
4
Impa
ired
perc
ept
ion
and
/or
jud
gm
ent;
poor
coo
rdin
atio
n o
r tr
emor
Pla
te g
uar
ds /
spill
pro
of c
ups
/ suc
tion
cups
on
pla
tes
/ non
-slip
pla
cem
ats
/ pl
ates
with
rim
s
OM
21,5
4,69
Tre
mor
or
spas
ticity
of h
and,
lim
ited
gras
p ra
nge,
wea
knes
s,
redu
ced
coor
dina
tion
Boo
k an
d lo
op s
trap
to h
old
uten
sil.
Rub
ber
spo
on,
we
ight
ed s
poo
n or
fork
. E
asily
ma
nip
ulat
ed c
utle
ry
OM
21,6
9
Rub
ber
grip
s, ja
r op
ene
rs, t
ube
win
ders
, bu
ilt-u
p ha
ndle
s on
ute
nsils
O
M/T
S
21
P
last
ic b
ow
ls, p
late
s a
nd c
up
s O
M
21
,51
Con
fusi
on; d
isor
ient
atio
n;
impa
ired
per
cept
ion
and
/or
jud
gm
ent
Rem
ove
unn
eces
sary
cu
tlery
/item
s/co
ndim
ents
T
S
Pap
er(s
) et
c. m
ay
caus
e th
e in
divi
dua
l to
focu
s on
writ
ing
or r
ead
ing,
rat
her
than
on
eatin
g.
21,4
9,50
,54,
56-
59,6
6
A
void
pla
cem
ats
, tab
lecl
oths
, dis
hes
with
co
nfus
ing
pat
tern
s an
d pr
ints
T
S
Prin
ts o
f edi
ble
s, c
utle
ry,
and
flow
ers
49,5
4,56
La
y th
e ta
ble
in c
ontr
astin
g co
lour
s T
S
21
,40,
50,5
4,54
,56,
69
S
tore
cof
fee
and
tea
with
the
(ele
ctric
) w
ater
ket
tle
TS
B
ehin
d a
child
-pro
of lo
ck
38,5
3,54
Red
uced
jud
gm
ent
C
ontr
ol f
ood
tem
pera
ture
T
S
Bef
ore
eatin
g; b
urn
ing
mo
uth
21
P
ut a
wa
y in
edib
les
and
co
nfu
sing
item
s T
S
Als
o in
clud
es fl
ow
er w
ater
, pla
nt e
arth
an
d h
ydro
cultu
re
cla
y. D
ue to
dys
pha
gia,
eat
ing
inap
prop
riat
e m
ater
ials
ca
n le
ad to
cho
king
21,4
9,54
R
emov
e sm
all i
nges
tible
item
s T
S
57
Nee
d f
or
safe
ty
Con
fusi
on; i
mp
aire
d pe
rce
ptio
n an
d/or
jud
gm
ent
Sec
ure
tabl
eclo
th
OM
54
A
void
pla
stic
cut
lery
O
M
Due
to b
reak
ing
and
crac
kin
g
54
P
lace
hot
item
s in
the
cent
re o
f the
tabl
e
OM
54
64
![Page 78: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/78.jpg)
S
tabl
e, h
eav
y no
n-tip
pabl
e ta
bles
O
M
As
peop
le w
ill u
se th
em to
be
ar th
eir
we
ight
wh
en
the
y ge
t in
and
out
of c
hairs
69
R
emov
e po
iso
nous
pla
nts
OM
M
ay
be
eate
n, o
r se
en a
s sa
lad.
Als
o co
nsid
er
flow
er
arra
nge
me
nts
40,5
4,57
-59,
63
R
efrig
erat
or a
larm
for
high
tem
pera
ture
s in
sid
e or
wh
en t
empe
ratu
re c
ont
rol k
nob
has
been
han
dle
d
AD
T
o pr
even
t eat
ing
spo
ilt fo
od
49
S
tore
aw
ay
alc
oho
l O
M
54
,57,
58
Inab
ility
to
cle
an
ind
epen
den
tly
Red
uced
mot
or
coor
dina
tion
and
mo
bilit
y S
oil r
esis
tant
sur
face
s, p
last
ic ta
blec
loth
s,
floor
mat
s to
pro
tect
car
pets
H
M/O
M
Red
uces
cle
anin
g re
quir
eme
nts
, w
hen
peop
le s
pill
food
st
uffs
21
,49,
56
65
![Page 79: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/79.jpg)
Tab
le 9
. Env
ironm
enta
l int
erve
ntio
ns to
impr
ove
safe
ty a
nd s
ecur
ity a
t hom
e, in
clud
ing
wan
derin
g.
Cri
teri
a fo
r u
se
Ass
ocia
ted
defic
itsE
nvi
ron
men
tal i
nte
rven
tio
n
Typ
e o
f in
terv
enti
on
C
om
men
ts
Ref
eren
ces
Nee
d f
or
safe
ty /
secu
rity
Per
cept
ual d
efic
its, d
isor
ient
atio
n S
oun
d m
onito
ring
, int
erco
m, a
larm
sys
tem
A
D
38
,56,
70
R
educ
e si
ze o
f op
era
ble
win
do
ws
HM
C
anno
t be
cra
wle
d th
roug
h. B
uilt
into
des
ign
of b
uild
ing
21
In
stal
l sec
urity
lock
s on
win
dow
s an
d ba
lcon
y d
oors
in h
igh-
rise
bui
ldin
gs. K
eep
win
do
ws
on
uppe
r flo
or c
lose
d / l
ocke
d
HM
53,5
4,56
In
stal
l win
dow
gua
rds
HM
T
o pr
even
t ope
nin
g m
ore
tha
n 8
cm
63
H
ome
secu
rity
syst
ems
HM
/AD
A
lert
s w
he
n do
ors
or w
indo
ws
are
ope
ned
56
In
stal
l ala
rms
on
dan
ger-
door
s an
d e
xits
A
D
Inte
rven
tion
for
care
r 49
,70
D
o no
t le
ave
doo
rs h
alf-
open
O
M
54
P
ut m
arks
/ st
icke
rs o
n gl
ass
slid
ing
door
s an
d e
xits
with
gla
ss w
ind
ow
s H
M/O
M
To
acco
unt f
or tu
nne
l vis
ion.
Inst
all s
afet
y-g
lass
or
fenc
es
in fr
ont o
f gla
ss
49,5
4,57
-59
W
indo
ws
oper
able
by
larg
e le
vers
H
M
F
ocus
gro
up
P
rovi
de
clea
r a
nd la
rge
doo
r h
and
les
HM
Le
ver-
typ
e ha
ndl
es fo
r do
ors
are
easi
er to
gri
p in
ste
ad o
f ro
und
hand
les
(art
hriti
s). A
lso
put t
he k
eyh
ole
ben
eat
h th
e ha
ndl
e; n
ot a
bove
40,4
9,54
,61,
65
H
ave
spar
e ite
ms
of th
ings
that
rep
eate
dly
disa
ppe
ar
TS
R
emot
e co
ntro
ls,
keys
, et
c. E
xtra
key
s in
cas
e th
e ca
rer
or p
erso
n w
ith d
eme
ntia
is lo
cked
out
side
. Pro
vid
e th
e pe
rso
n w
ith a
sub
stitu
te m
odel
11,4
9-51
,54,
63
R
epla
ce u
nsta
ble
or lo
w fu
rnitu
re b
y st
rong
, stu
rdy
furn
iture
O
M
Rem
ove
obje
cts
pers
on c
an
trip
ove
r. R
emov
e ch
airs
on
wh
eel
s 11
,21,
38,4
9,51
,54-
58
R
emov
e fu
rnitu
re w
ith s
harp
edg
es,
corn
ers
or p
rotr
udin
g pa
rts
OM
A
lso
othe
r sh
arp
feat
ures
in th
e d
we
lling
40
,51,
54,5
7,58
A
void
bre
akab
le g
lass
furn
iture
and
frag
ile
item
s O
M
Gla
ss ta
bles
, par
titio
ns o
f gla
ss, f
ragi
le it
ems,
vas
es,
stat
ues,
gla
ss d
oors
. Cov
er g
lass
sho
wca
ses.
Mea
sure
in
case
of a
gita
tion
54,5
7,58
A
void
exc
essi
ve n
umb
ers
of o
bjec
ts in
ro
oms
and
on c
ount
erto
ps
OM
57,6
6
P
ut la
mps
/ lu
min
aire
s hi
gh o
n ce
iling
O
M
54
A
void
furn
iture
with
mov
ing
part
s O
M
In o
rder
to a
void
fing
ers
get
ting
stuc
k 54
F
ixe
d sh
elv
es
OM
D
o no
t put
hea
vy it
ems
on
top
she
lf 54
P
lace
item
s of
inte
rest
in a
rea
s w
ithou
t tr
oubl
e re
achi
ng
OM
/TS
A
void
dam
age
by
knoc
king
ove
r ot
her
item
s. N
ot a
bove
e
ye h
eig
ht o
r lo
wer
tha
n 0.
7 m
49
,54,
55
S
tore
aw
ay
un
used
item
s O
M
Cre
ates
ext
ra s
pace
at h
ome.
A ti
dy
hom
e fa
cilit
ates
the
loca
lisat
ion
of p
ossi
ble
dan
gers
54
66
![Page 80: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/80.jpg)
S
tore
haz
ardo
us s
ubst
ance
s ou
t of r
each
, or
rem
ove
them
O
M
Incl
udin
g m
edi
catio
ns, k
itche
n to
ols,
mat
che
s, p
ow
er
tool
s, e
lect
ric g
adg
ets,
inse
ctic
ides
, gas
olin
e,
pain
t, so
lve
nts,
cle
anin
g su
pplie
s
21,3
8,49
,51,
56-
59
M
axim
ise
stor
age
for
safe
keep
ing
of
valu
able
item
s O
M
Ma
y ca
use
ang
ry b
eha
viou
r 38
,49,
51
P
lace
ma
ilbo
x ou
tsid
e
HM
/OM
In
ord
er fo
r va
luab
le m
ail n
ot to
get
lost
. Put
lock
on
mai
lbox
49
R
efra
in fr
om m
ovin
g fu
rnitu
re a
nd it
ems.
K
eep
in fi
xed
pla
ce. K
eep
con
sist
ent
OM
In
ord
er to
avo
id d
isor
ient
atio
n th
at m
ay
lead
to
falls
. Als
o im
port
ant
in lo
w v
isio
n
50,5
1,54
S
impl
ify a
nd a
ccen
tuat
e pa
thw
ays
H
M/O
M
Mak
e th
em a
s st
raig
ht a
nd
dire
ct a
s po
ssib
le
49,5
4
P
ut a
wa
y e
xte
nsio
n co
rds,
wir
es a
nd
elec
tric
al c
able
s in
pat
hw
ays
O
M
Sto
re b
enea
th f
urni
ture
or
fix th
em to
wal
ls o
r in
cab
le
plin
ths.
Do
not
put c
able
s be
low
car
pets
in o
rder
to a
void
da
ma
ge
11,4
7,50
,51,
54-
58,6
3
A
dd s
ocke
ts fo
r ex
cess
plu
gs
HM
54
A
void
ele
ctric
al c
ords
too
clos
e to
hea
t, w
ater
, or
oven
O
M
57
,58
R
emov
e co
rds
in d
isre
pair
O
M
57
,58
In
stal
l ap
plia
nces
/ de
vice
s th
at tu
rn o
ff au
tom
atic
ally
afte
r us
e A
D
49
R
emov
e cl
utte
r, o
bsta
cles
, eq
uipm
ent,
and
furn
iture
from
cor
ridor
s a
nd s
tairs
O
M
Als
o re
mov
e e
xces
s ite
ms
in o
ther
spa
ces.
Rem
aini
ng
equ
ipm
ent
sho
uld
be
mai
ntai
ned
on
one
sid
e o
f the
ha
llwa
y o
nly
to a
void
the
sens
e of
a ‘m
aze’
. S
tore
obj
ects
al
ong
bas
eboa
rds
or p
ath
wa
y
40,4
7,49
-51,
54-
59,6
3
A
dd s
tora
ge
spac
e ne
ar fr
ont d
oor
for
wa
lker
s, w
hee
lcha
irs
HM
Foc
us g
roup
C
orrid
ors
sho
uld
be w
ide
eno
ugh
for
two
peo
ple
to s
tan
d si
de b
y si
de
HM
W
hen
assi
stin
g th
e ot
her
49
C
onsi
der
len
gth
of c
orrid
ors
HM
T
he lo
nger
cor
rido
rs b
ecom
e, t
he m
ore
cave
rnou
s a
nd
conf
usin
g th
ese
corr
idor
s ar
e
40
R
emov
e lo
ose
and
wo
rn c
arp
ets.
Rem
ove
carp
ets
with
ho
les.
Rep
lace
bro
ken
tiles
or
stai
rs. R
emov
e a
rea
rugs
HM
/OM
C
arp
etin
g is
ha
rd to
cle
an in
cas
e of
inco
ntin
ence
/ le
akag
e. T
hick
car
pet i
s un
easy
for
wh
eelc
hair
s an
d w
alk
ers.
Se
lect
low
, un
iform
nap
(he
ight
and
thi
ckne
ss),
tig
ht w
eave
, sh
ag, c
arpe
ting
11,3
8,49
,50,
54,5
5,57
,58
In
door
par
titio
ns
at le
ast 1
.2 m
hig
h a
nd
0.3
m w
ide
H
M
Ma
y in
terf
ere
with
op
en c
har
acte
r 55
R
oom
div
ider
s: n
ot fu
ll he
ight
H
M/O
M
Ope
n pl
an b
asis
. Pos
sibl
e to
see
eve
ryth
ing
46
U
se r
emov
able
roo
m d
ivid
ers
O
M
Ma
y in
cre
ase
atte
ntio
n/pr
even
t dis
trac
tions
80
R
emov
e fu
rnitu
re th
at b
lock
s or
res
tric
ts
vie
w f
rom
fav
ourit
e ch
airs
O
M
Ibid
em. F
ear
of a
ban
donm
ent
49
A
void
sh
iny
(or
wa
xed)
flo
ors
HM
/OM
M
ay
look
like
wax
ed, a
nd
can
caus
e g
lare
49
,54
67
![Page 81: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/81.jpg)
A
pply
ligh
t col
our
s on
cei
lings
, w
alls
and
flo
ors
HM
C
olo
urs
with
con
side
rabl
e ar
e ea
sier
to s
ee th
an p
aste
l or
col
our
s of
sim
ilar
inte
nsity
54
,56,
81
S
tron
g co
ntra
st b
etw
een
wa
lls a
nd fl
oor
HM
D
istin
ctio
n be
twe
en
wal
l an
d flo
or
40
In
stal
l lig
ht s
witc
hes
at a
n a
ppro
pria
te
heig
ht
HM
55
In
stal
l dim
mer
s on
lig
htin
g
HM
54
P
rovi
de
suffi
cie
nt s
uppo
rt; g
rab
bars
, ra
iling
s H
M
App
ly in
con
tra
stin
g co
lour
s at
an
appr
opri
ate
hei
ght
11
,51,
53,5
4,57
,59
In
stal
l sec
ure
han
drai
ls o
r gr
ab
bars
in
stai
rway
H
M
Sta
ir el
evat
ors
ma
y b
e a
mor
e te
chno
log
ical
sol
utio
n.
Han
drai
ls m
ade
of a
wa
rm m
ater
ial a
re p
refe
rred
. On
both
sid
es
40,4
9,50
,57,
58,6
1,62
,82
P
ut g
ates
/ fe
nces
do
wn
and
upst
airs
H
M
Per
son
can
clim
b ov
er. S
ome
stu
dies
rec
omm
end
the
rem
oval
as
pers
ons
can
clim
b o
ver
them
an
d fa
ll 11
,21,
38,4
7,49
,51,
57-5
9,6
3
R
efra
in fr
om p
uttin
g pi
ctur
es a
nd
mem
orab
ilia
in s
tair
way
O
M
Dan
ger
of s
top
pin
g (d
istr
actio
n) a
nd fa
llin
g
49
In
stal
l col
oure
d, r
efle
ctiv
e, s
lip-r
esis
tant
st
rips
on s
tairs
or
wo
rk w
ith c
ont
rast
s H
M
49
,51,
54,5
7,58
,61
Ill
umin
ate
stai
rwa
ys a
t all
times
H
M
57
P
ut r
ound
ed c
orn
ers
to h
and
rails
that
go
into
the
wa
ll O
M
Mak
e su
re p
eopl
e d
o no
t get
stu
ck b
ehin
d a
raili
ng w
ith a
sl
eeve
whe
n g
oin
g do
wn
21
,49
In
stal
l sm
oke
and
fire
det
ecto
rs in
the
hom
e
AD
A
lso
carb
on m
ono
xide
det
ecto
rs a
vaila
ble
. Im
port
ant
wh
en
cook
ing
inde
pend
ent
ly o
r sm
okin
g. C
hec
k ba
tterie
s re
gula
rly.
Ala
rms
ma
y no
t be
und
erst
ood
38,5
0,51
,54,
56-
58,6
3
In
stal
l ha
ndhe
ld fi
re e
xtin
gui
sher
s A
D
49
,51,
54,6
3
F
irst a
id k
it A
D
50
,63
P
illb
oxe
s w
ith d
ay
indi
catio
n
AD
In
cas
e of
em
erg
ency
, hav
e te
leph
one
num
ber
of G
P
read
y 50
,53,
63
T
elem
edic
ine
to c
ontr
ol m
edi
cine
inta
ke
AD
C
amer
a, d
igita
l pill
bo
x F
ocus
gro
up
Con
fusi
on /
diso
rient
atio
n
Rem
ove
or lo
ck p
lug
sock
ets
HM
In
stal
l chi
ld-p
roof
plu
g co
vers
in o
utle
ts
49,5
0,54
O
utle
ts a
re g
roun
d fa
ult
inte
rrup
ted
(GF
I)
HM
G
FI o
utle
ts a
nd c
ircui
t bre
ake
rs h
elp
prot
ect f
rom
sho
cks.
H
ave
spar
e fu
ses
at h
ome,
as
we
ll as
a to
rch
ligh
t 49
,54,
63
Ill
umin
ate
stai
rwa
y at
all
time
s, a
nd
elim
inat
e sh
ado
ws
HM
58
R
emov
e pl
ugs
from
soc
kets
O
M
Opt
iona
l 38
,54
Red
uced
mo
bilit
y, c
oord
inat
ion
and
stre
ngt
h
Wid
en d
oorw
ays
to m
ake
roo
ms
easi
er to
en
ter
HM
58,6
0
P
erm
anen
t or
port
able
ram
ps
HM
61
U
se s
tabl
e ch
airs
wh
ich
are
eas
y to
get
ou
t of.
Cus
hion
-lifti
ng c
hai
r O
M/A
D
Put
the
chai
r n
ear
wh
ere
the
care
r of
ten
is, s
o th
e pe
rso
n ca
n w
atch
yo
u (c
ling
ing
beha
viou
r). P
ut u
p a
chai
r b
y th
e w
ind
ow
. Mec
han
ical
or
hyd
raul
ic
21,5
6
68
![Page 82: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/82.jpg)
Wan
der
ing
an
d p
acin
g
Dis
orie
ntat
ion,
con
fusi
on
Cam
ouf
lag
ing
/ hid
ing
exi
ts: a
ddin
g m
irror
s, p
ictu
res,
cur
tain
s, c
loth
pan
els,
or
pain
ting
door
s sa
me
colo
ur a
s w
all
OM
F
or d
oors
that
sho
uld
rem
ain
clo
sed
21
,38,
47,4
8,54
,57,
59,6
3
S
ecur
e d
oors
. Com
ple
x un
lock
ing
mec
hani
sms
on
door
s. In
stal
l add
ition
al
lock
s
OM
P
reve
ntiv
e m
eas
ure.
Pla
ced
in s
trat
egic
pla
ces.
Pla
ce
lock
s lo
w o
r hi
gh o
n do
or. B
owlb
y S
ifton
59: E
xtra
lock
s sh
ould
be
used
with
cau
tion;
be
sure
that
the
pers
on
and
othe
rs in
the
hou
se c
an
get o
ut in
the
eve
nt o
f an
emer
gen
cy
20,2
1,47
,51,
56,5
8,59
,63,
70
P
ut p
iece
of f
urni
ture
in fr
ont o
f th
e do
or
OM
47
R
emov
e do
ors
or k
eep
them
ope
n
HM
/OM
A
llow
s pe
rso
ns to
wa
lk fr
eely
49
D
o no
t le
ave
keys
on
door
s. S
tore
ke
ys
out o
f sig
ht
OM
54,5
8
P
lace
sto
p-si
gn
or “
Aut
horis
ed
Per
son
nel
Onl
y” o
n do
or le
adin
g to
out
side
O
M
58
A
ccen
tuat
e do
ors
of b
edro
om,
bath
room
, an
d ki
tch
en
OM
/TS
54
R
efra
in fr
om h
ang
ing
/ pla
cin
g co
ats,
bo
ots
and
wa
lkin
g st
ick
in s
igh
t O
M
May
invi
te p
eopl
e to
wa
nder
54
,57,
58
S
tatio
nary
bic
ycle
, tre
adm
ill, r
ocki
ng
chai
r A
D
Ma
y g
ive
the
sam
e se
nsat
ion
s as
pac
ing
/ w
and
erin
g:
sens
ory
fee
dbac
k fr
om jo
int a
nd m
uscl
e m
ovem
ents
. P
rovi
de
exe
rcis
e an
d st
imu
latio
n d
urin
g da
y.
11,3
8,57
,58
D
utch
/ ha
lf be
droo
m d
oors
H
M
Ma
y re
duce
pe
rson
’s d
ign
ity.
Giv
es p
eopl
e p
rivat
e sp
ace
at th
e sa
me
time
and
allo
w f
or v
isua
l acc
ess
21,4
9,69
,83
B
ells
, be
ad /
fly c
urta
ins,
or
alar
m s
yste
ms
conn
ecte
d to
doo
rs
OM
M
ay
scar
e pe
rson
, res
ultin
g in
gre
ater
co
nfu
sion
. Pla
ced
on a
ll e
xit d
oor
s 21
,54,
57,5
8
P
ut a
mus
ical
we
lcom
e m
at n
ear
the
fron
t do
or
AD
59
V
ideo
cam
era
surv
eilla
nce
AD
S
urve
illa
nce
cam
era
can
als
o be
use
d to
mo
nito
r w
hen
hi
ding
and
hoa
rdin
g be
com
e a
serio
us p
rob
lem
21
,49
(I
nfra
red)
mov
emen
t mon
itorin
g, fa
ll de
tect
ion
and
GP
S ta
ggin
g
AD
E
lect
ron
ic d
evic
es a
vaila
ble
to a
larm
in c
ase
s of
w
an
deri
ng, f
alls
, and
per
iods
of n
o m
ovem
ent
51
T
ag d
etec
tion
devi
ces
AD
21
P
rovi
de
safe
spa
ce in
doo
rs o
r in
the
gard
en fo
r pa
cing
H
M
Cre
ate
d so
tha
t th
ere
are
no d
ead-
ends
11
,21,
54,5
8
69
![Page 83: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/83.jpg)
Tab
le 1
0. E
nviro
nmen
tal i
nter
vent
ions
to a
ssis
t w
ith p
erce
ptio
n, o
rient
atio
n, a
nd m
em
ory.
C
rite
ria
for
use
A
ssoc
iate
d de
ficits
En
viro
nm
enta
l in
terv
enti
on
T
ype
of
inte
rven
tio
n
Co
mm
ents
R
efer
ence
s
Dif
ficu
lty
wit
h o
rien
tati
on
Con
fusi
on, d
isor
ient
atio
n
Col
our
ed
strip
es
on fl
oors
an
d w
alls
O
M
To
mar
k pa
ths
to im
port
ant r
oom
s/sp
aces
. Per
son
ma
y al
so fo
llow
the
se p
atte
rns
wh
en a
ppl
ied
on
carp
ets
21,5
4
A
void
: tw
o-d
imen
sion
al,
inte
rtw
inin
g pa
ttern
s or
larg
e, b
old
geo
met
ric p
atte
rns
on fl
oor;
des
igns
that
ma
y a
ppe
ar a
s b
ars;
co
mbi
natio
ns o
f ge
omet
ric p
atte
rns
that
m
ay s
eem
to
mov
e
OM
M
ay
be
inte
rpre
ted
as th
ree-
dim
ensi
onal
bar
riers
du
e to
pr
oble
ms
with
dep
th p
erce
ptio
n. V
ertic
al s
trip
es: j
ail b
ars.
M
ay
rein
forc
e de
lusi
ons
of b
ein
g in
carc
erat
ed
or h
eld
aga
inst
the
will
. M
inim
isin
g fe
elin
gs o
f uns
tead
ines
s a
nd
inst
abili
ty.
48,4
9,64
A
void
pat
tern
s on
the
wa
ll, w
allp
ape
rs,
carp
ets,
uph
olst
ery
that
ma
y ca
use
hallu
cina
tions
or
diso
rien
tatio
n
OM
C
hoos
e so
lid c
olou
rs
49,5
6,59
,66
A
void
doo
rste
ps
/ doo
r si
lls, a
nd c
olou
r ac
cent
s re
sem
blin
g (d
oor
) st
eps,
hol
es o
r pi
ts
HM
V
isua
l clif
fing
is th
e m
isin
terp
reta
tion
of c
ha
nges
in
colo
urs
as d
iffe
renc
es in
de
pth,
ele
vatio
n or
pla
nes
40,4
9,54
,57,
69
A
void
use
of b
orde
r tr
im fo
r ca
rpet
or
mul
tiple
bor
ders
as
a de
cora
tive
trim
O
M
40
A
void
use
of a
rro
ws
on th
e flo
or
OM
40
A
void
dar
k m
ats
OM
C
an b
e pe
rcei
ved
as a
hol
e
54
La
bel
doo
rs, d
raw
ers,
cab
inet
s, w
ith
pict
ures
and
/or
sign
s ill
ustr
atin
g th
eir
cont
ents
OM
/TS
W
ords
ma
y n
ot b
e re
cog
nise
d (
apha
sia)
. Use
pic
ture
la
bel
s 20
,49
In
stal
l pic
togr
am
s on
lig
ht s
witc
hes
OM
F
or in
stan
ce, o
f a
light
bul
b
Foc
us g
roup
La
bel
doo
rs w
ith e
xtra
larg
e le
tters
or
pict
ures
O
M
21
,46
N
ame
and
pho
to o
f per
son
on
roo
m /
fron
t do
or
OM
21,4
6
S
how
cas
e or
pho
to c
orne
r O
M
For
rem
inis
cin
g or
com
fort
40
,46
R
ealit
y or
ient
atio
n b
oard
O
M
Rec
ords
dat
e, w
eat
her
an
d tim
e. S
igns
an
d de
cora
tions
re
late
d to
sea
son
21
La
rge
prin
t cal
end
ar
OM
T
o he
lp o
rient
and
rec
ord
app
oint
me
nts
11,2
1,51
,53
La
rge
anal
ogu
e cl
ock
AD
T
o he
lp o
rient
. Ins
tead
of d
igita
l ver
sion
. Rea
din
g ha
nds
ma
y b
e di
fficu
lt. T
ime
ma
y no
lon
ger
be u
nde
rsto
od
11,2
1,38
,49,
53
Mem
ory
impa
irm
ent
, di
sori
enta
tion
S
impl
ify th
e e
nvi
ronm
ent
T
S
21
,38
K
eep
fam
iliar
obj
ects
in th
e sa
me
plac
e
TS
21
70
![Page 84: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/84.jpg)
Nee
d f
or
assi
stan
ce w
ith
p
erce
pti
on
Con
fusi
on d
ue t
o re
duce
d pe
rce
ptua
l ski
lls
Use
con
tras
t: S
epar
ate
fore
gro
und
from
ba
ckgr
oun
d /
wal
ls fr
om fl
oors
. D
ark
door
kn
obs
on
light
doo
rs. D
istin
guis
h st
eps
from
floo
rs o
r fu
rnitu
re
HM
21
C
arp
et fl
oors
to r
educ
e gl
are
H
M
21
R
emov
e or
cov
er m
irror
s, s
hiny
sur
face
s,
and
trad
itio
nal a
rt
OM
F
ear
ma
y go
aw
ay
afte
r a
whi
le. P
erce
ptu
al d
efic
its
cont
ribut
e to
con
fusi
on. R
efle
ctio
ns c
an b
e se
en in
w
ind
ow
s (p
ull c
urta
ins)
, tab
les
(use
a s
carf
), a
nd h
ighl
y po
lishe
d fu
rnitu
re
21,4
9,50
,53,
63,6
6
C
hild
-pro
of lo
ck o
n T
V. A
dult-
lock
O
M/A
D
Tel
evis
ion
is a
com
mon
so
urce
of m
isin
terp
reta
tions
. V
iole
nt o
r se
xual
ly-o
rie
nted
pro
gram
mes
ma
y ca
use
fear
or
aro
usal
. Ref
lect
ions
from
scr
een
ma
y ca
use
fear
49,5
4
Nee
d f
or
assi
stan
ce w
ith
m
emo
ry
Impa
ired
rece
nt
me
mor
y M
ake
lists
of d
aily
act
iviti
es /
note
s T
S
Not
effe
ctiv
e fo
r m
oder
ate
or s
ever
e d
eme
ntia
21
P
unch
ing
bags
, pou
ndin
g do
ugh
O
M
To
vent
em
otio
ns
38
H
eads
ets
allo
w li
sten
to
mus
ic w
hile
the
ot
her
pers
on li
sten
s to
tele
visi
on
OM
C
ordl
ess
head
pho
nes
hel
p p
eop
le w
ho
othe
rwis
e ca
nnot
he
ar th
e te
levi
sion
56
A
void
hea
dset
s w
ith c
abl
es
OM
W
hen
pers
on s
tand
s up
, the
hea
dset
is c
onn
ecte
d an
d m
ay
caus
e d
am
age.
Pan
ic fr
om s
oun
ds
54
H
ave
pic
ture
s of
vis
itor
read
y fo
r re
cog
nitio
n
OM
54
D
ispl
ay
fam
ily p
ictu
res
and
mem
ento
s.
Pro
vid
e a
hand
held
ph
oto
alb
um w
ith
lab
els
OM
T
o be
use
d fo
r re
min
isce
nce
11
,59
A
nsw
erin
g m
ach
ines
an
d nu
mbe
r id
entif
icat
ion
AD
T
o ch
eck
who
mad
e ca
lls w
hen
abs
ent
56
A
utom
atic
dia
l pho
ne
AD
U
se te
leph
one
with
pre
-pro
gra
mm
ed r
apid
dia
l num
bers
an
d tr
ain
pers
on
to u
se51
,58
D
ial p
hone
inst
ead
of to
uch-
tone
mod
el
AD
38
T
elep
hon
e as
mea
ns fo
r co
ntac
t A
D
Put
num
bers
, pen
an
d pa
per
read
y. V
olum
e co
ntro
l. E
xpre
ss d
ials
with
pic
ture
s. A
ccou
nt fo
r po
or s
ight
, ap
raxi
a, tr
emor
s, a
nd m
uscl
e w
eak
ness
54
71
![Page 85: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/85.jpg)
5. Discussion The discussion section deals with a number of issues that are related to design goals and environmental interventions, and their impact in daily practice. First, the design principles and goals are discussed in terms of how they came about and how they can be applied. Thereafter, the evidence and need for more research concerning environmental interventions, as well as the process of implementing environmental interventions are discussed. 5.1. Building principles and goals In practice, there are many implicit and explicit principles and goals for the design of housing for people with dementia that do not provide actual instructions as how to create facilitators in the home environment. Cohen and Day84,pp.8-9 state that guidelines for the planning and design of environments for people with dementia “are best viewed not as inflexible directives, but as an attempt to expand and stimulate thinking on the relationships between dementia and design”. Guidelines, in their view, “are hypotheses amenable to, and requiring, implementation and validation”. Weisman85,p.168 states that the guidelines by Cohen and Weisman35 “might best be viewed as broad hypotheses or notions of best practice […] regarding what ought to make a difference in environments for people with dementia, at the same time, these guidelines were never viewed as universally applicable, in the way that traditional models of positivist science were directed toward the formulation of ultimately generalizable principles. The guidelines were meant to be precisely that – broad principles the application of which must be tempered by circumstances specific to individual dementia-care settings.” Castell86 expands the discussion on building guidelines towards the provision of equitable building access for the (intellectually) disabled, which concerns national legislation and building standards. Judd87 discussed safety regulations for SCUs, for instance, fire safety and labelling taps (yellow for warm water of thermostatic taps, instead of red). In his view, regulations should not naively assume full cognition, as they often do. More focus should be on the goals one wants to achieve, instead of just the enforcement of standards. Current building regulations for homes are also based on non-cognitively impaired residents. Zeisel88 mentions that in the case of SCUs he visited, none exhibited a holistic understanding of how to integrate the separate elements of design guidelines to achieve an increased quality of life for the residents. Even willing designers did not seem to understand the full extent of the guidelines to design a setting that provides residents with cues to help understand where they live. Guidelines alone are thus not yet a guarantee that all goals are achieved. It is of utmost importance to form interdisciplinary design teams that focus on creating a holistic quality of life for all users of an SCU88. In analogy to the conclusions by Zeisel88, the same seems to be true for the own home environment. Not all goals in designing and modifying dwellings seem to be achieved in practice, particularly since most modifications still target mobility problems. Also, the roles and needs of informal carers deserve more attention. The Model of Integrated Building Design is suggested as a tool to gain more insight in the building-related needs of people with dementia and their carers, as well as the need on the organisational level22,23. Warner49 proposes identifying zones in the own home by non-demented spouses or carers, namely (i) danger zones, (ii) respite zones, and (iii) safe zones. Especially the respite zones or quiet rooms with comfortable furniture, are important to carers, since these form sections off-limits to the person with dementia that is reserved for the carer, and where he or she can ‘relax’ or get privacy for a while. This in turn should delay the demand for institutional care11,49,57,89. In order to protect the privacy of other family members living at home, locks may be placed on private doors38. Olsen et al.89 interviewed 90 carers on home modifications. The carers indicated that they felt assisted by one-level living, generous space, simple layout, open floor plans, and safe bathrooms/kitchens and outdoor access. In a compact home, everything one needs is nearby, and visibility is optimal to allow for monitoring in case of shadowing or clinging to a carer. This behaviour may be an attempt to compensate for the fear of being powerless or even being left
72
![Page 86: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/86.jpg)
alone. Also, one should think about creating an additional room for a care professional49,89. Similarly, a time-out room may be needed for the person with dementia in case of catastrophic reactions, in which the person can calm down21. There are various scales, which can be used to determine the quality of the living environment. These include the therapeutic environment screening scale (TESS) and the nursing unit rating scale (NURS) for institutional settings (Sloane and Mathew90, Grant91, Sloane et al.82), as well as the Ambiance Scale (AS)92, which can be used to assess the capacity of long-term care environments for generating affective and behavioural responses in people with dementia. Other scales include the Safety Assessment Scale (SAS) by de Courval et al.93 for use by community healthcare providers to evaluate and lower the risk of accidents at home, and the Environmental Cleanliness and Clutter Scale (ECCS) developed by Halliday and Snowdon94 in order to rate the degree and various aspects of uncleanliness in rooms and areas with varying functions, for instance, toilet, kitchen, and bedroom, in cases of severe domestic squalor. The Sheffield Care Environment Assessment Matrix (SCEAM) is a tool, which is used to assess the physical environment and the architectural elements. It is composed of 11 user-related domains95. Apart from these scales, there are no widely-available and all-embracing screening scales for the homes of community-dwelling people with dementia, which could be helpful to the further development of buildings codes. 5.2. Evidence-based practice in implementing environmental interventions As Mace and Rabins56 mention correctly, it is important to remember that no single design suggestion will work in all situations. Different people need different approaches and solutions that work as facilitators, which in turn are influenced by the client system. One should look for solutions that make sense to the carer and are low in cost56. Personal abilities of the person with dementia play a role as well21. Solutions that are facilitators to one individual may turn out to be a barrier to another. Results show that there is a variety between design goals and that even a number of discrepancies exist between these goals. In practice, these differences may cause confusion or hinder the proper implementation of goals into the actual design. Also, Day and Cohen96 stress the importance of culture in good design, for instance, to accommodate for culturally-based activities. According to Olsen et al.97 a successful modification strategy follows a three-stage movement-access continuum. Approaching home modifications along this continuum encourages independence and movement when appropriate, and at the same time provides safety and control. Olsen et al.97,p.1 state that “[w]ith a sensitive and ongoing modification strategy, the home environment can become an asset rather than a liability for caregiving”. Architects often think that, apart from being responsible for the esthetics in the environment, they can influence human behaviour through their designs, despite findings that design features do not prescribe patterns of social interaction or social binding97. Architectural designs are complementary to human activities, and not the cause of them. The most important social function of a design is to enable people to do whatever they need or want to do98. It is questionable if proper architectural design and additional indoor design can help people with dementia, even though these people rely very much on their senses. Or as Warner49,pp.2-3 states it: “We must be realistic. Alzheimer’s is a disease of the mind, not of the home. The environment is not a treatment, and it offers no cure. But many problems related to the disease can be lessened for the person with [Alzheimer’s disease] and especially for the caregiver by making changes in the home environment”. There is increasing evidence that environmental interventions are not just desired by people with dementia and their partners, but also that these interventions can sort some effect. The effects of such interventions are greatly disputed, however, and still subject of numerous studies. According to Weisman85,p.169, the review by Day et al.48 “provides substantial support for many of the broad recommendations presented in the various design-for-dementia guidebooks.” Weisman85,p.171 also states that there is “a growing number of model facilities, with care providers increasingly willing to develop environments which purposefully implement and evaluate innovative approaches to dementia care.” Previous work by van Hoof and Kort13*** on the design of a dementia dwelling can also be seen in that light. Weisman85,pp.171-172 continues by stating that “[t]he findings and lessons to be derived from the body of work on dementia care
*** Chapter 10 of this dissertation.
73
![Page 87: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/87.jpg)
environments seem to be substantial. They should not, however, be limited to those derived solely from the empirical research on environments for people with cognitive impairments. It’s equally important that we keep in mind the innovative ways in which these model facilities were planned, programmed, and designed; the systemic way in which they were conceptualized; and the innovative ways in which they have been publicized.” Gitlin et al.99 have systematically evaluated a range of environmental strategies. About 90% of the 63 studies reviewed reported positive outcomes, although most studies were methodologically flawed, involved small samples, and were conducted in nursing home settings. Tilly and Reed100 reviewed 28 articles (1994-August 2006 time span) and came to the conclusion that there are successful interventions for assisted-living facilities and nursing homes to reduce falls and related injuries, including carpeted floors, and home-like environments. Most of the environmental interventions described in this paper have not been systematically studied. Nevertheless, there are a number of studies which are relevant and discussed in the following paragraphs. These studies deal with falls in relation to carpet design, signage and open architecture in relation to wayfinding and distractibility, the modification of doors in order to manage behaviour including wandering, and closet modifications to support dressing. 5.2.1. Falls and carpet design The need for fall prevention measures in older people with dementia is paramount. Carpets are among the materials used in environmental interventions to counter the consequences of falls. Perritt et al.101 investigated the impact of carpet design and pattern on walking time and stability of 107 persons with Alzheimer’s disease selected from day care and retirement facilities. Significant differences were found for walk time due to texture and pattern, and in number of incidents due to the carpet’s pattern. Slower walk times were associated with the pile texture. Patterns having the smallest motifs and lowest contrast were walked best. In short, flooring decisions may play an influential role in user safety, the use of large, bold patterns may be not appropriate for application in homes, and may even reinforce dependency and immobilise. More evidence, however, is needed on shades and contrasts on floors in relation to walking. 5.2.2. Signage, wayfinding and distraction When considering wayfinding signage is a logical starting point. Signs, however, play a minor role in orientation within a space. The overall layout of the plan should be the first element to consider102. Open plan layouts are advised for numerous reasons, including clinging behaviour. Marquardt and Schmieg43 studied the wayfinding abilities of nursing home residents in relation to the physical environment. In total, five wayfinding tasks were tested (going to the live-in kitchen, the private bedroom, the restroom, garden or balcony, and the common room). Results confirmed that people with advancing dementia were increasingly dependent on a compensating environment. The significant factors include a small number of residents per living area, the straight layout of the circulation system without any changes in direction, and the provision of only one living/dining room. Related to open plan architecture is how dementia and sensory sensitivity to environmental stimuli influence distractibility. For the least impaired barriers such as room dividers appear to decrease distractibility and may support attention span and increase concentration80. Portable screens may help support both the person with dementia and the carer wherever there is a high level of activity by allowing people to carry out activities. The barrier shields them from intrusive stimuli. Once a task is completed, the screen could once again be a part of the larger family setting80. Gross et al.103 studied the effects of environmental signage in dementia care facilities on facilitating adaptive behaviour of ten females with moderate to severe dementia, including room finding, in three experiments. Many of the participants were able to identify
written names and photographs of themselves, and names and photographic labels helped identify belongings. Much attention is given to labeling restrooms/toilets. Wilkinson et al.45 studied toilet signs among 28 persons with dementia. Symbols representing men and women were most suitable for persons with normal cognition and mild dementia. Pictures of a toilet bowl worked best for persons with moderate dementia.
74
![Page 88: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/88.jpg)
5.2.3. Modifying doors to manage behaviour In a review (n=39) on the effects of subjective exit modifications to prevent wandering, Price et al.104 concluded that studies on this matter were unsatisfactory and vulnerable to bias. There was not sufficient evidence that patterns on floors or doors, mirrors, camouflaging doors, etc, were effective in reducing wandering behaviour. The study also states that subjective barriers may cause fear and anxiety in some individuals with dementia. Unfortunately, no studies were based in the own home of subjects. When locking people at home, one can state that people are bereaved from their freedom, which goes together with ethical dilemmas. On the other hand, the risks of accidents happening out on the street are surely taken away. In many psychogeriatric nursing homes and SCUs the exit doors are secured and locked to ‘insure’ residents’ safety105. Many residents feel a sense of confinement, which is carried over into other observable behaviours, including wandering or pacing from one exit door to another. Namazi and DiNatale Johnson105 studied behaviour when doors of an institutional setting were left open (n=22). The nonverbal behaviours displayed by residents after they found that the exit doors were open are particularly worth mentioning. For the ones most eager to leave the unit, the experience usually ended when the resident was assured that the door was open and it was possible to depart. “Several residents held the door ajar with one hand, stepped outside, looked around, and then came back inside.” The element of choice appeared to decrease negative exit door behaviours105. It is important to realise that a similar conflict can take place when people are locking the door of the own home to cope with wandering behaviour, and that attention should be paid to a sense of autonomy at all times. 5.2.4. Closet modifications to support dressing Namazi and DiNatale Johnson67 performed a study on closet simplification modification (n=8), by putting a sequential arrangement of clothing in the modified side of a closet. The study sample was too small to be conclusive, although results showed that a modified closet may be helpful for some who are in the middle stages of dementia and are still able to make some decisions. The simplification separated the selection and sequencing of appropriate clothing (at night) from the decision making required with the physical act of dressing. 5.2.6. The need for more research on evidence There are many environmental interventions to facilitate ageing-in-place for people with dementia. Such interventions provide a solution to (perceived) barriers, and alleviate care given by relatives. The private home, where most spend their lives in the early and moderate stages of dementia, is a largely ignored territory (ICF domain e155) in both research and policies. If we look at the aforementioned studies, it is clear that most studies have been carried out in institutional settings (ICF domain e150). It is unsure how many of the design guidelines are applicable to the home environment, and to what extent, given differences in cognitive status of the residents and in the architecture of the homes as a whole. More research is needed on the effects of modifications within the own home environment. Also, the small number of subjects in most of the studies should be larger when repeating these experiments. One should test the most promising interventions, known from institutional settings, among community-dwelling older adults with dementia, although research in this field is difficult. Calkins106 is somewhat cautious about the potential successfulness of the environmentally deterministic approach, in either research or design. She states that the approach basically assumes that a finite, relatively small number of variables can account for a significant proportion of the variance. Yet the number of variables, and the relationship between them, are very complicated. Calkins is supported by Lawton107, who concluded that there are far too many possible design variations to hope that any great proportion of them might ever be tested experimentally. Also, Lawton states that the interface of person and environment in real situations may be too complex to capture in a linear experimentally controlled test107. 5.3. Preconditions for the implementation of environmental interventions The actual implementation of the environmental interventions in practice is a complex matter involving numerous stakeholders and their needs. There seem to be differences in the ease at which strategies for supporting activities and functions are implemented. Within the Model of Integrated Building Design22,23, the integrated design process, i.e., the implementation of
75
![Page 89: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/89.jpg)
environmental interventions, should fulfill the building-related needs of all relevant stakeholders on the individual and organisational levels. Following from the model, the preconditions for the implementation of environmental interventions are influenced by the dwelling people live in, the urgency to have interventions carried out, the role people with dementia and the stage of their dementia, the needs of informal carers, the capabilities of formal carers and occupational therapists in particular, as well as financial aspects. 5.3.1. Challenges concerning the existing housing stock Charness and Holley108 already made notice of challenges that lie in updating existing housing, since retrofitting is more expensive than designing properly in the first place. Readily adapted dwellings are scarce and often designed to support persons with impaired mobility. Environmental interventions are can be considered more easily during the design phase of a building than during retrofitting. About two thirds of buildings have architectural constraints, and not all of them can be compensated by modifications or environmental interventions. Going through numerous official procedures related to retrofitting can be a stressful event for both the person with dementia and the informal carer. Fortunately, most environmental interventions are simple when known to the person carrying out the intervention, such as the majority of object modifications, and do not require getting permits. 5.3.2. Individual level: the need for environmental interventions Some researchers studied the implementation of modifications and pointed out to the need for such environmental interventions. Silverstein et al.51 studied the implementation of recommended adaptations (n=501) in practice. Target problems addressed by adaptations were cognitive and behavioural impairments (45.3%; falling, wandering), safety (30.9%; prevention of poisonous ingestion or chocking/fire prevention), carer ease (19.8%; minimisation of rummaging, increasing coping strategies of carers), and impairments in activities of daily living (3.4%; decreasing incontinence, support for decreased fine motor coordination). On average, 25 recommendations were made per household, with a range from 1 tot 53. Lach et al.63 conducted a telephone study among 35 carers. About 71% of these carers indicated that people with dementia engaged in unsafe behaviour. Wandering was reported by 37%. About 68% of the carers took precautions to help avoid accidents, including modifications. A history of unsafe behaviour or accidents was significantly associated with the use of precautions. Calkins and Namazi47 carried out a field study of interventions (n=59) aimed at managing wandering and incontinence, aimed at increasing safety and independence, and aimed at the reduction of disorder and confusion at home. In 69% of cases, there were modifications for wandering behaviour, of which 73% worked well. There were fewer modifications for incontinence, although in 68% of cases incontinence was indicated to be a problem. About 63% of cases had modifications to the bathroom, of which 91% were reported to work well. A somewhat lower 56% of cases made modifications to the kitchen for reasons of safety and independence. About 76% of these interventions worked well. Messecar et al.109 interviewed twenty-four carers of community-dwelling older adults. Of these older adults, 67% dealt with cognitive impairments. Forty-four modification strategies were identified and categorised into one of seven home environmental modification purposes: organising the home, supplementing the older person’s function, structuring the older person’s day, protecting the older person, working around limitations or deficits in the home environment, enriching the home environment, and transitioning to a new home setting. The majority of identified strategies are environmental interventions described in this study, which indicates that carers already implement a multitude of interventions in practice despite the limited amounts of information and guidance. 5.3.3. Individual level: the role of people with dementia The role of individuals with dementia in the implementation of environmental interventions is multifaceted and depends largely on his/her abilities to make decisions relating to choice of interventions and the implementation thereof, as well as the acceptance of the environmental interventions. It is of the utmost importance that the actual people with dementia are involved, as environmental interventions take place in his/her dwelling and he/she needs to live with them. Particularly in the early stages of dementia, when environmental interventions may have a maximum effect, the same measures may be confronting and perceived to be
76
![Page 90: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/90.jpg)
stigmatising. Modifications carried out in the early stages of dementia may support performance, whereas in moderate dementia, the disablement process continues and more assistance is required from carers20. Additional modifications may be needed with progressive memory loss, and require a periodic re-evaluation57. A person with dementia can decline without carers realising the increased risks56. It is important that people with dementia are encouraged to participate in familiar tasks in order to make them feel useful and purposeful. Abstract or unrelated tasks that require a series of sequential decisions can be too challenging, which stresses the need for simplification of activities and items31. Moreover, the implementation of modifications is influenced by their costs and allowances people can receive, and appearance of the home. People with dementia often receive assistance from spouses and other relatives, although a large portion of these people live alone in the community. Some of these independently living persons are managing well because of their independent spirit, coping skills, and acceptance of assistance from social support networks. It is this group that may know their way towards obtaining the environmental interventions needed for daily support. Others face the difficulties of remaining their independence, and risk imminent institutionalisation110. In practice, both care recipients and carers may have difficulties in getting the right interventions implemented in their homes. Also, some of the work that needs to be carried out may require workers to be in the home for some time. Getting work done as early as possible allows for better management of less stress49. When big modifications are being made, one can later modify gradually49.
Target problemCognitive or behavioural
impairmentSafety
Ease on carerADL
Perception of carerSusceptibility to target problem
Seriousness of the potential consequences of the target problem
Expenses of adaptationNeed for outside help
Inconvenience/difficulty to useNeed for change in household appearance
UnsightlinessBurden on carer
Frequence and reaction to problem behaviours
Projected likelihood of
implementation
Actual implementation by:
Family carerProfessional carerMunicipal worker
Technician
Building (services) engineer
Professional perceptions regarding barrier to compliance
Expense of adaptationNeed for outside help
Need for change in care behaviourNeed for change in household appearance
Characteristics of person with dementiaLevel of dementia
Impairments in ADLImminence of institutionalisation
Figure 2. A schematic representation of the road towards implementing environmental interventions. The actual implementation of an intervention can be the responsibility of many, and may vary per country. Taken and adapted from Silverstein et al.51. 5.3.4. Individual level: the role of informal carers Informal carers play a crucial role in providing care to people with dementia, also because of the general shift to community-based care. If individuals with dementia can no longer make decisions regarding environmental interventions independently (even though some form of consultation is likely when a partner is present), informal carers are the ones who make the decisions and take action. At the same time, carers have specific needs of their own10. Informal carers emphasise that their greatest needs were the needs for more trained helpers, more education, support programs, and in particular more respite care38. Environmental interventions constitute only a fraction of what is needed for people with dementia to remain independent38. Spouses should receive support from the full array of options including domestic care and counselling. According to Silverstein et al.51, the role of carers should not be underestimated in the process of implementing home modifications (Figure 2). Many people with dementia are living in the community and do not get the appropriate environmental interventions needed to age-in-place, as knowledge is practically not available
77
![Page 91: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/91.jpg)
to informal carers5. Too often, informal carers are unfamiliar with specific modifications that can be made, and how these modifications are paid for and by whom they are installed at home. There are still many efforts needed to fully emancipate and empower families that deal with dementia. Fortunately, many carers do implement a range of environmental interventions, although such interventions seem to be underutilised by informal carers20. 5.3.5. Organisational level: the role of formal carers and occupational therapists Particularly care professionals will witness a change in professional tasks: home care workers will increasingly help people with environmental interventions and show people the way to other professionals to have the more severe modifications carried out. Carers increasingly find themselves in the role of consultant, in which they should be able to advice on environmental interventions, and get informed about the domains of (assistive) technology, construction and interior design. Gitlin et al.111 determined the short-term effects of an environmental intervention on self-efficacy and upset in carers and daily function of people with dementia in a randomised controlled study involving 171 families. The intervention involved a series of sessions from an occupational therapist. Carers of the intervention group reported significantly fewer declines in instrumental activities of daily living of the individuals with dementia, and fewer declines in self-care and fewer behavioural problems three months after the intervention. Moreover, spouses of the intervention group reported reduced upset. A single blind randomised
controlled trial by Graff et al.112 shows that occupational therapy for community dwelling older adults with dementia can improve the quality of life for both the person with dementia as their informal carers. Also, there is a decreased demand for formal care and a delay of the moment of institutionalisation. Table 11. Cognitive, functional and behavioural changes as associated with the progression of Alzheimer’s disease114. Stage (MMSE)
Impairment Cognition Function Behaviour
Early (21-20)
Recall/learning Word finding Problem solving Judgment Calculation
Forgets details of conversation, reading, complex hobbies, work, driving, handling money/shopping, taking medication Needs reminders, notes
Apathy Withdrawal Anxiety Irritability Depression
Mid (10-20)
Recent memory (remote memory unaffected) Language (names, paraphasias) Comprehension Construction Insight Orientation Visuospatial ability
Needs reminders for basic activities of daily living Complete loss of instrumental activities of daily living Gets lost Misplaces things Cannot be left alone Social graces retained
Delusions Hallucinations Agitation Wandering Insomnia Loss of insight (Social skills unaffected)
Late (< 10)
Very limited language skills Attention Apraxia
Loss of basic activities of daily living: dressing, grooming, bathing, eating with utensils, walking, continence
Agitation (verbal or physical) Outbursts Insomnia
Terminal Mute of incomprehensible
Bed-ridden Total loss of ambulation
May scream or make noise
The methods used by occupational therapists are directly supplementary to building-related environmental interventions, and were found to be very cost-effective (€1183-1239; £848-888; $1738-1820 per three months111). Galasko et al.113 and Galasko114 have come up with an
78
![Page 92: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/92.jpg)
overview of loss of optimal (independent) performance of various (instrumental) activities of daily living in relation to a person’s MMSE score (Table 11). The loss of function is slow, but at the same time predictable. This allows occupational therapists and professionals responsible for modifying the home to cautiously plan ahead. 5.3.6. Organisational level: costs and allowances The implementation of modifications is influenced by their costs and allowances people can receive, appearance of the home, and of course characteristics of the person with dementia. Throughout the European Union, there are large differences between the how environmental interventions are financed, which depends on the country’s care regime and care and housing policies5. The OECD report on dementia10,p.20 states that “[d]ementia is a relatively new area of policy focus compared to many other of the diseases and conditions which impose a large burden on society. Few OECD countries have specific policies for the condition, [which are] frequently encompassed in wider policies and statements. In addition, discussions of policy issues are relatively rare in the research literature”. The omission of dementia from policies may have serious consequences to the provision of adequate support and environmental interventions in practice. The adage for modifications within the current system of funding, considering the steady decline in functioning, would be considering the person’s present level of impairment when doing the first round of adaptations, while at the same time one should plan ahead for the gradually increasing impairment. The dwelling should be adapted to the fullest extent in order to keep people at home for as long as possible and/or as long as desired. Also, there are differences throughout the European Union in the percentages of houses which are privately owned or rented from a social housing cooperation. A home’s ownership influences how larger home modifications are carried out and paid for. 6. Conclusions There are numerous environmental interventions such as home modifications, assistive devices, object modifications and task simplifications that serve as facilitators for people with dementia in their desire to remain living in the community, and which help support both informal and formal carers. Many of these interventions find their origin in design goals and guidelines for dementia, and conventional home modification practice. Despite the limited scientific evidence of the efficacy of many of these facilitators, many hold a promise for the people with dementia and their carers that cannot be dismissed, as environmental interventions are much needed in the years to come. Many of these measures are already implemented in practice to solve perceived barriers identified within the home environment by carers. Governments and patient/health care organisations have the important task to supply information regarding environmental interventions to individuals with dementia and their informal carers. This information should make the target groups aware of the existence of such interventions and how to implement and benefit from these interventions in the own home environment. Future research, which should be carried out with larger numbers of subjects, should particularly focus on evidence-based solutions for memory support, orientation, and personal care and dressing. Developments in the field of safety and security, and outdoor orientation currently receive most attention from the industry. References 1. Krothe JS. Giving voice to elderly people: Community-based long-term care. Public Health
Nursing 1997;14(4):217-226 2. Gitlin LN (2003) Next steps in home modification and assistive technology research. In:
Charness N, Schaie KW, editors. Impact of technology on successful aging. Edited proceedings of a conference held at Pennsylvania State University, October 8-9, 2001. Springer Publishing Company, Inc., New York, NY, USA. pp 188-202
3. Duijnstee MSH (1992) De belasting van familieleden van dementerenden. Dissertation. Katholieke Universiteit Nijmegen, Nijmegen, The Netherlands [in Dutch]
4. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca M and for Alzheimer’s Disease International. Global prevalence of dementia: A Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
79
![Page 93: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/93.jpg)
5. van Hoof J, Kort HSM, van Waarde H. Housing and care for older adults with dementia. A European perspective. Journal of Housing and the Built Environment 2009;24(3):396-390
6. Rabins PV. The caregiver’s role in Alzheimer’s disease. Dementia and Geriatric Cognitive Disorders 1998;9(Supplement 3):25-28
7. Valla P, Harrington T. Designing for older people with cognitive and affective disorders. Archives of Gerontology and Geriatrics 1998;26(Supplement 1):515-518
8. Health Council of The Netherlands (2002). Dementia. Publication no. 2002/04. Health Council of The Netherlands, The Hague, The Netherlands [in Dutch]
9. Wimo A, Winblad B, Jönsson L. An estimate of the total worldwide societal costs of dementia in 2005. Alzheimer’s and Dementia 2007;3(2):81-91
10. Moise P, Schwarzinger M, Um M-Y, the Dementia Experts’ Group (2004) OECD health working papers no. 13. Dementia care in 9 OECD countries: A comparative analysis. OECD, Paris, France
11. Pynoos J, Cohen E, Lucas C. Environmental coping strategies for Alzheimer’s caregivers. The American Journal of Alzheimer’s Care and Related Disorders & Research 1989;4(6):4-8
12. Alzheimer Europe (2006) Who cares? The state of dementia care in Europe. Alzheimer Europe, Luxembourg City, Luxemburg
13. van Hoof J., Kort HSM. Supportive living environments: A first concept of a dwelling designed for older adults with dementia. Dementia 2009;8(2):293-316
14. Desai AK, Grossberg GT. Recognition and management of behavioral disturbances in dementia. Primary Care Companion to the Journal of Clinical Psychiatry 2001;3(3):93-109
15. Tilly J, Reed P. Literature review. Intervention research on caring for people with dementia in assisted living and nursing homes. Alzheimer’s Care Today 2008;9(1):24-32
16. Marshall M (1998) Therapeutic buildings for people with dementia. In: Judd S, Marshall M, Phippen P, editors. Design for dementia. London, UK: Journal of Dementia Care. pp 11-14
17. WHO (2001) International classification of functioning, disability and health. Resolution WHA54.21 of the fifty-fourth World Health Assembly, ninth plenary meeting, agenda item 13.9, 22 May 2001, A54/VR/9. World Health Organization, Geneva, Switzerland
18. Schiff MR. Designing environments for individuals with Alzheimer’s disease: Some general principles. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):4-8
19. Lawton MP. The elderly in context: Perspectives from environmental psychology and gerontology. Environment and Behavior 1985;17(4):501-519
20. Gitlin LN, Corcoran M. Managing dementia at home: The role of home environmental modifications. Topics in Geriatric Rehabilitation 1996;12(2):28-39
21. Ministry of Community and Social Services (1990) Dementia and activities of daily living. A report on technologies and environmental design that can assist people with Alzheimer disease and related dementias. Ministry of Community and Social Services, Toronto, ON, Canada
22. van Hoof J, Kort HSM, Hensen JLM, Duijnstee MSH, Rutten PGS. Thermal comfort and integrated building design for older people with dementia. Building and Environment 2010;45(2):358-370
23. van Hoof J, Kort HSM, Duijnstee MSH, Rutten PGS, Hensen JLM. The indoor environment and the integrated building design of homes for older people with dementia. Building and Environment 2010;45(5):1244-1261
24. Diaz Moore K, Verhoef R. Special Care Units as places for social interaction: Evaluating an SCU’s social affordance. American Journal of Alzheimer’s Disease and Other Dementias 1999;14(4):217-229
25. van Hoof J, Kort HSM, Markopoulos P, Soede M. Ambient intelligence, ethics and privacy. Gerontechnology 2007;6(3):155-163
26. Lauriks S, Reinersmann A, van der Roest HG, Meiland FJM, Davies RJ, Moelaert F, Mulvenna MD, Nugent CD, Dröes RM. Review of ICT-based services for identified unmet needs in people with dementia. Ageing Research Reviews 2007;6(3):223-246
27. van Rijn H, van Hoof J, Stappers PJ. Designing leisure products for people with dementia: Developing ‘the Chitchatters’ game. American Journal of Alzheimer’s Disease and Other Dementias 2010;25(1):74-89
28. Mitchell L, Burton E, Raman S, Blackman T, Jenks M, Williams K. Making the outside world dementia-friendly: Design issues and considerations. Environment and Planning B: Planning and Design 2003;30(4):605-632
29. Weisman G, Cohen U, Day K, Meyer G (1992) Programming and design for dementia. Development of a 50 person residential environment. Second print. University of Wisconsin-Milwaukee, Milwaukee, WI, USA
30. Steeman E, Godderis J, Grypdonck M, De Bal N, Dierckx de Casterlé B. Living with dementia from the perspective of older people: Is it a positive story? Aging & Mental Health 2007;11(2):119-130
31. Namazi KH, DiNatale Johnson B. How familiar tasks can enhance concentration in Alzheimer’s disease patients. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):35-40
80
![Page 94: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/94.jpg)
32. Fleming R, Forbes I, Bennett K (2003) Adapting the ward - for people with dementia. Sydney, Australia: NSW Department of Health
33. van Bronswijk JEMH, Koren LGH, Horst FAM, van Laere MMLF, Nillesen IPM, Pernot CEE, Schober G (1999) Hoofdstuk 4. Gezond en Duurzaam Bouwen: GeDuBo. Rapport TU/e, nummer BMGT99.083. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
34. Wackerbarth S, Johnson MMS. Predictors of driving cessation, independent living and power of attorney decisions by dementia patients and caregivers. American Journal of Alzheimer’s Disease and Other Dementias 1999;14(5):283-288
35. Cohen U, Weisman GD (1991) Holding on to home: Designing environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
36. Calkins MP. Designing special care units: A systematic approach. The American Journal of Alzheimer’s Care and Research 1987;2(2):16-22
37. Calkins MP. Designing special care units: A systematic approach -- Part II. The American Journal of Alzheimer’s Care and Research 1987;2(3):30-34
38. Zgola J. Alzheimer’s disease and the home: Issues in environmental design. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):15-22
39. Diaz Moore K, Geboy LD, Weisman GD (2006) Designing a better day. Guidelines for adults and dementia day services centers. The Johns Hopkins University Press, Baltimore, MD, USA
40. Brawley E. Alzheimer’s disease: Designing the physical environment. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):3-8
41. Burton E, Torrington J. Designing environments suitable for older people. CME Journal Geriatric Medicine 2007;9(2):39-45
42. Thomas DW. A case study on the effects of a retrofitted dementia special care unit on resident behaviors. American Journal of Alzheimer’s Disease 1996;11(3):8-14
43. Marquardt G, Schmieg P. Dementia-friendly architecture: Environments that facilitate wayfinding in nursing homes. American Journal of Alzheimer’s Disease and Other Dementias 2009;24(4):333-340
44. Tilly J, Reed P. Dementia care practice recommendations for nursing homes and assisted living, Phase 2: Falls, Wandering, and Physical Restraints. Alzheimer’s Care Today 2008;9(1):51-59
45. Wilkinson TJ, Henschke PJ, Handscombe K. How should toilets be labelled for people with dementia? Australian Journal on Ageing 1994;13(4):163-165
46. Marshall M (1995) Design for dementia. In: Tanner B, editor. Proceedings of RSAS one day symposium “Coping with the problems of dementia in old age”. 22 May 1995. Held at the Royal College of Physicians. Royal Surgical and Society, London, United Kingdom. pp 43-54
47. Calkins MP, Namazi KH. Caregivers’ perceptions of the effectiveness of home modifications for community living adults with dementia. The American Journal of Alzheimer’s Care and Related Disorders & Research 1991;6(1):25-29
48. Day K, Carreon D, Stump C. The therapeutic design of environments for people with dementia. A review of the empirical research. The Gerontologist 2000;40(4):397-416
49. Warner ML (2000) The complete guide to Alzheimer’s proofing your home. Revised and updated edition. Purdue University Press, West Lafayette, IN, USA
50. Petersen R, editor-in-chief (2002) Mayo Clinic on Alzheimer’s disease. Practical answers on memory loss, aging, research, treatment and caregiving. Mayo Clinic Health Information, Rochester, MN, USA
51. Silverstein NM, Hyde J, Ohta R. Home adaptation for Alzheimer’s households. Technology and Disability 1993;2(4):58-68
52. Gitlin LN, Corcoran M. Expanding caregiver ability to use environmental solutions for problems of bathing and incontinence in the elderly with dementia. Technology and Disability 1993;2(1):12-21
53. Gitlin LN, Kyung Chee Y. Use of adaptive equipment in caring for persons with dementia at home. Alzheimer’s Care Quarterly 2006;7(1):32-40
54. Blom M, Tjadens F, Withagen P (2000) Weten van vergeten. NIZW, Utrecht, The Netherlands [in Dutch]
55. Rodriguez JG, Baughman AL, Sattin RW, deVito CA, Ragland DL, Bacchelli S, Stevens JA. A standardized instrument to assess hazards for falls in the home of older persons. Accident Analysis & Prevention 1995;27(5):625-631
56. Mace NL, Rabins PV (2006) The 36-hour day. Fourth edition. The Johns Hopkins University Press, Baltimore, MD, USA
57. Gitlin LN, Corcoran M. Making homes safer: Environmental adaptations for people with dementia. Alzheimer’s Care Quarterly 2000;1(1):50-58
58. Gitlin L. Guidelines for environmental adaptations and safety at home. Alzheimer’s Care Today 2007;8(3):278-281
59. Bowlby Sifton C. Setting up surroundings for success and safety. Alzheimer’s Care Today 2007;8(3):286
60. Ponzetto M, Scarafiotti C, Ferrario E, Fabris F. Health promotion for family caregivers of people with Alzheimer’s disease and related disorders. Group leader’s manual. Module 5. Practical
81
![Page 95: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/95.jpg)
consequences of the increased dependency of people with Alzheimer’s disease. 1998. http://www.uni-koeln.de/ew-fak/Klein/
61. Brawley EC (2006) Design innovations for aging and Alzheimer’s. Creating caring environments. John Wiley & Sons, Inc, Hoboken, NJ, USA
62. Strubel D, Jacquot JM, Martin-Hunyadi C. Démence et chutes. Annales de Réadaptation et de Médecine Physique 2001;44(1):4-12 [in French]
63. Lach HW, Reed AT, Smith LJ, Carr DB. Alzheimer’s disease: Assessing safety problems in the home. Geriatric Nursing 1995;16(4):160-164
64. Brawley EC (1997) Designing for Alzheimer’s disease. Strategies for creating better care environments. John Wiley & Sons, Inc, New York, NY, USA
65. Nouws H (2001) Huiselijk en vertrouwd. Handreiking voor de bouw en inrichting van woonvoorzieningen voor dementerenden. NIZW, Utrecht, The Netherlands [in Dutch]
66. Turner G. Decreasing stimulation in the environment of persons diagnosed with Alzheimer’s disease. The American Journal of Alzheimer’s Care and Related Disorders & Research 1991;6(4):26-28
67. Namazi KH, DiNatale Johnson B. Dressing independently: A closet modification model for Alzheimer’s disease patients. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):22-28
68. Bakker R. Sensory loss, dementia and environments. Generations 2003;27(1):46-51 69. Hyde J. The physical environment and the care of Alzheimer’s patients: An experiential survey of
Massachusetts’ Alzheimer’s units. The American Journal of Alzheimer’s Care and Related Disorders & Research 1989;4(3):36-44
70. Kinney JM, Kart CS, Murdoch LD, Ziemba TF. Challenges in caregiving and creative solutions: Using technology to facilitate caring for a relative with dementia. Ageing International 2003;28(3):295-314
71. Nygård L. The stove timer as a device for older adults with cognitive impairment or dementia: Different professionals’ reasoning and actions. Technology and Disability 2009;21(3):53-66
72. Nygård L, Starkhammar S, Lilja M. The provision of stove times to individuals with cognitive impairment. Scandinavian Journal of Occupational Therapy 2007;15(1):4-12
73. Frank R, Souques M, Himbert C, Hidden-Lucet F, Petitot JC, Fontaine G, Lambrozo J, Magne I, Bailly JM. Effects of 50 to 60 Hz and of 20 to 50 kHz magnetic fields on the operation of implanted cardiac pacemakers. Archives des Maladies du Cœur et des Vaisseaux 2003;96(Spec No 3):35-41 [in French]
74. Irnich W, Bernstein AD. Do induction cooktops interfere with cardiac pacemakers? Europace 2006;8(5):377-384
75. Namazi KH, DiNatale Johnson B. Environmental issues related to visibility and consumption of food in an Alzheimer’s disease unit. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):30-34
76. van Hoof J, Schoutens AMC, Aarts MPJ. High colour temperature lighting for institutionalised older people with dementia. Building and Environment 2009;44(9):146-155.
77. van Hoof J, Aarts MPJ, Rense CG, Schoutens AMC. Ambient bright light in dementia: Effects on behaviour and circadian rhythmicity. Building and Environment 2009;44(1):1959-1969.
78. Leikas J, Salo J, Poramo R (1998) Security alarm system supports independent living of demented persons. In Graafmans J, Taipale V, Charness N, editors. Gerontechnology; A sustainable investment in the future. IOS Press, Amsterdam, The Netherlands. pp 402-405
79. Carter SE, Campbell EM, Sanson-Fisher RW, Redman S. Environmental hazards in the homes of older people. Age and Ageing 1997;26(3):195-202
80. Namazi KH, DiNatale Johnson B. The effects of environmental barriers on the attention span of Alzheimer’s disease patients. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):9-15
81. Marx L, Haschka B, Schnur P. Mehr Lux – mehr Wohlbefinden. Die richtige Beleuchtung hat positiven Einfluss auf demente Bewohner. Altenheim 2002;41(5):57-58,60-61 [in German]
82. Sloane PD, Mitchell CM, Weisman G, Zimmerman S, Foley KML, Lynn M, Calkins M, Lawton MP, Teresi J, Grant L, Lindeman D, Montgomery R. The Therapeutic Environment Screening Survey for Nursing Homes (TESS-NH): An observational instrument for assessing the physical environment of institutional settings for persons with dementia. The Journals of Gerontology Series B: Psychological Sciences and Social Sciences 2002;57(2):S69-S78
83. Cohen E, Lyman K, Pynoos J. Adapting day care center settings for persons with Alzheimer’s disease: Environmental design training for staff. The American Journal of Alzheimer’s Care and Related Disorders & Research 1991;6(2):25-32
84. Cohen U, Day K (1993) Contemporary environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
85. Weisman GD (2003) Chapter 11. Creating places for people with dementia: An action research perspective. In: Schaie KW, Wahl H-W, Mollenkopf H, Oswald F, editors. Aging independently: Living arrangements and mobility. Springer, New York, NY, USA. pp 162-173
86. Castell L. Building access for the intellectually disabled. Facilities 2008;26(3-4):117-130 87. Judd S. ‘We shape our buildings…thereafter they shape us’. Dementia 2008;7(2):163-165
82
![Page 96: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/96.jpg)
88. Zeisel J. Environment, neuroscience, and Alzheimer’s disease. Alzheimer’s Care Quarterly 2005;6(4):273-279
89. Olsen RV, Hutchings BL, Ehrenkrantz E. The physical design of the home as a caregiving support: An environment for persons with dementia. The Journal of Long Term Home Health Care 1999;1(2):125-131
90. Sloane PD, Mathew LJ. The therapeutic environment screening scale: An observational screening instrument to assess the quality of nursing home environments for residents with dementia. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(6):22-26
91. Grant LA. Assessing environments in Alzheimer special unit units. Nursing unit rating scale. Research on Aging 1996;18(3):275-291
92. Algase DL, Yao L, Son G-R, Beattie ERA, Beck C, Whall AF. Initial psychometrics of the ambiance scale: A tool to study person-environment interaction in dementia. Aging & Mental Health 2007;11(3):266-272
93. de Courval LP, Gélinas I, Gauthier S, Gayton D, Liu L, Rossignol M, Sampalis J, Dastoor D. Reliability and validity of the Safety Assessment Scale for people with dementia living at home. Canadian Journal of Occupational Therapy 2006;73(2):67-75.
94. Halliday G, Snowdon J. The Environmental Cleanliness and Clutter Scale (ECCS). International Psychogeriatrics 2009;21(6):1041-1050
95. Parker C, Barnes S, McKee K, Morgan K, Torrington J, Tregenza P. Quality of life and building design in residential and nursing homes for older people. Ageing and Society 2004;24(6):941-962
96. Day K, Cohen U. The role of culture in designing environments for people with dementia: A study of Russian Jewish immigrants. Environment and Behavior 2000;32(3):361-399
97. Olsen RV, Ehrenkrantz E, Hutchings BL. Creating the movement-access continuum in home environments for dementia care. Topics in Geriatric Rehabilitation 1996;12(2):1-8
98. Vroon PA (1990) Psychologische aspecten van ziekmakende gebouwen. Rijksuniversiteit Utrecht, Utrecht, The Netherlands [in Dutch]
99. Gitlin LN, Liebman J, Winter L. Are environmental interventions effective in the management of Alzheimer’s disease and related disorders? A synthesis of the evidence. Alzheimer’s Care Quarterly 2003;4(2):85-107
100. Tilly J, Reed P. Falls, wandering, and physical restraints. A review of interventions for individuals with dementia in assisted living and nursing homes. Alzheimer’s Care Today 2008;9(1):45-50
101. Perritt MR, McCune ED, McCune SL. Empirical findings suggest recommendations for carpet pattern and texture. Alzheimer’s Care Quarterly 2005;6(4):300-305
102. Calkins MP. Learning from doing. Conducting a SAGE postoccupance evaluation. Alzheimer’s Care Quarterly 2005;6(4):357-365
103. Gross J, Harmon ME, Myers RA, Evans RL, Kay NR, Rodriguez-Charbonier S, Herzog TR. Recognition of self among persons with dementia. Pictures versus names as environmental supports. Environment and Behavior 2004;36(3):424-454
104. Price JD, Hermans DG, Grimley Evans J. Subjective barriers to prevent wandering of cognitively impaired people (Review). Cochrane Database of Systematic Reviews 2007;(3):CD001932
105. Namazi KH, DiNatale Johnson B. Pertinent autonomy for residents with dementias: Modification of the physical environment to enhance independence. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):16-21
106. Calkins MP. The physical and social environment of the person with Alzheimer’s disease. Aging & Mental Health 2001;5(Supplement 1):S74-S78
107. Lawton MP. The physical environment of the person with Alzheimer’s disease. Aging & Mental Health 2001;5(Supplement 1):S56-S64
108. Charness N, Holley P. Human factors and environmental support in Alzheimer’s disease. Aging & Mental Health 2001;5(Supplement 1):S65-S73
109. Messecar DC, Archbold PG, Stewart BJ, Kirschling J. Home environmental modification strategies used by caregivers of elders. Research in Nursing & Health 2002;25(5):357-370
110. Braudy Harris P. The experience of living alone with early stage Alzheimer’s disease. What are the person’s concerns? Alzheimer’s Care Quarterly 2006;7(2):84-94
111. Gitlin LN, Corcoran M, Winter L, Boyce A, Hauck WW. A randomized, controlled trial of a home environmental intervention: Effect on efficacy and upset in caregivers and on daily function of persons with dementia. The Gerontologist 2001;41(1):4-14
112. Graff MJL, Adang EMM, Vernooij-Dassen MJM, Dekker J, Jönsson L, Thijssen M, Hoefnagels WHL, Olde Rikkert MGM. Community occupational therapy for older patients with dementia and their care givers: Cost effectiveness study. British Medical Journal 2008;336(7636):134-138
113. Galasko D, Bennett D, Sano M, Ernesto C, Thomas R, Grundman M, Ferris S. An inventory to assess activities of daily living for clinical trials in Alzheimer’s disease. Alzheimer Disease and Associated Disorders 1997;11(Supplement 2):S33-S39
114. Galasko D. An integrated approach to the management of Alzheimer’s disease: Assessing cognition, function and behaviour. European Journal of Neurology 1998;5(Supplement 4):S9-S17
83
![Page 97: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/97.jpg)
84
![Page 98: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/98.jpg)
4
Dementia and the indoor climate van Hoof J, Kort HSM, Hensen JLM, Duijnstee MSH, Rutten PGS Thermal comfort and the integrated design of homes for older people with dementia. Building and Environment 2010;45(2):358-370 Chapter 4 is the first chapter of this dissertation concerning the home’s indoor environment, and its contribution to ageing-in-place. The home’s indoor environment is of great importance to comfort and well-being, as well as to safety and security and the support of care at home. Also the reduction of problem behaviours is a relevant factor in supporting ageing-in-place. Uncomfortable indoor environmental conditions may lead to certain observable behavioural problems. Such behaviours are seen in 90% of people with dementia at some point in their course, irrespective of the level of cognitive impairments. As the impact of the indoor environmental conditions is largely unexplored, but very relevant, the following chapters will focus on the home’s indoor environment and the design thereof. Chapter 4 deals with the integration of demand and supply in relation to the indoor climate (including temperature, humidity, air velocity, thermal comfort) and of related building systems (active heating, ventilation and air conditioning (HVAC) systems and other passive building systems). The study is based on literature review and qualitative research. Aspects of safety and security, which are important for the people with dementia and for family carers, are discussed in relation to thermal conditions and the implementation of building-related solutions. Within the combined framework of ICF-MIBD, Chapter 4 provides an analysis and evaluation of the needs and solutions in relation to the indoor climate, which is the resultant of a building’s subsystems. Results are presented as indicators of the basic value, functional value and economic value, as well as a synthesis of building-related solutions.
85
![Page 99: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/99.jpg)
86
![Page 100: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/100.jpg)
People with dementia may have an altered sensitivity to indoor environmental conditions compared to other older adults and younger counterparts. This paper, based on literature review and qualitative research, provides an overview of needs regarding thermal comfort and the design and implementation of heating, ventilation and air conditioning systems for people with dementia and other relevant stakeholders through the combined use of the International Classification of Functioning, Disability and Health, and the Model of Integrated Building Design. In principle, older adults do not perceive thermal comfort differently from younger adults. Due to the pathology of people with dementia, as well as their altered thermoregulation, the perception of the thermal environment might be changed. Many people with dementia express their discomfort through certain behaviour that is considered a problem for both family and professional carers. Ethical concerns are raised as well in terms of who is in charge over the thermal conditions, and the protection against temperature extremes in hot summers or cold winters. When implementing heating, ventilation and air conditioning systems one should consider aspects like user-technology-interaction, diverging needs and preferences within group settings, safety-issues, and minimising negative behavioural reactions and draught due to suboptimal positioning of outlets. At the same time, technology puts demands on installers who need to learn how to work with customers with dementia and their family carers. 1. Introduction According to Alzheimer Europe1, there are an estimated 6 million -mainly older- people with dementia in the European Union. The vast majority of them live at home, where they are largely dependent on (in)formal care2. Dementia is the loss of cognitive function of a sufficient severity to interfere with social or occupational functioning. Alzheimer’s disease is the most important cause. Contrary to popular belief, loss of memory is not the only deficit in dementia. There are different kinds of symptoms in dementia, including (i) impairment in activities of daily life, (ii) abnormal behaviour, and (iii) loss of cognitive functions3. People with dementia are known to have an altered sensitivity to environmental conditions, and some may become increasingly reactive to their environment4. This in turn can result in behavioural problems, which form a serious burden for carers and are one of the reasons for long-term institutionalisation. The increased sensitivity seems to stem from the reduction of the individual’s ability to understand the implications of sensory experiences5. In practice, about 90% of people with dementia show problem behaviour6, which may be related to environmental stimuli. Apart from pharmacologic means, nonpharmacologic interventions can play an important role in managing problem behaviour6,7. The abovementioned changes in sensitivity imply that dementia has severe implications on daily life, and sets extra demands to living environments, including the thermal environment or indoor climate8. The thermal environment can be described as the characteristics of the environment that affect the heat exchange between the human body and the environment. Thermal comfort is described as ‘the state of mind, which expresses satisfaction with the thermal environment’9. There exist extensive modelling and standardisation for thermal comfort, which depend both on physical and physiological parameters, as well as on psychology. The home’s indoor climate is not only the key factor in providing comfort to the occupants, but might even be a nonpharmacologic factor in managing problem behaviour accompanying dementia syndrome, and thus a yet largely unexplored and ill-known factor in care support and the reduction of the burden of care. Since people with dementia respond on a sensory level, rather than on an intellectual level10, and given some of the cognitive and behavioural problems, extra attention should be paid to the indoor environment in relation to comfort and behaviour. It is, however, important to stress that cognitive impairment is not caused by environmental design, but problem behaviours may be exacerbated by inappropriate
87
![Page 101: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/101.jpg)
environments11. It is therefore of the utmost importance that the role played by the indoor climate is acknowledged by all relevant actors. The design and maintenance of the indoor climate is the domain of various professions in the field of technology, not nursing in particular, such as building services engineers, architects and building physicists. Nursing literature in general often mentions the indoor climate in relation to people with dementia in various care settings, and provides clear indications in the form of anecdotal evidence that people with dementia are generally very sensitive to (changes in) indoor climatic conditions. Professionals from the technological disciplines are the ones who build homes and install building services, using guidelines that are based on healthy, working-age adults. The integrated design of buildings in itself is a complex process; there are many stakeholders, it involves many disciplines and building systems, and aims at creating a range of stakeholder-related values12. People with dementia are the ones who are most affected when their actual needs are not considered in the design process and if a building cannot deliver its full potential of values to all users. A trend in society that makes the two professional fields come together is the emergence of air conditioning system in group-living and assisted-living facilities to protect older adults against the risk of increased mortality during long periods of (extreme) heat, as seen in the 2003 and 2006 heat waves in Europe. A good implementation of such technologies is crucial to not only protect people, but also to provide comfort to -and to maintain well-being of- older people with dementia. At the same time, there are important issues concerning the supply and costs of energy and fuel poverty, and the health risks of cold winters in community-dwelling people13. This paper, based on literature review and qualitative research, studies the needs regarding thermal comfort and the ‘comfort-related’ design and implementation of relevant building systems for community-dwelling people with dementia in an integrated way by focussing on the creation of building-related values for the relevant stakeholders: the person with dementia, family and professional carers, and professionals from the fields of technology, construction and housing. 2. Methodology This study was based on (i) literature research and (ii) on reinterpretation of two data sets of qualitative research based on semi-structured interviews on the use of technology by community-dwelling older adults with dementia. Method and data triangulation was applied by combining these different research approaches. The International Classification of Functioning, Disability and Health (ICF) by the World Health Organization14, and the Model of Integrated Building Design by Rutten12 were chosen as frameworks for structuring and presenting the data (Figure 1). 2.1. Literature study The literature study included both peer-reviewed articles and books on (i) ageing senses and perception of indoor environmental parameters by the aged and ageing, and (ii) housing for older people with dementia, (iii) behavioural problems among people with dementia in relation to indoor environmental parameters, and (iv) design guidelines for technology for people with dementia and the installers of such technology. The search included databases such as PubMed and databases of technological papers, without a limitation to the age of papers (up to March 2009). All volumes of the journals ‘Dementia’, ‘American Journal of Alzheimer’s Disease and Other Dementias’, and ‘Alzheimer’s Care Quarterly / Alzheimer’s Care Today’, known for publishing on housing in relation to dementia, were searched manually for relevant papers. The reference lists were cross-referenced. Conference proceedings and books available in libraries in The Netherlands on dementia and design were also consulted. Also, the study included multiple sources from The Netherlands, to provide a counterweight for the large amount of Anglo-Saxon literature. Literature included in this study does not only cover the home environment, but also institutional types of housing, such as nursing homes, small-scale group settings, and special
88
![Page 102: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/102.jpg)
care units (SCUs). International literature on SCUs is elaborate, and the knowledge is often directly applicable to the home situation. The literature search was complicated by the large differences in vision and the way problems are conceptualised between nursing/occupational therapy, and the technological sciences. There are significant differences in the way professionals from both fields approach and perceive dementia syndrome and related health problems and challenges, as well as in the level of conceptual thinking when dealing with these challenges. Because nursing literature often reports of behavioural problems in dementia as a result of aspects of the indoor environment, most attention in these reports is given to the actual health problem instead of a good description of the actual environmental condition. A sort of forensic approach was needed to determine the exact underlying cause of the behavioural problems. 2.2. Qualitative research The current study also makes use of two existing qualitative data sets on the use of technology by community-dwelling older adults in The Netherlands for a secondary analysis; the first data set is by van Berlo15,16, and the second is by van Hoof and Kort17. These datasets concern the use of technology by community-dwelling older people. A phenomenological approach was used for the secondary analysis. The van Berlo data set includes in-depth interviews (n=10) with primary carers (2 males and 8 females, often relatives) of community-dwelling people with dementia (4 males and 6 females). The interviews deal with the potential of technology in order to diminish the burden of care by limiting or partly taking over the various tasks of supervision. The interviews also deal with thermostats. Work related to this data set was published by Sweep18 and Sweep et al.19. Many questions in the interviews were derived from an interview scheme for measuring the burden of care of family carers developed by Duijnstee and Blom20. The van Hoof and Kort17 dataset includes data from an investigation of the expectations regarding technology and needs of a group of 18 older adults (care recipients) living in their own home with support of home care services. All 18 clients were entitled to receive institutional nursing home care. Seven clients coped with mild to moderate psychogeriatric health problems, including dementia. The others had (severe) somatic health problems. Some of the clients received back-up by family and/or professional carers during the interviews, using semi-structured questionnaires. These questionnaires covered a range of items, including (i) the use of assistive aids, (ii) the importance of ageing-in-place and accompanying challenges, (iii) the perception of safety and security, and (iv) the concerns regarding technology. The study was performed between December 2006 and September 2007. All interviews took place within the homes of the clients, since observation of the living environment plays an important part in the questionnaire. The two data sets, consisting of transcripts of the interviews, were analysed as follows. First, each transcript was read in its entirety. Then, the transcripts were read a second time to develop codes, namely for (i) thermal comfort, and (ii) heating systems, (iii) ventilation systems, and (iv) controls. Third, quotes that summarised the essence of each person’s subjective experience were selected from the transcripts. These quotes were translated from Dutch to English as closely as possible, and are used to further illustrate findings from literature. In the text, the van Hoof and Kort subjects are shown as letters (Mr./Mrs. A to H, and J to S), whereas the van Berlo subjects are shown as Mr./Mrs. B plus a given number, for instance, Mrs. B5, Mrs. B12, etc. 2.3. Framework for the analysis The data of the abovementioned literature review and qualitative studies are structured and presented using two existing frameworks: (i) the ICF14 known from health sciences, and (ii) the Model of Integrated Building Design by Rutten12 that has its origins in building sciences. 2.3.1. International Classification of Functioning, Disability and Health The biological ageing process of persons may take place in good health and is not per se a precursor for dependency. It may also go along with an increased risk of the development of chronic diseases and impairments. Within the ICF, these health problems can lead to
89
![Page 103: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/103.jpg)
limitations or restrictions (Figure 1). ICF also lists environmental factors (specific products and services, technology, the (built) environment, social context, and care policies and welfare regimes), and personal factors (age, sex, education, profession, comorbidities and coping styles), which can be related to all the domains of the ICF. Within the ICF-model, the built or living environment can be seen as an environmental factor that influences people at the impairment level, and helps people to overcome limitations and restrictions posed by declining physical fitness and cognition. Relevant ICF domains for thermal comfort and the indoor climate are the domains b550 Thermoregulatory functions, and e225 Climate, which includes temperature and humidity14.
Health condition (disorder/disease)
Personal factors
Participation (restrictions)
Body functions and structures
(impairments)
Activities (limitations)
Building system Value - DomainPerformanceTotal design
Housing
Stuff
Site
Structure
Skin
Services
Space-plan
World Health Organization (2001) International
Classification of Functioning (ICF)
Rutten (1996) Model of Integrated Building Design
Bra
nd (
1994
) 6
S’s
safety & securityhealth & comfortambiance / shelter
initial costsoperational costs
changeabilityadaptability
energy & water usematerial usage
emissions / waste
aestheticscompliance with laws
production supportreliability
Basic valueindividual
Economic valueowner
Strategic valuepotential users
Ecological valueglobal community
Local valuecommunity
Functional valueorganisation
Environmental factors
LegislationPolicies
Figure 1. Interactions between the components of ICF by the World Health Organization14, and the integration of the Model of Integrated Building Design by Rutten12. 2.3.2. Model of Integrated Building Design Housing is one of the services that can be offered to older adults (with dementia) according to the concept ‘integrated care’. In integrated care, packages of care and services are offered that fit into a daily rhythm or programme, or seamlessly follow the needs of users over time21. Integrated care may be seen as the process that is facilitated or supported through a fitting and integrated building process. Rutten12 presented a Model of Integrated Building Design (MIBD) (Figure 1), which provides an overview of the sub-aspects of the design process of a building and the desired building performance levels. In this model, a building derives its total value based on the quality of its relationship with its human environment. Although not necessarily mutually exclusive, the interests of different ‘users’ of a building can be quite varied22. Within the MIBD, six values and domains are distinguished, namely the basic, functional, local, ecological, strategic, and economical values. The ICF has a connection to three of these values, and therefore, emphasis will be on the basic value, functional value and economic value.
90
![Page 104: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/104.jpg)
1. Basic value The basic value is determined from a building’s relationship with individual occupants and their sense of psychological and physical well-being. Thermal comfort (direct effect) and air quality (ventilation, indirect effect) are requirements under this category. Aspects of safety as well as spatiality are also included within the domain of basic values. The person with dementia is the most important stakeholder in this section. The family carer is the one who knows the person with dementia best and can estimate the degree of psychological and physical well-being of this person. The starting-point is that the person with dementia stays in control and is accepted for as long as possible, even though there comes a point that the family takes over and becomes responsible. The basic value had a broad perspective; it can be regarded from a personal perspective and from the perspective of the building systems. 2. Functional value The functional value is concerned with how activities taking place inside the building are supported. It relates to the organisation, which could be the organisation of care in the case of dementia, or the maintenance services of building systems. Underlying requirements include: support for production, manageability, operations and maintenance, and cleanliness. 3. Economic value The economic value is based on the relationship with people concerned with the ownership and marketing of the building. This could be the occupants of the home as they own the dwelling, or a housing cooperation or care organisation that owns real estate. Sub-level requirements include initial cost, life-cycle costs (operating costs and maintenance costs) and demolition costs. The overall value of a building derives from how well it performs at all of the various human perspectives from which it is viewed. Defining total building quality therefore requires that the needs of all potential stakeholders be considered22. The building itself is made up of several systems or components, the six S’s: stuff, space-plan, services, skin, structure, and site23. These components can be further sub-divided into sub-system components. The realisation of comfort is the resultant of various building systems. Each system has a specific set of functions that contribute to the achievement of a certain value. In this paper, various sub-systems such as the façade system (skin), heating, cooling and ventilation systems (services) and the controls are discussed in relation to the relevant stakeholder in terms of the provision of thermal comfort and a proper implementation in relation to safety and security. The heating, cooling and ventilation systems are further divided into: (i) heating systems (water-based systems and electrical systems), (ii) heating, ventilation and air conditioning (HVAC) systems, which deliver conditioned air, and (iii) ventilation systems (mechanical, natural and hybrid ventilation). 2.3.3. Combined model The combined use of these models allows for an analysis of the current scientific problem that matches the mindsets of both scientific domains. From a practical point of view, this approach allows for a problem analysis from the viewpoint of the care recipient (i.e., person with dementia) which forms the basis of ICF, and to integrate the building process in such a way that it leads to a more fitting and appropriate use of a building (home), its rooms/spaces, and the technological and interior design. In this paper, only three values of the MIBD are considered for further analyses as they are the most relevant to the subject of this study: the basic, functional and economic values, although emphasis will be on the basic value. The connection between ICF and MIBD is as follows. The basic value deals with the needs of the stakeholders as described in ICF terms, the functional value deals with answers and solutions to the needs of stakeholders, and the economic value deals with the fit between demand and supply. 3. Basic value The domain of the basic value concerns the needs of the main stakeholder; the person with dementia. The next sections deal with standardisation and the impact of physiological changes that accompany biological ageing and dementia on the perception of thermal
91
![Page 105: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/105.jpg)
comfort, as well as directions for further thermal comfort research. This is followed by a discussion of the ethical aspects related to thermal comfort and relevant building systems. 3.1. Thermal comfort: standardisation, ageing and dementia 3.1.1. Thermal comfort models and standards The most commonly used model for evaluating general or whole-body thermal comfort is the PMV-model (Predicted Mean Vote) by Fanger24. The PMV-model was created in the late 1960s by climate chamber research involving college-age students. It was validated for older people with 128 older subjects. The model expresses thermal sensation by Predicted Mean Vote, a parameter that indicates how occupants judge the indoor climate. PMV is expressed on the ASHRAE 7-point scale of thermal sensation (cold, cool, slightly cool, neutral, slightly warm, warm, hot). The outcome of the model is a hypothetical thermal sensation vote for an average person, i.e., the mean response of a large number of people with equal clothing and activity levels, who are exposed to identical and uniform environmental conditions. ASHRAE9 defines thermal sensation as a conscious feeling, which requires subjective evaluation. The PMV-model is adopted by the (inter)national standards ISO 773024, ANSI/ASHRAE Standard 559, and EN 1525126. These standards aim to specify the conditions that provide comfort to a majority of healthy building occupants, including older adults. In practice, a selection of an acceptable percentage of dissatisfied is often made depending on economy and technical feasibility27. EN 1525126 mentions that for spaces occupied by very sensitive and fragile persons, PMV should be kept between -0.2 and +0.2 on the ASHRAE 7-point scale of thermal sensation. Apart from general or whole-body thermal comfort, there is also local thermal discomfort, which is due to non-uniformity of the thermal environment. This includes uncomfortable vertical air temperature differences and floor temperatures, radiant temperature asymmetries, and draughts. Moreover, ANSI/ASHRAE Standard 559 and EN 1525126 include models of adaptive thermal comfort28 which are partly based on the expectancy of climatic conditions. 3.1.2. The effects of biological ageing The abovementioned standards and models mainly focus on office situations, which are mainly populated by people roughly aged between 20 and 65 years old. Apart from a small percentage of people with dementia who are aged younger than 65 years old, most are aged 65 and over. The process of biological ageing may affect the perception of thermal comfort. In principle, older adults do not perceive thermal comfort differently from younger college-age adults27,29. The effects of gender and age can be accounted for by PMV-model parameters, such as activity and clothing level29. The ability to regulate body temperature tends to decrease with age29. These changes vary widely among individuals and are related more to general health than age13. The circadian rhythmicity in body temperature tends to decrease with age30. Also, basal metabolism declines with advancing age leading to lower body temperatures, and on average older adults have a lower activity level than younger persons which is the main reason that they require higher ambient temperatures29,31-33. Many older persons complain that they feel cold whether or not their actual body temperatures are lower13. Neurosensory changes tend to delay or diminish the older person’s awareness of temperature changes and many impair behavioural and thermoregulatory responses to dangerously high or low environmental temperatures13. Moreover, high ambient temperature is found to negatively influence habitual physical activity34. However, according to Kenney and Munce30, when the effects of chronic diseases and sedentary lifestyle are minimised, thermal tolerance appears to be minimally compromised by age. Although 20% of older adults show no vasoconstriction of cutaneous blood vessels, not all of the remaining 80% have diminished control of body temperature35. Foster et al.36 found a reduction in the sweating activity of aged men compared to younger age groups. The body temperature threshold for the onset of sweating was increased as well. These differences were even more pronounced in aged women. Moreover, pharmacological interventions may influence thermoregulation13,37. In general, older adults have a reduced (i) muscle strength, (ii) work capacity, (iii) sweating capacity, (iv) ability to transport heat from body core to skin, (v) hydration levels, (vi) vascular reactivity, and (vii) lower cardiovascular stability29. A number of
92
![Page 106: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/106.jpg)
studies have been conducted on older adults and their preferences of, and responses to, the thermal environment. Some studies found differences in heat balance, or preferences for higher or even lower temperatures between the old and the young, while others have given support to the PMV-model, which is based on the assumption that all age groups have the same thermal preference27. Some of the abovementioned findings for normal ageing are summarised in ISO/TS 1441538 as follows: “Even among healthy aged persons, shifts of thermal circadian rhythms are often found. Vasoconstriction against cold environments, as well as vasodilatation and sweat secretion against hot environments, is weaker and starts later in an aged person. Thermal sensations become dulled and many cases of spontaneous hypothermia in the elderly are reported.” 3.1.3. Dementia and thermal comfort Apart from the ASHRAE definition of thermal comfort there is also a thermophysiological definition, which is based on the firing of the thermal receptors in the skin and in the hypothalamus. Comfort in this sense is defined as the minimum rate of nervous signals from these receptors39. Due to the pathology of many persons with dementia, involving damaging of brain tissue, the perception of the thermal environment, as well as the thermoregulation of psychogeriatric people might be different from their counterparts without dementia. Van Hoof40 has postulated that more thermal comfort research is needed for older adults with dementia because of damages to the brain tissue and to problems expressing themselves. In a study comprising 237 older adults, Sund-Levander and Wahren41 have found that the variation in tympanic and rectal temperatures ranged from 33.8 to 38.4 C and 35.6 to 38.0 C, respectively. Dementia was significantly related to lower tympanic and rectal temperature. Much of the difference in the perception of thermal comfort is backed by anecdotal evidence. In a descriptive paper on the housing situation of his father with dementia, Steinfeld42,p.3 states that over time, his father’s “ability to sense thermal comfort seemed to deteriorate. There were many days when I would arrive to find the heat well near [32 °C] or more. And, in the summer, the opposite occurred with the air conditioning.” The design process of building services for people with dementia, which is often based on the PMV-model, and thus thermal sensation, brings along risks since the traditional concept of thermal comfort is vague for people with an unknown ‘state of mind’ and who might lack the ability to express themselves reliably. Expressing satisfaction with the thermal environment, or dissatisfaction in particular, might take place via the expression of certain observable behaviour. Providing thermal comfort is important since a person with dementia may not be able to give an adequate reaction on the thermal environment and get or shed a sweater, or to ask for help or to complain43. Aminoff44 adds that neglecting to dress warmly and to cover people with dementia occurs frequently; and although one feels the cold he or she cannot express the discomfort. Also, Cohen-Mansfield and Werner45 studied behaviours in nursing homes and found that requesting for attention was associated with hot temperatures during daytime. Cluff46 stresses the importance of appropriate environmental quality including heating to benefit well-being, health and competence. The desired quality of building services for older adults with dementia, and their implementation in daily life, is likely to be different from that of other healthy groups. The current technical specification on thermal comfort of special groups, ISO/TS 1441538, does not provide any data on this matter. Another problem, illustrated by Steinfeld42, is that individual thermal preferences may differ greatly within the population of older adults with dementia. According to Fountain et al.47, individual differences in healthy adults are frequently greater than one ASHRAE-scale unit when they are exposed to the same environment (inter-individual variance). In addition, how a person feels in the same environments from day-to-day can also vary on the order of one scale value (intra-individual variance). This scale value corresponds to a temperature range of approximately 3 K; the full width of the comfort zone in either summer or winter47. It is therefore not possible to exactly predict thermal comfort for individuals. That is the reason the comfort zone in standards is as wide as it is, and why it is unreasonable to expect all people to be satisfied within a centrally controlled environment, even when the thermal conditions meet current standards. In the case of older people with dementia, providing thermal comfort
93
![Page 107: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/107.jpg)
even when meeting current standards may be even more problematic particularly in group settings, due to even larger inter-individual variances. 3.1.4. Thermal comfort research for dementia As most thermal comfort standards and guidelines are based on the PMV-model, this model should be investigated in terms of its applicability for people with dementia. Such an investigation would certainly bring along a lot of complicating factors. Apart from a person’s cognition, underlying cause of dementia, age, the researchers have to use various scales to investigate this matter, for instance, those stated in ISO 1055148. According to this standard, subjects should rate the environment on a perceptual scale first, then an evaluative scale, followed by a preference scale, concluding with ratings for personal acceptability and personal tolerance. Since the validity of ratings and answers given by people with dementia is poor (some suffer from aphasia, others are happy to give any answer to the researcher in order to comply), family carers should be asked to rate the thermal perception of their partner/spouse with dementia as an additional measure, based on observations and knowledge of their partner/spouse with dementia. According to Nygård49, people with dementia may have considerable difficulties reasoning about abstract issues. Nygård also states that interviews largely rely on cognitive and verbal functions, which deteriorate as dementia progresses. At the same time, there may be discrepancies between statements of people with dementia and their family carers, which are more closely related to the actual burden of care than to a decline in cognitive functioning of the person with dementia49. Family carers, who are the representatives of people with dementia, often know the person with dementia best and their knowledge is often indispensable. Moreover, we do not know if people with dementia have thermal preferences that change over time, due to their progressing pathology. Still, not all is lost, in contrary. One might stress the importance of collecting information from both the person with dementia and the family carer in an early phase of the dementia process. Information may include whether someone feels warm or cold in certain conditions, and if someone is able to operate technology easily. Subsequently, it is important to observe changes in these patterns during the dementia process, in order to account for (shifts in) the preferences and abilities of the person with dementia as adequately as possible. 3.2. Ethical aspects Within the domain of the basic value, the personal integrity of the person with dementia in relation to his/her surroundings and technology, and the accompanying ethical aspects form an important aspect, which is gaining importance as a field of discussion and study. According to van den Hoven50, one obstacle to an adequate view of the relation between ethics and technology stems from Aristotle, namely the radical distinction between genuine action and production including engineering (praxis versus poesis). Praxis is the domain of ethics (phronesis), whereas poesis is the domain of instrumental reasoning (techne), not ethics. Van den Hoven50 continues by stating that in modern times praxis and poesis are inextricably linked. The scope of the discussion on ethics, technology and dementia seems to be increasingly moving towards the field of architecture and design of technology and home automation for people with dementia51. 3.2.1. Autonomy versus beneficence Van Berlo15,p.69 describes an ethical dilemma about a 72-year-old woman with probable Alzheimer’s disease Mrs. B12 cares for. In her current home, room temperature was controlled from a distance or was programmed, without letting the woman take control actions by herself, as the indoor temperature was often very high. Van Berlo15,p.70 states that the high temperature may be seen as a problem, but at the same time the resident may really like a hot indoor climate. The principle of beneficence would allow control of room temperature because it seems often far too hot. But again, there is the principle of autonomy, which might outweigh the principle of beneficence here, since nobody is in direct danger due to a high temperature. In nursing homes, however, residents have no control over conditions in (group) areas. Staff need to find a balance between ‘dominating’ residents and limiting damage residents might impose upon themselves.
94
![Page 108: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/108.jpg)
3.2.2. Intelligent systems versus cognitive abilities Fernie and Femnie52 mention intelligent homes as a solution for community-dwelling people with dementia. These homes may ‘turn up the thermostat a short time prior to the wake-up alarm and turning on the lights and coffee maker afterward’. The authors ask themselves four questions, which are relevant from an ethical point of view. What functions would be useful and acceptable? What functions would tend to trigger disorientation, confusion, anxiety or frustration? How could cognitively impaired individuals with Alzheimer’s disease retain their ability to vary the environment? What special monitoring and control functions might enhance their independence, dignity and quality of life? In addition, Marshall53 asks herself a number of ethical questions on the use of technology at home. One of these ethical questions is how can we know if the person with dementia consents to the use of technology. A second question is if people with dementia and their family carers have equal access to technology. A third question that needs to be answered is which person benefits from the technology? According to Marshall53, ‘the person with dementia ought to be the person who benefits at least as much as other people, but I am sure we can all think of situations where this would not be the case’. Similar ethical questions are posed by Bjørneby et al.54 and van Berlo55, who stated that the following questions should be considered in the use of technology: (i) the purpose of introduction, (ii) degree of involvement and consent of the person with dementia, (iii) who is to benefit most, (iv) is technology replacing human input, and (v) effects on the person with dementia. The final question by Marshall53 that one should ask him/herself is if technology is being used because of poor design? This question is particularly relevant in relation to the indoor environment, which is dependent on passive architectural design, but which is often influenced by building services. 3.2.3. Control systems versus limitations to cognition From an ethical point of view, people should have opportunities for control over the indoor climate and building services. In order to prevent problems with set-point temperatures of thermostats, control options should be easy and limited, even though abilities of people to operate equipment may vary considerably depending on the stage of dementia and past experience with technology. Technology should create an environment that is comfortable to both the person with dementia and the family carer. Intelligent buildings may meet all criteria mentioned, in particular because the support devices are largely invisible to the user51. It is related to a building’s strategic value, as it allows spaces to adapt to users over-time. The creation of conditions for thermal comfort and the control of ventilation systems are minimally invasive from a human-technology interaction point of view. One of the benefits of intelligent buildings is the possibility to work with user profiles. Set-point temperatures can be adjusted to people’s preferences and to the physical status of a person, for instance, whether someone is still active, largely involved in sedentary activity or bed-ridden. In situations with little physical activity and immobility, people with severe dementia may be unable to put off or add clothes and escape draughts created by forced air systems56. The resident profile may then adjust the heating and the method it is being delivered. Another issue that should be mentioned is that economic conditions often play a role in the vulnerability of older people, for instance, when someone can no longer afford air conditioning or adequate heating13. During winter months, the older person may try using little or no room heat to either reduce or eliminate high cost for fuel13, which might lead to health problems such as hypothermia and pneumonia. It is of utmost importance that building services consume as little energy as possible to reduce energy costs. Also from the perspective of ecological and strategic values, such systems are desirable. 4. Functional value Within the domain of the functional value, production support and reliability play a role as performance indicators. This can be both the impact in care giving processes of the family or professionals, as well as the production processes within the technological domain.
95
![Page 109: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/109.jpg)
4.1. The role of carers and care organisations Family and professional carers need to be aware of the consequences thermal discomfort can have on care processes, and how the good design and implementation of building services can lead to more efficiency in caring for someone with dementia. Even though dementia can significantly change how people interpret what they sense, the extent is highly individual and in constant flux, depending on neuropathological changes, sensory loss, time of day, medication management, and the social and physical environment57. All carers should be aware of this phenomenon too. Many building services rely on controls. In order to implement technology successfully, all carers should be made familiar through training on how technology works and how to deal in case of malfunctioning. For instance, in an overview of special care units in Northern Europe and Australia, Judd et al.58 described heating and HVAC systems installed per unit, but unfortunately did not go into operational details. It is likely that these systems were operated by staff only, and not by the residents. Information on the role of these building systems and thermal comfort should be made available via patient organisations and professional care organisations. Very old seniors with dementia are more likely to live alone or with a family carer in need of help him/herself, who cannot deal with the physical strain of caring. It is likely that such an aged family carer has difficulties with handling technology. Occasionally, carers (particularly professionals) can have a misinterpretation of underlying problems. Bakker57 states that at times, the loss of function of institutionalised persons with dementia is incorrectly blamed on dementia, when inappropriate design is at the basis. Bakker also provides an example of a person with dementia on a hot summer day, in a room without air conditioning. Although staff claimed that the person could no longer operate the HVAC equipment, which was said to be due to dementia, it turned out that the lettering on the control panel was too small and contrast was too low. Apart from operational restrictions, there are more concerns regarding air conditioning for older people with dementia. In The Netherlands, some of the regional health care assessment centres take heating systems into account when assessing the need for care of a client living at home, for instance, whether occupants can handle the knobs, the thermostats and the central heating system itself. This means that these organisations acknowledge the importance of such a system in relation to being able to live independently. 4.2. The role of the technological professions Dementia also calls for a more thorough approach from the technological domains. This approach is twofold. First, installing technology puts demands on installers and their technological solutions. The complexity of technology can have a disabling effect on the person with dementia59. Ideally, technology and equipment should (i) not require any learning, (ii) look familiar, (iii) not remove control from the user, (iv) keep user interaction to a minimum, and (v) reassure the user60,61. Moreover, interfaces should be large in order for people with Parkinsonism, and various age-related limitations to motor skills, to be able to operate them. Fozard et al.62 have come up with a developmental view of human factors and ageing (Figure 2). They state that because biological ageing itself means change, the design of environments and equipment used over the lifespan should include the potential for changing requirements associated with ageing. Figure 2 represents the interaction between a person and the environment. People receive information from the environment (perception). This may lead to actions that may adjust or modify controls of the system that is operated. Within the model, age-associated differences in sensitivity to the thermal environment, as well as individual differences in, for instance, cognitive abilities, are the main things that determine whether it is necessary to age-adjust the relationship between the person and the system being operated15. The most important implication of the developmental view of human factors is that ergonomic interventions should emphasise adaptability of architecture and products as a design principle15. The model is very easy to apply to the design of building services for dementia, as it specifically incorporates cognition and perception, and focuses on displays and controls. Also, the so-called technology generation63 should be taken into account, as the type of technology people were familiar with before the age of 25 years plays a role in the ability to work with technology in later life.
96
![Page 110: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/110.jpg)
Figure 2. The developmental view of human factors and ageing62. When working with a person with dementia, he or she may not remember why an installer is working in a home, or who this installer is. This may be a cause of distress. Installers should preferably work in couples, which allows one of the two to leave the site, without loss of access upon return64. When equipment is installed, installers should answer user questions repeatedly, listen, and be sensitive to the state of mind of the client64. Some people with dementia are curious about new equipment and are often uninhibited about dismantling it to “find out how it works”64. Moreover, people with dementia need rapid responses to perceived difficulties, as they are often unable to understand the reason for a fault occurring, or work around it64. Gitlin and Kyung Chee65 have come up with guidelines for introducing adaptive equipment, which include (i) making an observation of the home to determine needs, installation considerations, and use of space, and (ii) involvement of family members in the evaluation and decision-making process. Installers should proceed only with equipment that has been agreed upon by the family65. Second, technical professionals should be aware that current standards and guidelines for thermal comfort cannot be applied to persons with dementia without caution. In general, the quality of the indoor environment may be expressed as the extent to which human requirements, who have a great interindividual variety, are met. Some people are known to be rather sensitive and are difficult to satisfy66, and this seems to be particularly true for people with dementia. Other relevant building regulations tend to be primarily written for the needs of older people with a physical impairment, rather than for people with mental or cognitive impairments67. It is worthwhile to investigate if design guidelines for older people with dementia are suitable for people with dementia younger than 65 years, who have not yet experienced the effects of high age.
Internal environment:nervous system,
musculoskeletal system,organ systems
External environment:climate
lightsound
Interaction
Technical operating system
Human operating system (cognition)
Displays Controls
Perception
Interface Interface
Motor action
Information aspects
Activation aspects
Humanaspects
Technical aspects
Time0
-
+
97
![Page 111: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/111.jpg)
5. Economic value Within the domain of the economic value, initial costs and operational costs, as well as maintenance, play a role as performance indicators. These costs can be made by individuals with dementia and their relatives, by care organisations or stakeholders from the domain of technology. As mentioned in the previous section, all carers should be made familiar through training about technology. Training, however, is costly and poses financial restrictions in the start-up phase, particularly when multiple systems are used simultaneously. The results however, may cut down on costs for the processes of facilitating care. If people with dementia are able to age-in-place, due to improved thermal comfort and building systems, instead of living in an institutional setting, this goes together with a reduction of costs for society. Van Hoof et al.2 provide an overview of the financial and societal costs of care for people with dementia. The costs of informal care in 2005 were an estimated € 4,700 per person with dementia per annum. The direct costs of dementia care were about € 14,200 per person with dementia per annum. The costs per person can vary considerably, even within the more developed countries and when considering the net domestic purchase power. Many family carers are older adults themselves, and health problems may arise from the stresses of caring for a loved-one, in particular when problem behaviours are observed. Some of the Dutch regional health care assessment centres acknowledge the importance of heating systems and thermostats in relation to being able to live independently. At the same time, there are few commercially available solutions to assist people with dementia. One should keep in mind that what is available on the marketplace is not the same as what is or may be possible in practice. This brings us to the need for product development. The technological domain is the ideal place for such product innovation, as many enterprises are focussing on the health care domain as potential growth market. This does, however, ask for investments from the industries for research and development, and requires serious investments in training and educating personnel. At the same time, the technological sector could strengthen its market, while at the same time helping the health care sector find a solution for present-day problems including the shortages in health care professionals. Maintenance and its costs are another issue. Well-kept equipment is less prone to failure, and in case of moving parts as in HVAC systems, maintenance can keep background noise down11. Money should be reserved for these necessary costs, including running costs. Operation and maintenance require service providers to innovate. New services should be developed to support the health care providers and recipients. Also, new low-energy systems could have a positive impact on both the environment and people’s financial capacities. 6. Synthesis of building systems The realisation and experience of comfort is the resultant of various building (sub)systems, i.e., the skin, the services and the control systems, which are discussed in the following paragraphs. 6.1. Skin: façade systems There are both active and passive façade systems to maintain a comfortable indoor climate at home and to avoid large temperature rises in summer (risk of hyperthermia). Solar blinds can help limit the heating of the dwelling in summer27. Automated curtains and/or solar blinds installed to limit solar gains should be avoided, as Sweep18 mentions that such technologies can be perceived as threatening. Operable windows are important for ventilation. Ideally, windows should be manually operable as an easy way to let the resident have some control over the environment68. Ventilation openings should be designed so that residents cannot crawl through them68. Especially in high-rise buildings one should install security locks to prevent people from climbing out through open windows and balcony doors69, or install home security systems to alert carers when doors or windows are opened. Locks may be necessary on windows to prevent them
98
![Page 112: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/112.jpg)
from being opened too far, or to keep residents from opening them throughout winter68. Moreover, ventilation grids should be easy to reach in order to prevent the risk of falls. 6.2. Services: heating systems The bathroom is the room where a heating system is needed most. Bathrooms should be comfortably warm, since people undress in these rooms70-72. For institutional settings, Aminoff44 states that in winter, if residents cannot complain that they are cold, undressing and later dressing in a cold bathroom, or allowing them to lie naked waiting to be washed with cold water, is ‘cruel’. According to Warner73, a person with dementia may not realise that a bathroom is too cold, only that he or she is uncomfortable, and may not associate the room’s temperature with the experienced discomfort or have the ability to communicate it. This often results in frustration, anger or attempting to get away from the discomfort. Apart from discomfort and risks of hypothermia, there are other safety issues involved in relation to heating systems. The diminished understanding of the surroundings also puts demands on the way heating systems are installed, and on safety requirements of separate, auxiliary electronic heating systems. These electronic systems should be kept out of the bathroom as much as possible72. An alternative solution to increasing comfort and providing heat is to install heat lamps in the ceiling10,57,72. Heat lamps cannot be knocked over, for instance, into water, or touched by wet hands since they are out of reach73. A timer should be used to switch the heat lamps off, in case one forgets about the equipment73. In a study by Sloane et al.74 the environmental modifications most commonly suggested by nursing staff (n=71) as elements of an ideal bathing area included installing heat lamps and sufficient heating of bathrooms (24.6%) and improved ventilation (13.1%). Another safety issue is formed by hot radiator panels. Hot radiators should be blocked or covered, since people may have difficulty judging the temperature of the device and burn body parts69,75,76. Not only radiators, but also water pipes can cause burns73. When people are seated in a wheelchair, uninsulated piping and drains can cause burns to one’s knees, without the person with dementia immediately indicating he or she is in pain. Radiators in general pose hazards in case of fall incidents8,69. This is illustrated by an example from qualitative research. Mrs. S (aged 83, widowed) has equilibrium disturbances due to Parkinson’s disease. She shows that radiator panels can be a cause of serious injury when falling. During the interview, Mrs. S had several stitches in her forehead after she had fallen against the radiator panel. A solution is to install radiant floor heating instead8,10, which also help occupants to keep ‘cold feet’ warm. The temperature of such systems should not be too high because of the risk of developing oedema in the lower legs. Non-slip sheet rubber or a cushioned low glare vinyl on a bathroom floor can also replace tiles to keep feet warm71. Moreover, wall panels collect dust and thus require regular cleaning. On the other hand, radiators can play an important role in reducing stress. Radiators can be used to warm towels that can be used to pat one dry and to increase the sense of privacy10,72, and help people dry used kitchen towels. Bedrooms should be thermally comfortable72. Nocturnal unrest may be caused by people being too cold or too warm, and can along with medication and fluid intake contribute to people going out of bed to go to the toilet, which brings along the risk of fall incidents77. When (un)dressing, bedrooms should not be too cold70. Cold rooms may even put a physiological strain on older people and may lead to stress in the circulatory system. The aforementioned data on safety in bathrooms can of course, to some extent, be applied throughout the home. 6.3. Services: HVAC systems In many countries, domestic HVAC systems that are often installed for cooling are a luxury item, whereas they are more common in warm countries, including large parts of the USA. As mentioned before, bedrooms should be thermally comfortable72, and cooling provided via air conditioning may contribute to comfortable conditions, and even help prevent nocturnal unrest77. Especially in hot summers, silent air conditioning systems can help people fall asleep, which is both important to people with dementia and their family carers.
99
![Page 113: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/113.jpg)
Also, there are some considerations to the positioning of outlets of HVAC systems. Systems that are installed to increase comfort, may, if not adjusted correctly, be a source of discomfort when people are unable to move aside or complain44. Naked people or those who had just been bathed should not be exposed to a draught, as they are unable to complain of cold, or ask to be moved or covered. Outlets directing air on curtains or papers on tables can cause them to move. Warner73 states that such movement might give the impression to the person with dementia that someone else, even a ghost or a thief, is in the room. Given the uncertainties in comfort needs and possibly large inter-individual spread in preferences, special attention should be given to mass installation of HVAC systems (in particular, cooling) in light of recent hot summers as 2003 and the increased mortality rates of persons with dementia78,79. Dementia is a threat as people may not be conscious of certain risks during a heat wave, and as it can impair a person’s perception of environmental conditions, threshold of suffering, and physiological defence mechanisms79. The protection from mortality by shielding people from heat could go hand in hand with more problem behaviour as people are exposed to cooler air and experience discomfort, and needs further elaboration. 6.4. Services: ventilation systems Adequate ventilation is very important during bathing, in order to let fresh air in and to limit the amount of moisture that can cause unwanted mould growth. Brawley80 mentions that steam-filled bathrooms may be stressful. Automated ventilation systems may be an option to get rid of excess moisture, but can lead to problems of their own. Steinfeld42 describes how his father with dementia got anxious by the noise generated by the fan that activated automatically when the light was turned on. The old man did not understand the source of the noise, as he turned on the light, not a fan. Warner73 too mentions it is important to consider problematic sounds in the bathroom that may be confusing or irritating, including exhaust fans. Ceiling fans should be installed with care, as they may be a source of discomfort (draught, noise) when not adjusted properly, or when people with dementia are unable to move or complain44. Operable windows can cause draughts, which can cause curtains to move. This may lead to the aforementioned problems. 6.5. Services: control systems Control systems form the most important sub-system component within the MIBD when considering the needs of people with dementia. This is illustrated by numerous examples from the qualitative data sets. The next paragraphs will focus on individual control of the environment for people with dementia, and the role of individual control in relation to an altered perception of environmental conditions. 6.5.1. Individual control If cognition allows, thermostats give people the opportunity to control their environment to a certain extent. Marshall53 states that very little attention has been given to technology to control the environment and thus help with problem behaviour. Marshall mentions the potential of technology, for instance, in reducing irritability when people with dementia are hot, by controlling temperature. The importance of temperature control for people with dementia at home is stressed by Gitlin81. According to Brawley10, one could consider installing an independent temperature control for the bathroom as a means to optimally control the bathroom’s temperature. If thermostats cause difficulty in operating, covers can be placed over the controls10,82, or thermostats can be pre-set and disguised76, or simply placed out of sight. Karjalainen83 studied the usability problems with office thermostats and concluded that a substantial amount of information is needed even to use a seemingly simple thermostat. Hence, it is not a complete surprise that thermostats are known to be troublesome for people with dementia. Steinfeld42 states that the system’s delay in providing hot or cold air is one of the problems, since people forget that they manipulated the system’s interface and then think the system is malfunctioning or broken. In his example, the person with dementia overcompensated, and would leave the room with the temperature set all the way up, resulting in extreme indoor temperatures. These high temperatures not only required the
100
![Page 114: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/114.jpg)
thermostat to be set the other way, but were also a source of frustration. Steinfeld42 concludes that passive systems require far less intervention on the part of the resident, and that thermostat controls should only function within the optimal thermal comfort range. Problems concerning how to operate thermostats and radiators knobs are also found from qualitative research. Mrs. N (aged 81, divorced) has a severely damaged short-term memory due to multiple strokes. Mrs. N had a new thermostat, but due to her impaired short-term memory, she does not know how to operate it, even though the family put the instructions next to it on the wall. Her daughter explained:
“The instructions do not stick to her mind. Sometimes, the thermostat is turned on 34°C, and then you think it’s rather hot in here. Today it was set on 18°C and you think it’s rather chilly.”
Mrs. N continued: “O, well, to me it wasn’t very cold.”
Later, the daughter mentioned that the knobs of the radiator panels had been removed by the children.
“Mother turned the radiator knobs instead of using the thermostat, something she never did before. Then [mother] would say: ‘It’s not very comfortable in here, let me turn up the thermostat’, which results in a very hot home and that is why we took off the knobs.”
Mrs. B2 (aged 60), cares for her 65-year-old husband, who suffers from a mix of probable Alzheimer’s disease and vascular dementia.
“Well, we used to have [some problems] with the radiator knobs; then it suddenly is very hot in here. The heating is then put around 30 to 35°C. And then I say: ‘You can not touch it.’ It then feels like you are about to suffocate in here, but well, then he touches [the knob] again, and then it is totally turned off, or he completely takes off the button and so on.”
Mrs. B4 is in her 50s, and cares for her father (aged 80), who is diagnosed with probable Alzheimer’s disease.
“He always turns up the heating very high. And he always says: ‘It is so hot in here’. [The thermostat] is much too small. He turns [the button] but then he cannot see [the display] exactly. He thinks he turns the right way, but he turns it to [its limits]. He simply does not see the little letters, the temperature. So all that needs to be a bit larger, or something like it.”
Mrs. B5 (aged 50) cares for her mother-in-law with an unmentioned type of dementia, aged 87. When asked if her mother-in-law can still operate the heating system:
“Yes. I always think […] it is so warm in here. Older people are cold so quickly. Then [my mother-in-law] says: ‘Please turn it lower.’ But well, I leave within the hour, so it has no use. But it is always very warm.”
When asked if her mother-in-law can still operate the heating system: “Yes, it is easy with a knob like that.”
Galasko84 provides a graphical overview of the correlation between MMSE (Mini Mental State Examination) scores and the ability to perform daily activities. Roughly between MMSE scores of 23 and 16 (early stage dementia), there is a loss of optimal (independent) performance to use the telephone. The ability to use home appliances disappears between scores of 19 to 9 (mid-stage dementia). This forms an important clue as to when people with dementia lose the ability to operate thermostats, as thermostats are part of the normal appliances found in homes too. Thermostats themselves are not explicitly mentioned by Galasko84 though. 6.5.2. Altered perception and individual control Fernie and Femnie52 have also addressed the issue of thermal comfort and thermostats. They state that older adults with cognitive impairments are sometimes unaware of dangerous levels of heat and cold. In order to provide means for personal control, thermostat controls are available with a simple dial marked from ‘cooler’ to ‘warmer’. “Systems should be configured in such a way that the midpoint of the thermostatic stetting corresponds to the middle of the comfort zones and that the extremes lie within the safe physiological temperature limits.” The
101
![Page 115: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/115.jpg)
findings by Fernie and Femnie52 are supported by the qualitative research, particularly the disrupted perception of thermal conditions. Mrs. B10 (aged 53) cares for her 55-year-old husband, who is diagnosed with probable Alzheimer’s disease. He has lost his sense of the seasons. When asked if her husband still believes it is winter:
“Yes. I think he could not switch after winter. He also shuts the windows upstairs every night, even the ventilation grids. Everything needs to be closed. And in turn I open them all. And when I go to bed, everything is closed again. Before he goes to bed, I tell him not to close the windows, since it is so hot. Still, he closes everything. ‘I won’t close them’, is what he says. I believe it is one of those habits. [His dementia has worsened fast during winter], he continues to carry out the same procedures. He kept on his winter coat for long, as well as his gloves. I put away the winter coat for a while, in order for him not to see it anymore so that he won’t ask for it. There is only one coat on the coat rack, else it is too confusing. I put it away too, but he still asks for it. Then I think: ‘Gosh, you’re about to die from heat, and he still wants to wear gloves.’…”
Mrs. B12 (aged 53) cares for her neighbour (female, aged 72), who has probable Alzheimer’s disease.
“[This morning] it was scorchingly hot inside. She even had a colour on her face. I thought to myself that this was one of those situations. But well, I cannot just turn off the heater, because she will notice. So yes, I […] went back home. Then the other neighbour stopped by [telling me that she was not well.] I responded by saying: ‘Didn’t you feel how hot it was inside?’ It really was very hot. So, there probably is nothing wrong after all.” “It is rather chilly, to be honest. She says: ‘It’s cold.’ She’s cold so early. When it is warm, she says the weather is bad, and when it is cold […] everything is wrong. It’s never okay. So perhaps she is really cold. And then I would turn off the heater just because I am hot. I don’t think that is fair, so I leave it on. So if she is really hot, she will turn it lower. Then she will do it herself. I can’t go chasing after her all the time.”
Warner73 and Petersen72 describe another consequence of someone with dementia misusing a thermostat, or uncomfortable temperatures. A person with dementia may start to undress as a solution to perceived warm discomfort. Undressing can be embarrassing both the person with dementia as to family carers and visitors. Some may even consider the ‘exhibitionist’ behaviour as sexual disinhibition -this is a behavioural problem seen in a small percentage of people with dementia7,85- whereas the cause lies in thermal dissatisfaction. In case of cold discomfort, one may put on additional or inappropriate clothing. Warner explicitly states that the carer’s views of a comfortable room temperature may not be the same as those of a person with dementia. Also, there may be other problems concerning how to safely use heating systems and thermostats, illustrated by the following case. Mrs. B8 (aged 56) cares for her 88-year-old mother-in-law with an unmentioned type of dementia. When asked if her mother-in-law can still operate the heating system:
“She still knows well. We recently bought her a torch light. […] I think she went to bed at night and then she could not [read the display] well, and then she took matches. At a given moment, [someone] saw that there were matches near the [thermostat], and [that person] was scared by thought of the curtains that were near. [My mother-in-law] had said that when she went to bed at night, she wanted to check whether she had turned the heating system lower. You don’t do such a thing with matches, you may get a fire. Despite the warning, she kept doing it, and then we bought her the torch light, which now stands on top of the television set. The matches have been removed. Now she uses the torch light; she only needs to take it and shine. You might say: ‘Why don’t you do it with the lights turned on, go check if the heating is turned off then….’ I think she undresses first and only then she thinks about the heating. And instead of turning the lights on… I don’t understand, because the electricity is for free, it is included in the rent. But she just took the matches; I really thought it was scary.”
102
![Page 116: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/116.jpg)
7. Conclusions Integrated building calls for an integrated approach of the building process by considering the needs of the various stakeholders involved. This is not an easy task, as the needs of others may be overlooked in the complex process of constructing or refurbishing buildings, in particular the needs of stakeholders that do not reverberate strongly. People with dementia and their family carers are such a group of stakeholders that gets easily overshadowed. Thermal comfort and the relevant sub-systems -as a property or as part of housing- may impact health of people with dementia as an environmental factor, and may contribute to care support. Stakeholders from the domain of technology should shift their focus from installing and designing building systems to the creation of stakeholder-related values by integrating all sub-systems and user needs. Maximisation of the basic value is attainable and tenable as long as the functional and economical values are taken into account too. In terms of the basic value, older people with dementia may perceive the indoor environment differently due to ageing and atrophy of parts of the brain involved in sensory perception. People with dementia may also respond to deviant or unexpected environmental conditions by expressing certain observable behaviours, as some are not able to complain or to take proper action to improve the environmental conditions. It is important to create increased awareness among family and professional carers about the effects the indoor climate may have on persons with dementia. At the other side of the spectrum, building engineers and installers should be aware that people with dementia are not just seemingly passive receptors of the indoor climate, but may actually respond to it in a very outspoken manner, and that the technology installed may actually pose challenges to the provision of care and well-being. Fully controlled environments or environments where the subject seemingly is in control of the climatic conditions have been shown to pose limitations to people with dementia, which may stem from a broad range in interindividual thermal preferences and experiencing difficulties in working with modern technologies such as control systems. These phenomena may cause ethical dilemmas, including matters of protection and being in control of the direct surroundings. The combined use ICF and the MIBD helps to better understand the needs of the most relevant stakeholders, and makes the total set of answers and solutions to the needs of stakeholders more transparent. Given the results of this study, it is worthwhile to further investigate the impact of the indoor climate on older people with dementia along the lines indicated. Also, the extent to which the perception and sensitivity of people with dementia is different from counterparts without dementia deserves further research efforts. This included the question whether the preference for seemingly uncomfortable conditions stems from physiological changes witnessed in dementia, or stem from the inability to control the environment and the passive acceptance thereof. Until there is more evidence on the needs of people with dementia in relation to the indoor climate and relevant building systems, and as long as no suitable models and standards exist, the design and control of the indoor environment often relies on trial and error. This is captured in a quote by Warner73,p.20:
“Try to discover [the] comfort zone. It’s probably not the same as yours. Consider the home’s temperature, lighting, and sounds [..]. Be extra-sensitive in doing so – even the motion or [draught] from a ceiling fan can be annoying. Your [partner] may not know what is wrong, only feel uncomfortable. [The] only means of expression may be agitation or desperate efforts to escape the discomfort”.
On the other hand, it does not mean that the search for a new comprehensive comfort model that includes persons with cognitive limitations should be ceased. If we all try to understand the implications of dementia on daily functioning in relation to the indoor climate and related building systems, all can try their best to create a comfortable and enabling indoor environment for persons with dementia. Acknowledgements Dr.ir. G.M.W. van Berlo MA is thanked for making qualitative data on technology, ethics and dementia available for this study.
103
![Page 117: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/117.jpg)
References 1. Alzheimer Europe (2006). Dementia in Europe - Yearbook 2006. Alzheimer Europe, Luxembourg
City, Luxembourg 2. van Hoof J, Kort HSM, van Waarde H. Housing and care for older adults with dementia. A
European perspective. Journal of Housing and the Built Environment 2009;24(3):369-390 3. Schmidt Luggen A. Chapter 21. Cognition. In: Ebersole P, Hess P, Schmidt Luggen A, editors
(2004) Toward Healthy Aging. Sixth edition. Mosby, St. Louis, MO, USA. pp 567-599 4. Weaverdyck SE (1991) Assessment as a basis for intervention. In Coons DH, editor. Specialized
dementia care units. The John Hopkins University Press, Baltimore, MD, USA. pp 205-223 5. Sloane PD, Mitchell CM, Weisman G, Zimmerman S, Foley KML, Lynn M, Calkins M, Lawton
MP, Teresi J, Grant L, Lindeman D, Montgomery R. The Therapeutic Environment Screening Survey for Nursing Homes (TESS-NH): An observational instrument for assessing the physical environment of institutional settings for persons with dementia. The Journals of Gerontology Series B: Psychological Sciences and Social Sciences 2002;57(2):S69-S78
6. Ritchie K, Lovestone S. The dementias. The Lancet 2002;360(9347):1759-1766 7. Desai AK, Grossberg GT. Recognition and management of behavioral disturbances in dementia.
Primary Care Companion to the Journal of Clinical Psychiatry 2001;3(3):93-109 8. van Hoof J, Kort HSM. Supportive living environments: a first concept of a dwelling designed for
older adults with dementia. Dementia 2009;8(2):293-316 9. ASHRAE (2004) ANSI/ASHRAE Standard 55-2004, Thermal environmental conditions for
human occupancy. American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc., Atlanta, GA, USA
10. Brawley EC (1997) Designing for Alzheimer’s disease. Strategies for creating better care environments. John Wiley & Sons, Inc. New York, NY, USA
11. Ministry of Community and Social Services (1990) Dementia and activities of daily living. A report on technologies and environmental design that can assist people with Alzheimer disease and related dementias. Ministry of Community and Social Services, Toronto, ON, Canada
12. Rutten PGS (1996) Strategisch bouwen. Inaugural speech. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
13. Holtzclaw BJ. Chapter 14. Environmental safety and security. In: Ebersole P, Hess P, Schmidt Luggen A, editors (2004) Toward Healthy Aging. Sixth edition. Mosby, St. Louis, MO: USA. pp 417-430
14. WHO (2001) International classification of functioning, disability and health. Resolution WHA54.21 of the fifty-fourth World Health Assembly, ninth plenary meeting, agenda item 13.9, 22 May 2001, A54/VR/9. World Health Organization, Geneva, Switzerland
15. van Berlo GMW (1997) Technology, ethics and dementia. Can technology support primary carers in the supervision of persons suffering from dementia? Part 1. Foundation BeNeLux - University, Antwerp, Belgium
16. van Berlo GMW (1997) Technology, ethics and dementia. Can technology support primary carers in the supervision of persons suffering from dementia? Part 2. Foundation BeNeLux - University, Antwerp, Belgium
17. van Hoof J, Kort HSM (2008) Unattended autonomous surveillance in community-dwelling older adults: a field study. In: ISG´08: Proceedings of the 6th International Conference of the International Society for Gerontechnology, 4-7 June, Pisa, Italy. Proceedings published on DVD
18. Sweep MAJ (1998) Technology for people with dementia: user requirements. Report IGT/98.319. Institute for Gerontechnology, Eindhoven University of Technology, Eindhoven, The Netherlands
19. Sweep M, van Berlo A, Stoop H (1998) Technology for dementing persons: A relief for informal carers? In Graafmans J, Taipale V, Charness N, editors. Gerontechnology; A Sustainable Investment in the Future. IOS Press, Amsterdam, The Netherlands. pp 331-336
20. Duijnstee MSH, Blom M (1995) Zorgkompas. Interviewschema om de belasting van familieleden van dementerenden in kaart te brengen. NIZW, Utrecht, The Netherlands [in Dutch]
21. Nies H (2004) Chapter 1. Integrated care: concepts and background, In: Nies H, Berman PC, editors (2004) Integrating services for older people: A resource book for managers. European Health Management Association (EHMA), Dublin, Ireland. pp 17-32
22. Mallory-Hill SM (2004) Supporting strategic design of workplace environments with case-based reasoning. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
23. Brand S (1994) How buildings learn - What happens after they’re built. Viking-Penguin. New York, NY, USA
24. Fanger PO (1970) Thermal Comfort. Danish Technical Press, Copenhagen, Denmark 25. ISO (2005) ISO 7730. Ergonomics of the thermal environment -- Analytical determination and
interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria. International Organization for Standardization, Geneva, Switzerland
26. CEN (2007) EN 15251. Indoor environmental input parameters for design and assessment of energy performance of buildings – Addressing indoor air quality, thermal environment, lighting and acoustics. European Committee for Standardization, Brussels, Belgium
104
![Page 118: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/118.jpg)
27. van Hoof J, Hensen JLM. Thermal comfort and older adults. Gerontechnology 2006;4(4):223-228
28. van Hoof J, Hensen JLM. Quantifying of relevance of adaptive thermal comfort models in moderate thermal climate zones. Building and Environment 2007;42(1):156-170
29. Havenith G. Temperature regulation and technology. Gerontechnology 2001;1(1):41-49 30. Kenney WL, Munce TA. Invited review: Aging and human temperature regulation. Journal of
Applied Physiology 2003;95(6):2598-2603 31. Fox RH, Woodward PM, Exton-Smith AN, Green MF, Donnison DV, Wicks MH. Body
temperature in the elderly: a national study of physiological, social, and environmental conditions. British Medical Journal 1973;1(5847):200-206
32. Tsuzuki K, Iwata T. Thermal comfort and thermoregulation for elderly people taking light exercise. In Levin H, editor. Proceedings of Indoor Air ’02. Monterey, CA, USA: 2002;4:647-652
33. Gomolin IH, Aung MM, Wolf-Klein G, Auerbach C. Older is colder: Temperature range and variation in older people. Journal of the American Geriatrics Society, 2005;53(12):2170-2172
34. Togo F, Watanabe E, Park H, Shephard RJ, Aoyagi Y. Meteorology and the physical activity of the elderly: the Nakanojo study. International Journal of Biometeorology 2005;50(2):83-89
35. Collins KJ, Exton-Smith AN. Thermal homeostasis in old age. Journal of the American Geriatrics Society 1983;31(9):519-524
36. Foster KG, Ellis FP, Dore C, Exton-Smith AN, Weiner JS. Sweat responses in the aged. Age and Ageing 1976;5(2):91-101
37. Worfolk JB. Keep frail elders warm! Geriatric Nursing 1997;18(1):7-11 38. ISO (2005) Technical Specification ISO/TS 14415. Ergonomics of the thermal environment -
Application of international standards to people with special requirements. First edition, 2005. International Organization for Standardization, Geneva, Switzerland
39. Mayer E. Objective criteria for thermal comfort. Building and Environment 1993;28(4):399-403 40. van Hoof. Forty years of Fanger’s model of thermal comfort: comfort for all? Indoor Air
2008;18(3):182-201 41. Sund-Levander M, Wahren LK. The impact of ADL status, dementia and body mass index on
normal body temperature in elderly nursing home residents. Archives of Gerontology and Geriatrics 2002;35(2):161-169
42. Steinfeld E. My father’s room. Alzheimer’s Care Quarterly 2002;3(1):1-6 43. Hyde J. The physical environment and the care of Alzheimer's patients: an experiential survey of
Massachusetts' Alzheimer's units. The American Journal of Alzheimer’s Care and Related Disorders & Research 1989;4(3):36-44
44. Aminoff BZ (2007) Measurement of suffering in end-stage Alzheimer’s disease. Dyonon Publishers, Tel Aviv, Israel
45. Cohen-Mansfield J, Werner P. Environmental influences on agitation: An integrative summary of an observational study. The American Journal of Alzheimer’s Care and Related Disorders & Research 1995;10(1):32-39
46. Cluff PJ. Alzheimer's disease and the institution: Issues in environmental design. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):23-32
47. Fountain ME, Brager GS, de Dear RJ. Expectations of indoor climate control. Energy and Buildings 1996;24(3):179-182
48. ISO (1995) ISO 10551. Ergonomics of the thermal environment -- Assessment of the influence of the thermal environment using subjective judgement scales. First edition. International Organization for Standardization, Geneva, Switzerland
49. Nygård L. How can we get access to the experiences of people with dementia? Suggestions and reflections. Scandinavian Journal of Occupational Therapy 2006;13(2):101-112
50. van den Hoven J. Moral values, design and ICT. Journal for Humanistics 2005;23(6):52-58 51. van Hoof J, Kort HSM, Markopoulos P, Soede M. Ambient intelligence, ethics and privacy.
Gerontechnology 2007;6(3):155-163 52. Fernie G, Femnie B. Technological innovations for individuals with Alzheimer's disease. The
American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):9-14 53. Marshall M. Technology is the shape of the future. Journal of Dementia Care 1995;3(3):12-14 54. Bjørneby S, Topo P, Holthe T, editors (1999) Technology, ethics and dementia: A guidebook on
how to apply technology in dementia care. Sem, Norwegian Centre for Dementia Research, Oslo, Norway
55. van Berlo A. Ethics in domotics. Gerontechnology 2005;3(3):170 56. Calkins MP. Environments for late-stage dementia. Alzheimer's Care Quarterly 2005;6(1):71-75 57. Bakker R. Sensory loss, dementia and environments. Generations 2003;27(1):46-51 58. Judd S, Marshall M, Phippen P, editors (1998) Design for dementia. Journal of Dementia Care,
London, UK 59. Hagen I, Holthe T, Gilliard J, Topo P, Cahill S, Begly E, Jones K, Duff P, Macijauskiene J,
Budraitiene A, Bjørneby S, Engedal K. Development of a protocol for the assessment of assistive aids for people with dementia. Dementia 2004;3(3):281-296
60. Orpwood R, Bjørneby S, Hagen I, Mäki O, Faulkner R, Topo P. User involvement in dementia product development. Dementia 2004;3(3):263-279
105
![Page 119: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/119.jpg)
61. Orpwood R, Gibbs C, Adlam T, Faulkner R, Meegahawatte D. The design of smart homes for people with dementia - user-interface aspects. Universal Access in the Information Society 2005;4(2):156-64
62. Fozard JL, Graafmans JAM, Rietsema J, Bouma H, van Berlo A. (1996) Ageing and ergonomics: the challenges of individual differences and environmental change. In Brookhuis KA, Weikert C, Moraal J, de Waard D, editors. Aging and Human Factors. Proceedings of the Europe Chapter of the Human Factors and Ergonomics Society Annual Meeting 1993. Haren, The Netherlands: University of Groningen, Traffic Research Centre. pp 51-56
63. Docampo Rama M, van der Kaaden F (2002) Characterisation of technology generations on the basis of user interfaces. In Pieper R, Vaarama M, Fozard JL, editors Gerontechnology. Technology and aging – Starting into the third millennium. Shaker Verlag, Aachen, Germany. pp 35-53
64. Adlam T, Faulkner R, Orpwood R, Jones K, Macijauskiene J, Budraitiene A. The installation and support of internationally distributed equipment for people with dementia. IEEE Transactions on Information Technology in Biomedicine 2004;8(3):253-257
65. Gitlin LN, Kyung Chee Y. Use of adaptive equipment in caring for persons with dementia at home. Alzheimer’s Care Quarterly 2006;7(1):32-40
66. CEN (1998) Technical report CR 1752: Ventilation for buildings: design criteria for the indoor environment. European Committee for Standardization, Brussels, Belgium
67. Maslow K, Mace NL (1991) Public policy and dementia care units. In Coons DH, editor. Specialized dementia care units. The John Hopkins University Press, Baltimore, MD, USA. pp 107-125
68. Calkins MP. Designing special care units: A systematic approach -- Part II. The American Journal of Alzheimer’s Care and Research 1987;2(3):30-34
69. Mace NL, Rabins PV (2006) The 36-Hour Day. Fourth edition. The Johns Hopkins University Press, Baltimore, MD, USA
70. Ponzetto M, Scarafiotti C, Ferrario E, Fabris F. (1998) Health promotion for family caregivers of people with Alzheimer’s disease and related disorders. Group leader´s manual. Module 5. Practical consequences of the increased dependency of people with Alzheimer’s disease. http://www.uni-koeln.de/ew-fak/Klein/
71. Brawley E. Alzheimer’s disease: designing the physical environment. The American Journal of Alzheimer’s Care and Related Disorders & Research 1992;7(1):3-8
72. Petersen R, editor-in-chief (2002) Mayo Clinic on Alzheimer’s disease. Practical answers on memory loss, aging, research, treatment and caregiving. Mayo Clinic Health Information, Rochester, MN, USA
73. Warner ML (2000) The complete guide to Alzheimer’s proofing your home. Revised and updated edition. Purdue University Press, West Lafayette, IN, USA
74. Sloane PD, Honn VJ, Dwyer SAR, Wieselquist J, Cain C, Myers S. Bathing the Alzheimer's patient in long term care: Results and recommendations from three studies. The American Journal of Alzheimer’s Disease 1995;10(4):3-11
75. Silverstein NM, Hyde J, Ohta R. Home adaptation for Alzheimer’s households. Factors related to implementation and outcomes of recommendations. Technology and Disability 1993;2(4):58-68
76. Lach HW, Reed AT, Smith LJ, Carr DB. Alzheimer’s disease: Assessing safety problems in the home. Geriatric Nursing 1995;16(4):160-164
77. Blom M, Tjadens F, Withagen P (2000) Weten van vergeten. NIZW, Utrecht, The Netherlands [in Dutch]
78. Vandentorren S, Bretin P, Zeghnoun A, Mandereau-Bruno L, Croisier A, Cochet C, Ribéron J, Siberan I, Declercq B, Ledrans M. August 2003 heat wave in France: Risk factors for death of elderly people living at home. European Journal of Public Health 2006;16(6):583-591
79. Conti S, Masocco M, Meli P, Minelli G, Palummeri E, Solimini R, Toccaceli V, Vichi M. General and specific mortality among the elderly during the 2003 heat wave in Genoa (Italy). Environmental Research 2007;103(2):267-274
80. Brawley EC. Bathing environments: How to improve the bathing experience. Alzheimer’s Care Quarterly 2002;3(1):38-41
81. Gitlin L. Guidelines for environmental adaptations and safety at home. Alzheimer’s Care Today 2007;8(3):278-281
82. Zgola J. Alzheimer’s disease and the home: issues in environmental design. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):15-22
83. Karjalainen S. Why it is difficult to use a simple device: An analysis of a room thermostat. Lecture Notes in Computer Sciences 2007;4550:544-548
84. Galasko D. An integrated approach to the management of Alzheimer’s disease: Assessing cognition, function and behaviour. European Journal of Neurology 1998;5(Supplement 4):S9-S17
85. Harris L, Wier M. Inappropriate sexual behavior in dementia: A review of the treatment literature. Sexuality and Disability 1998;6(3):205-217
106
![Page 120: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/120.jpg)
5
Dementia and the indoor environment van Hoof J, Kort HSM, Duijnstee MSH, Rutten PGS, Hensen JLM Indoor environmental quality and its integrated design for older adults with dementia. Building and Environment 2010;45(5):1244-1261 Chapter 5 is the second chapter of this dissertation concerning the home’s indoor environment, and its contribution to ageing-in-place. It deals with the integration of demand and supply in relation to the indoor environment (indoor air quality, light, and the acoustical environment) and related building systems. The overview, which is based on literature review, is presented in relation to the intrinsic ageing of senses and the responses of people with dementia to certain indoor environmental conditions and their specific needs. Also, aspects of safety and security and care support are included in this chapter. As the indoor environment is the resultant of a building’s subsystems, this paper provides an analysis and evaluation of building-related solutions in order to meet the needs of people with dementia and their family carers. Within the combined framework of ICF-MIBD, Chapter 5 provides an analysis and evaluation of the needs and solutions in relation to the indoor environment. Results are presented as indicators of the basic value, functional value and economic value. Moreover, a synthesis of building-related solutions is provided.
107
![Page 121: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/121.jpg)
108
![Page 122: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/122.jpg)
There are currently about 6 million - mainly older - people with dementia in the European Union. With ageing, a number of sensory changes occur. Dementia syndrome exacerbates the effects of these sensory changes and alters perception of stimuli. People with dementia have an altered sensitivity for indoor environmental conditions, which can induce problematic behaviour with burdensome symptoms to both the person with dementia and the family carer. This paper, based on literature review, provides an overview of the indoor environmental parameters, as well as the integrated design and implementation of relevant building systems. The overview is presented in relation to the intrinsic ageing of senses, the responses of older people with dementia and the impact on other relevant stakeholders through the combined use of the International Classification of Functioning, Disability and Health, and the Model of Integrated Building Design. Results are presented as indicators of the basic value, functional value and economic value, as well as a synthesis of building-related solutions. Results can help designers and building services engineers to create optimal environmental conditions inside the living environments for people with dementia, and can be used to raise awareness among health care professionals about of the influence of the indoor environment on behaviour of the person with dementia. 1. Introduction Senses are the primary interface with our environment. With biological ageing, a number of sensory changes occur as a result of the intrinsic ageing process in sensory organs and their association with the nervous system1. Over time, the accumulated atrophy of sensory receptors substantially reduces the quality of environmental impressions1. The age-related changes to our senses can be an even greater problem when coping with symptoms of dementia syndrome. Dementia is the loss of cognitive function of sufficient severity to interfere with social or occupational functioning. There are about 100 known causes of dementia syndrome, of which Alzheimer’s disease (AD) has the highest incidence. Contrary to popular belief, loss of memory is not the only deficit in dementia. Impairment in activities of daily life and abnormal behaviour are common symptoms1. The intensity of symptoms may differ over time2. Many people with dementia have an altered sensitivity to environmental conditions, which can result in behavioural problems3. These form a serious burden for family carers and and are one of the reasons for long-term institutionalisation. The altered sensitivity seems to stems from the reduction of the individual’s ability to understand the implications of sensory experiences3. This is aggravated by the age-related deterioration in sensory acuity that affects vision and hearing steadily over the years4. Dementia sets special demands to the design of housing facilities and the home’s physical indoor environment and technology5-8. The physical indoor environment comprises the thermal environment, the indoor air quality (IAQ), lighting, and the acoustic environment. In a broader sense, it constitutes all that the individual hears, sees, feels, tastes, and smells9, and all together, these parameters have an impact on whether someone feels comfortable. Comfort is a state of mind, which expresses satisfaction with the total indoor environment or one of its parameters. In case of persons with dementia, this definition is difficult to apply as these persons have an unknown ‘state of mind’, and as these persons might lack the ability to express themselves reliably other than by expressing (dis)satisfaction via certain behaviours7. Tilly and Reed10 state that in case of behavioural problems, environmental techniques should be among the first strategies used as a treatment, rather than beginning with pharmacologic interventions. The home’s physical indoor environment is thus not only the key factor in providing comfort, but might even be a nonpharmacologic factor in managing problem behaviour in dementia. It may thus be a yet largely unexplored factor in reducing carer burden. According to Aminoff11, poor indoor environmental quality may have a role in the suffering of people with dementia.
109
![Page 123: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/123.jpg)
Also, Florence Nightingale12,p.5 was well aware of the influence of the indoor environment on the progress of disease and recovery, and her messages do not go unnoticed13.
“In watching diseases […] in private houses […], the […] symptoms or the sufferings generally considered to be inevitable and incident to the disease are very often not symptoms of the disease at all, but of something quite different – of the want of fresh air, or of light, or of warmth, or of quiet, or of cleanliness, of each or of all of there.”
Van Hoof et al.7 already concluded that nursing literature in general provides clear indications in the form of anecdotal evidence that people with dementia are generally very sensitive to (changes in) indoor environmental conditions and that their perception differs from healthy subjects. Unfortunately, such studies have not yet resulted in the development of practical guidelines for the building sector how to create optimal indoor environments for people with dementia, and protocols for care professionals for signalling building-related behavioural and other health problems. The design and maintenance of the indoor climate is the domain of various professions in the field of construction and technology, not nursing in particular. Good design calls for an integrated approach. The integrated design of buildings in itself is a complex process; involving numerous stakeholders, disciplines and building systems, which aims at creating a range of stakeholder-related values or benefits14. When considering housing for older adults with dementia, it is this specific group of people that is most affected when the actual needs are not considered in the design process and if a building cannot deliver its full potential of values to all users. Therefore, the goal of this paper is to present a literature review of the indoor environment, in particular (i) air and odours, (ii) light and lighting, and (iii) the acoustical environment for older people with dementia in relation to the ageing of senses and dementia. The review focuses on the building-related basic, functional and economic values for the relevant stakeholders and provides a synthesis of building-related solutions. Although the perception of the thermal environment is affected by biological ageing and dementia syndrome7,15-18, the thermal environment is not within the scope of this paper, as van Hoof et al.7 presented a complementary paper on thermal comfort and dementia. 2. Methodology 2.1. Literature study The literature study included both peer-reviewed articles and books on (i) ageing senses and perception of indoor environmental parameters by older adults, and (ii) housing for older people with dementia, (iii) behavioural problems among people with dementia in relation to indoor environmental parameters, and (iv) design guidelines for technology for people with dementia and the installers of such technology. The search included all relevant sources without a limitation to the age (up to October 2009). As persons with dementia are living in a continuum of housing6, including institutional types of housing, such as nursing homes, small-scale group settings, and special care units (SCUs), the literature covers the whole range of living environments. Although the main focus of this paper is on the home environment, literature concerning institutional settings provide important information that are relevant to the own home, and are therefore included in this study. Quotes appearing in qualitative studies, which summarise the essence of a person’s subjective experience, are included in the literature review only for further illustration of certain topics. The literature search was complicated by the large differences in the way problems are conceptualised between nursing/occupational therapy, and the technological sciences. For instance, a different meaning is given to the term physical environment: (i) the indoor environment as a whole, or (ii) the whole of the thermal, visual, and acoustical environment and IAQ. There are also significant differences in the way professionals from both fields approach and perceive dementia syndrome and related health problems and challenges, as well as in the level of conceptual thinking when dealing with these challenges.
110
![Page 124: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/124.jpg)
2.2. Framework for the analysis The data of the abovementioned literature study are structured and presented using a novel combination of two existing frameworks: (i) the International Classification of Functioning, Disability and Health (ICF)19 with its basis in health sciences, and (ii) the Model of Integrated Building Design (MIBD) by Rutten14 that has its origins in building sciences. This combined model was first presented in van Hoof et al.7. Such a combined framework is needed as this study tries to bring together demand and supply, namely the needs of the stakeholders and the solutions offered in the field of construction and technology. 2.2.1. International Classification of Functioning, Disability and Health Within the World Health Organization’s ICF19, health problems are described as well as limitations and/or restrictions that result from diseases and disorders (Figure 1). The overall aim of this classification is to provide a unified and standard language and framework for the description of health and health-related states. ICF has two parts, each with two components: Part 1: Functioning and Disability: a.) body functions and structures, b.) activities and participation, and Part 2: Contextual Factors: c.) environmental factors and d.) personal factors. Each component can be expressed in both positive and negative terms.
Health condition (disorder/disease)
Personal factors
Participation (restrictions)
Body functions and structures
(impairments)
Activities (limitations)
Building system Value - DomainPerformanceTotal design
Housing
Stuff
Site
Structure
Skin
Services
Space-plan
World Health Organization (2001) International
Classification of Functioning (ICF)
Rutten (1996) Model of Integrated Building Design
Bra
nd (
1994
) 6
S’s
safety & securityhealth & comfortambiance / shelter
initial costsoperational costs
changeabilityadaptability
energy & water usematerial usage
emissions / waste
aestheticscompliance with laws
production supportreliability
Basic valueindividual
Economic valueowner
Strategic valuepotential users
Ecological valueglobal community
Local valuecommunity
Functional valueorganisation
Environmental factors
Figure 1. Interactions between the components of ICF by the World Health Organization19, and the integration of the Model of Integrated Building Design by Rutten14. Impairments are problems in body function (physiological functions of body systems) or structure (anatomical parts of the body) such as a significant deviation or loss. Within ICF, the severity of a disorder is described, which provides insight into treatments, medication or adjustments of activities, as well as participation or environmental factors. Activity is the execution of a task or action by an individual. Activity limitations are difficulties an individual may have in executing activities, such as domestic work and personal care. Participation is involvement in a life situation. Participation restrictions are problems an individual may experience in involvement in life situations. Within the ICF, the built or living environment can be seen as an environmental or contextual factor that influences people at the impairment level, and helps people to overcome limitations and restrictions posed by declining physical
111
![Page 125: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/125.jpg)
fitness and cognition. The indoor environment as treated in this paper is characterised by the ICF factors e155 (technical aspects of a private building), e240 (light), e250 (sound), e260 (air quality). These factors may hinder or support the activities or participation of a person with dementia. To analyse the hindrance or support posed by any of these factors, the MIBD is used. 2.2.2. Model of Integrated Building Design Rutten14 presented the MIBD (Figure 1), which provides an overview of sub-aspects of the design process of a building and the desired building performance levels. In this model, a building derives its total value based on the quality of its relationship with the human environment or how well it performs at all of the various human perspectives from which it is viewed, i.e., it fulfils needs. A performance specification describes performance goals for each human-building relationship. Rutten14 suggests that by considering the combined performance of top-level requirements (the six so-called value-drivers that represent various stakeholders), one can determine a building’s total value. This total value is realised through the integrated functioning of a number of building systems on the demand side via a system engineering approach. Such an approach implies that an overview of dominant building systems is made, which in turn are distinguished in several levels in such a way that functional integration is achieved with consideration of the various disciplines involved in the building process. The MIBD tries to achieve value integration, in which all values and stakeholders are integrated in order to achieve functional integration. Within the MIBD, six values and domains are distinguished, namely the basic, functional, local, ecological, strategic, and economical values. In this study, the scope of MIBD is extended to the analysis of living environments. The ICF has a specific connection to three of the values of the MIBD when looking at housing facilities for older adults (which is explained in the following section), and therefore, emphasis will be on the basic value, functional value and economic value. The basic value is determined from a building’s relationship with individual occupants and their sense of psychological and physical well-being. The person with dementia is the most important stakeholder in this section. The family carer is the one who takes care of the person with dementia, and therefore their needs are incorporated as well. The functional value is concerned with how activities and processes (including facilitating care) taking place inside the building are supported. In short, how facilitatory and supportive is a living environment to the activities that take place inside, and the person with dementia and the family carer? The person with dementia should be able to lead the life he/she wants to lead -within the constraints posed by dementia- with the help of a living environment that facilitates for the deficits seen in dementia. The economic value is based on the relationship with people concerned with the ownership and marketing of the building. When the economic value is maximised in relation to the needs of people with dementia and their partners, a home should facilitate ageing-in-place and the provision of care, and should minimise the burden of family and professional care. At the same time, a well-tailored home increases in value on the real estate market. As many aspects of the functional value and economic value are described by van Hoof et al.7, the main focus in this paper is on the basic value. The building itself is made up of several systems or components, the six S’s: stuff, space-plan, services, skin, structure, and site20. These components can be further divided into sub-system components. Each system has a specific set of functions (which can be seen as solutions) that contribute to the optimisation of a certain value. In this paper, various sub-systems such as the floor (structure), façade system and curtains (skin), interior design, floor covering and finishings (stuff), and technological systems and controls (services) are discussed in relation to the needs of relevant stakeholders.
112
![Page 126: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/126.jpg)
2.2.3. Combined model The ultimate goal of this study is the creation of living environments which optimally account for the actual situation of a person with dementia and his/her family carer. In order to retrieve how and to what extent integrated building design can contribute to improving living conditions of people with dementia, a framework for further analysis is necessary. Such a framework should allow for the identification of needs of persons with dementia and other relevant stakeholders, and subsequently should help to identify which types of design solution are present in relation to a specific need. This should then be followed by looking at the fit or gap between the demand and supply (need and solution). Within the scientific domains of construction and health care, such a framework for analysis that matches the mindsets of both scientific domains did not exist. This led to the combined use of ICF and MIBD7. Following from the purpose of this study, the connection between ICF and MIBD is as follows. ICF characterises environmental factors, which may hinder or support activities or participation of a person with a (chronic) disease or impairment. The MIBD has the tools to analyse which environmental factor causes hinder or support for a person with a chronic disease/impairment. With the basic value of the MIBD the individual needs of the stakeholders as classified in ICF terms can be described. Also, hinder or support from environmental factors on the level of the individual can be identified. The functional value of the MIBD deals with answers and solutions to the needs of the organisation (in order to support individuals). This value allows for the identification of hinder or support on the level of an organisation. The economic value of the MIBD deals with the fit between demand and supply (cost-benefit analysis), and in this way hinder or support for individuals on a macroeconomic level is described. From a practical point of view, the novel approach allows for a problem analysis from the viewpoint of the care recipient (i.e., person with dementia), which forms the basis of ICF, and to integrate the building process in such a way that it leads to more fitting and appropriate outcomes for persons with dementia and other stakeholders. The combined model puts the human being (occupant or stakeholder) and his/her needs in the centre, not the building itself. 3. Basic value This section deals with the domain of the basic value, which concerns the needs of the main stakeholder; the individual person with dementia, and in line with this stakeholder, the family carer, in relation to the indoor environment. In this paper, focus is on those body functions that diminish due to biological ageing or dementia syndrome, namely a person’s sensory organs and their association with the human brain, and perception. This analysis is followed by three more in-depth overviews of (i) changes to the olfactory sense in relation to indoor air, (ii) changes to vision and the eye in relation to the visual environment, and (iii) changes to hearing in relation to sounds and the acoustical environment. These changes are related to ageing and to the incidence of dementia. 3.1. Health condition and body functions: ageing, dementia, senses and perception A person’s cognitive functioning can be seen as a path along which information is processed through five types of functioning or phases: sensory phase, perception and comprehension phase, executive phase, expressive phase, and motoric phase9. The age-related sensory changes, involving sensory receptors in the eyes, ears, nose, buccal cavity, and peripheral afferent nerves1, frequently affect the sensory phase9. Apart from the sensory changes, incorrect or malfunctioning visual aids and hearing aids may have a negative effect too9. Sensory losses or impairments, together with cognitive deficits, make it difficult for the individual to interpret and understand the environment (perception and comprehension phase)1,9,21,22. Perception arises from the integration of sensory signals into percepts that give meaning to raw data, which depends both on sensations and on experience1. Dementia is characterised by an impaired identification of incoming stimuli (perceptual deficits), resulting in distorted perceptions23. These can lead to illusions or delusions, which in turn elicit paranoid or aggressive response. Perceptual deficits are present even at early stages of dementia and progressively worsen23. Some people with dementia have hallucinations, which seem real to the person experiencing them and can be frightening to relatives2. According to
113
![Page 127: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/127.jpg)
Turner24, a person with dementia may spend hours fussing at a shadow ‘that has come to life’. Misinterpretations of inappropriate lighting, shadows, and even distorting of floors, walls and furniture are reported25, which can cause people with dementia to fall. Moreover, many people with dementia have short attention spans and are easily distracted23. People with dementia may become increasingly reactive to their environment rather than acting upon it9. Pynoos et al.26 state that persons with AD can be affected by their environment, particularly in the early and middle stages of the disease. These people may be more sensitive to environmental frustrations, including glare and noise, which negatively affect behaviour. Senses can be both overloaded and understimulated leading to a number of problem behaviours or to sensory deprivation2,27. Sensory overload is most often caused by abrupt, unexpected environmental changes. For instance, an abundance of stimuli can cause agitation and anxiety for people with dementia, which further heightens disorientation and confusion28. The abovementioned findings can be illustrated by a number of practice-based studies. Cohen-Mansfield and Werner29 studied associations between behaviours and environmental characteristics in nursing home facilities by observing 24 residents for a period of 9.5 months. They found that (i) pacing increased under normal light conditions and normal temperature during daytime, that (ii) noise levels were associated with a decrease in picking at things and strange movements, and that (iii) requesting for attention was associated with hot temperatures during daytime. Cohen-Mansfield and Werner29 conclude that even though there have been suggestions that persons with dementia manifest agitation as a result of overstimulation in the nursing home, and need a low stimulation and a quiet environment to reduce their agitation, their own results do not support that hypothesis. They state that boredom and lack of activity seemed the true source of agitation. Zeisel et al.30 measured associations between environmental design features of special care units and the incidence of problem behaviours. In facilities where sensory input was more understandable and input was more controlled, residents tended to be less verbally aggressive. According to Lucero31, exit-seeking wandering behaviour in middle-stage dementia residents may be a reaction to discomfort or overstimulation. Price et al.32 also suggest that wandering behaviour may even be a way to escape discomfort. In a study in two dementia clinics, Victoroff et al.33 found that particularly agitation is associated with burden and depression among family carers, whereas no significant association between delusions and hallucinations was reported. The reduction of environmental stressors can help to minimise agitation. Table 1. Cognitive and behavioural problems found among people with dementia2,34-37. illusions hallucinations delusions impaired wayfinding difficulties understanding loss of self-confidence poor judgment inability to recognise impaired sense of time disorientation fear of bathing and water personality changes
agitation suspicion loneliness depression restlessness misplacing items hiding things hoarding rummaging shadowing dependence resistance
aggression withdrawal declining social skills eating inappropriate
items abnormal sexual
behaviour wandering repetitive actions sundowning catastrophic reactions paranoia
Since people with dementia respond on a sensory level, rather than on an intellectual level34, and given some of the cognitive and behavioural problems, extra attention should be paid to the indoor environment in relation to comfort and behaviour. It is, however, important to stress that cognitive impairment is not caused by environmental design, but problem behaviours (Table 1) may be exacerbated by inappropriate housing facilities23. Cohen and Weisman21 stated that one of the design goals for dementia should be to provide opportunities for stimulation and change, carefully regulating sensory stimulation to avoid either deprivation or overload. Bowlby Sifton38 calls for sensory stimulation without stress; the environment of institutional settings should feel, smell, and sound like home. According to Zeisel39, an entire environment should be designed so what people see, hear, touch and smell all give them the
114
![Page 128: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/128.jpg)
same, consistent, information about the environment in a holistic manner to understand the environment around us. Healthy persons balance the good features against the bad to reach their overall assessment of the indoor environment40, and not all aspects are equally important in this subjective averaging process. It is likely that this finding applies to persons with dementia too. Table 2. Age-related sensory changes to smell and taste, vision and hearing, and outcomes. SMELL AND TASTE1 Decreased olfactory cells, may lead to decreased appetite, and decreased protection from noxious odours and tainted food. Possible decrease in size and number of taste buds, may lead to poor nutrition. VISION1,43 Lid elasticity diminished, leading to pouches under the eyes. Loss of orbital fat, lead to excessive dryness of eyes. (i) Decreased tears, (i) arcus senilis becomes visible, (iii) sclera yellows and becomes less elastic, (iv) yellowing and increased opacity of cornea, may lead to a lack of corneal lustre. (i) Increased sclerosis and rigidity of the iris, and (ii) a decrease in convergency ability, lead to presbyopia. Decline in light accommodation response leads to lessened acuity. Diminished pupilary size leads to a decline in depth perception. Atrophy of the ciliary muscles (holding the lens) leads to a diminished recovery from glare. Night vision diminishes leading to night blindness. Yellowing of the lens may lead to a diminished colour perception (blues and greens). Lens opacity may develop leading to cataracts Increased ocular pressure may lead to seeing rainbows around lights Shrinkage of gelatinous substance in the vitreous, may lead to altered peripheral vision. Vitreous floaters appear. Ability to gaze upward decreases. Thinning and sclerosis of retinal blood vessels. Atrophy of photoreceptor cells. Degeneration of neurons in visual cortex. HEARING1 (i) Thinner, drier skin of the external ear, (ii) longer and thicker hair in the external ear canal, (iii) narrowing of auditory opening, (iv) increased cerumen, (v) thickened and less resilient tympanic membrane, and (vi) a decreased flexibility of the basilar membrane, may result in difficulty hearing high-frequency sounds (presbycusis). (i) Ossilar calcification, and (ii) diminished neuron, endolymph, hair cells and blood supply to inner ear and auditory nerve may lead to a gradual loss of sound. (i) Degeneration of spiral ganglion and arterial blood vessels, and (ii) weakness and stiffness of muscles and ligaments may impair hearing.
3.2. Air and odours Indoor air quality deals with the content of indoor air that could affect health and comfort of building occupants41. IAQ is related to building materials, ventilation, and activities carried out in the home. Our awareness of the presence of airborne chemicals in our environment relies on two sensory systems: olfaction and chemesthesis or the common chemical sense42. The first sense gives rise to the perception of odours, and the second gives rise to the perception of pungent sensations42. Olfaction is closely linked to the sense of taste. These senses intertwine to provide links to the environment, and allow appreciation of good tastes and smells1. 3.2.1. Ageing-related changes in olfaction Age-related losses of smell and fine taste normally begin after the age of sixty (Table 2)1. Age-related sensory changes to smell and taste include a decrease in the number of olfactory cells, and a possible decrease in size and number of taste buds. These changes may lead to decreased appetite and poor nutrition, as well as a decreased protection from noxious odours and the intake of tainted food.
115
![Page 129: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/129.jpg)
In the human forebrain, the olfactory bulb is a structure involved in olfaction, the perception of odours. Changes in smell are attributed to loss of cells in this bulb, and a decrease in the number of sensory cells in the nasal lining1. In addition, a history of upper respiratory infections, exposure to tobacco smoke and other toxic agents negatively influence olfactory function, as well as changing levels of hormones. There is strong evidence that smell perception declines markedly with age1. 3.2.2. Dementia-related changes in olfaction The olfactory sense in older adults with dementia is affected by ageing and specific pathologies. This directly influences the perception of indoor air quality and smells, and poses restrictions to the way IAQ is maintained. Moreover, the specific lifestyle of older people with dementia influences the IAQ. Olfactory dysfunction is a common feature in several neurodegenerative disorders, including AD, Down’s syndrome, and Parkinson’s disease. Neurofibrillary tangles and senile plaques in the olfactory system have been reported in AD44. Researchers even purport that the inability to recognise smells, combined with the lack of awareness that olfactory sense is impaired, may be useful as a predictor for AD1. There is other research that suggests the impairment is primarily in odour identification, not detection45. Diesfeldt46 mentions that in some people with AD the ability to smell decreases before memory disturbances become noticeable. Only in AD, the elementary odour detection is lowered, i.e., differences between odours. All types of dementia affect ‘meaningful odour recognition’, for instance, that a certain odour smells of fruit. In people with AD, this association problem was related to any particular odour. People with semantic dementia had difficulty with all associative tasks, even if these tasks were not related to any particular odour. Persons with this type of dementia do no longer recognise the meaning of words and objects, and may perceive inedibles as edible. The olfactory bulb is linked to the thalamus-cortical region and the limbic system via the olfactory tract47, parts of the brain affected by AD. The limbic system affects behavioural reactions associated with smell, whereas the thalamus-cortical region is responsible for the conscious perception and fine discrimination of smell47. The sense of smell often seems to have a strong hold on human emotions, because of the connection to the limbic system, which is associated with emotion and memory processing34,47. 3.3. Light and lighting Of all indoor environmental factors in the homes of older adults with dementia, lighting is the most important and promising in terms of improving health and quality of life. The best-known benefits of lighting are visual, i.e., being able to see, and prevention of falls48. Falls in dementia result from cognitive and behavioural disorders, visuospatial impairment and motor apraxia, gait and balance disturbances, malnutrition, adverse effects of medication and fear of falling48,49. Moreover, lighting plays an essential role in managing numerous biological and psychological processes in the human body, including disturbed sleep patterns. 3.3.1. Ageing-related changes in vision Ageing negatively affects vision. In general, the performance of the human eye deteriorates at early age. Many people aged 45 and over wear glasses to compensate for impaired vision due to presbyopia, the significant loss of focussing power. Older people are known to have vision impairments stemming from the normal ageing process, which include (i) an impaired ability to adapt to changes in light levels, (ii) extreme sensitivity to glare, (iii) reduced visual acuity, (iv) restricted field of vision and depth perception, (v) reduced contrast sensitivity, and (vi) restricted colour recognition34. Changes in vision do not happen overnight, and depend on the progress of age. After the age of 50, glare and low levels of light become increasingly problematic. People require more contrast for proper vision and have difficulty perceiving patterns. After the age of 70, fine details become harder to see, and colour and depth perception may be affected34,50. An overview of age-related changes to vision is given in Table 2. Apart from the influence of ageing, there are pathological changes leading to low vision and eventual blindness, such as cataract, macular degeneration, glaucoma, and diabetic retinopathy50,51.
116
![Page 130: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/130.jpg)
Impaired vision does not only influence independence, but also has severe implications to social contacts, which in term can lead to loneliness. Research by Aarts and Westerlaken52 in The Netherlands has shown that light levels, even during daytime, are too low to allow for proper vision and biological effects, even though the semi-independently living older persons were satisfied with their lighting conditions. A similar study was carried out among 40 community-dwelling older people in New York City by Bakker et al.53. Even though nearly all of them had inadequate light levels, subjects rated their lighting conditions as adequate. 3.3.2. Dementia-related changes in vision Dementia has a severe impact on the human visual system, and the effects of biological ageing often aggravate the visual dysfunctions stemming from dementia. Persons with AD frequently show a number of visual dysfunctions, even in the early stages of the disease54. These dysfunctions include impaired spatial contrast sensitivity, motion discrimination, and colour vision, as well as blurred vision. Altered visual function may even be present if people with dementia have normal visual acuity and have no ocular diseases54. Another dysfunction is diminished contrast sensitivity, which may exacerbate the effects of other cognitive losses, and increase confusion and social isolation50. Impaired visual acuity may be associated with visual hallucinations55. According to Mendez et al.56, persons with AD have disturbed interpretation of monocular as well as binocular depth cues, which contributes to visuospatial deficits. The impairment is largely attributed to disturbances in local stereopsis and in the interpretation of depth from perspective, independent of other visuospatial functions. 3.3.3. Ageing and non-visual effects of light Moreover, light plays a role in regulating important biochemical processes, immunologic mechanisms, and neuroendocrine control (for instance, melatonin and cortisol), via the skin and via the eye43,57. Light exposure is the most important stimulus for synchronising the biological clock58, suppressing pineal melatonin production59, elevating core body temperature60, and enhancing alertness60,61. The circadian system, which is orchestrated by the hypothalamic suprachiasmatic nuclei (SCN), influences virtually all tissue in the human body.
Figure 2. Simplified scheme of pathways by which light, melatonin, and activity rhythms act as Zeitgebers. Taken from Waterhouse et al.64,p.110. In the eye, light activates intrinsically photosensitive retinal ganglion cells62, which discharge nerve impulses that are transmitted directly to the SCN63 (Figure 2), and together with the photoreceptors for scotopic and photopic vision participate in mammalian circadian phototransduction. These ganglion cells65 have a different action spectrum from rods and cones, and show short-wavelength sensitivity66. In older adults, the orchestration by the SCN requires ocular light levels that are significantly higher than those required for proper vision are. An additional problem is formed by the ageing of the eye that leads to opacification and yellowing of the vitreous and the lens, limiting the amount of bluish light reaching the retinal ganglion cells43. This can be as much as a 50% reduction in 60-year olds compared to 20-year olds. Many older adults are not exposed to high enough illuminance levels, due to
117
![Page 131: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/131.jpg)
decreased lens transmittance, poorly-lit homes (up to 400 lx), and the short periods of time spent outdoors52,67. Light also has an effect on the pineal gland that secretes melatonin. The secretion of this hormone depends on the availability of (day) light. Sufficient amounts of light (particularly the lower wavelength part of the spectrum)66,68, suppresses melatonin secretion, while during darkness, melatonin secretion is stimulated. This melatonin secretion is related to the exposure to light during daytime69,70. A high exposure to light during daytime, increases the nocturnal secretion of melatonin71-73, and makes older adults less sensitive for light exposure at night, for instance, when going to the toilet. Being exposed to light at night may reduce the level of melatonin and therefore reduce the time it takes to fall asleep. Exposure to light during daytime should in turn positively impact sleep, both quantitatively and qualitatively. Sufficient daily sleep is indispensable for restoration of body and brain. A lack of good sleep slows reaction time, decreases alertness and attention, and affects mood and performance in a negative way74. About 40 to 79% of older people suffer from chronic sleeping problems and insomnia52. Changes in the timing of many circadian rhythms in the body are related to that of sleep. The lessening of the amplitude of the 24-hour rhythm in body temperature means that the lowering of body temperature in the evening is less pronounced. This lessening can be a random combination of a decreased functioning of the body clock, decreased physical activity during daytime, and a decreased nocturnal secretion of melatonin64. 3.3.4. Dementia and non-visual effects of light In people with AD, the SCN are affected by the general atrophy of the brain, leading to nocturnal restlessness due to a disturbed sleep-wake rhythm, and wandering64,75. The timing of the sleep-wake cycle can show a far wider variation; times of sleep and activity can vary substantially from day-to-day, or can be temporarily inverted64, which has great implications to both the person with dementia as its family carer. Restlessness and wandering form a high burden for carers, and are among the main reasons for institutionalisation67,76,77. Marshall78 stated that lighting technology deserves more attention as a means to help with managing problem behaviour. Hopkins et al.79 have suggested a relation between illuminance levels and this type of behaviour before, and today light therapy is used as a treatment to improve sleep in people experiencing sundowning behaviour80. It is hypothesised that high-intensity lighting, with illuminance levels of well over 1,000 lx, may play a role in the management of dementia. Bright light treatment with the use of light boxes is applied to entrain the biological clock, to modify behavioural symptoms, and improve cognitive functions, by exposing people with dementia to high levels of light (for instance, Lovell et al.81, Graf et al.82, Thorpe et al.83, and Dowling et al.84), requiring supervision to make them follow the total protocol and may cause a bias in the outcomes of the therapy. The results of bright light therapy on managing sleep, behavioural, mood, and cognitive disturbances show preliminary positive signs, but there is a lack of adequate evidence obtained via randomised controlled trials to allow for a widespread implementation in the field85-87. Another approach that is gaining popularity, both from a research, ethical and practical point of view, is to increase the general illuminance level in rooms where people with dementia spend their days to a high level50. Studies by Rheaume et al.88, van Someren et al.89, Riemersma-van der Lek et al.90, and van Hoof et al.91,92†††, that exposed institutionalised people with dementia to ambient bright light through ceiling-mounted luminaires showed short-term and long-term effects as lessened nocturnal unrest, a more stable sleep-wake cycle, possible improvement to restless and agitated behaviour as well as sleep, increased amplitude of the circadian body temperature cycle, and a lessening of cognitive decline. A cluster-unit crossover intervention trial by Sloane et al.93 on the effects of high-intensity light found that nighttime sleep of older adults with dementia improved when exposed to morning and all-day light, with the increase most prominent in participants with severe or very severe dementia. Hickman et al.94 studied the effects on depressive symptoms in the same setting as Sloane et al.93, persons with dementia. Their findings did not support the use of ambient bright light therapy as a treatment for depressive symptoms. To date, it is unknown how long
††† Chapters 6 and 7 of this dissertation.
118
![Page 132: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/132.jpg)
effects of bright light last and how to predict which persons respond positively to light treatment76. More relevant is how to implement these preliminary results in the home situation, for instance, when trying to improve vision. 3.4. Noise and room acoustics The sense of hearing is related to the perception of sounds. When considering noise and room acoustics, the most important parameters are sound pressure level and reverberation time. These parameters are crucial in creating supportive environments, both in terms of supporting hearing, as well as reducing negative effects associated with sounds and noise. 3.4.1. Ageing-related changes in hearing In addition to sight, one of the first senses to be affected by age is hearing, and this begins to occur by the age of 40 (Table 2). High-frequency pitches are the first to become less audible, with a lesser sensitivity to lower frequency pitches1. The ability to understand normal conversation is usually not disturbed at first, but when combined with the presence of background noise comprehension may be affected. In the United States, about one third of the community-dwelling older people are hearing impaired1. A laboratory study from Japan95 involving 20 younger and 20 older subjects using various speech tests showed that speech recognition (intelligibility) scores of the older listeners were 25% lower than those of young adults for any kind of speech test. The effect of this difference is equal to the 5 dB increase of ambient noise. 3.4.2. Dementia-related changes in hearing Apart from the effects of biological ageing, there are no reported effects of dementia on hearing, apart from the occurrence of acoustical hallucinations (Table 1). Most older people lose hearing ability, and can compensate by a combination of lip reading, increased attention, and extrapolation from the parts of sentences they can hear96. For a person with dementia, this compensation becomes problematic, and that is why it is important to minimise meaningless background noise97. It can be hard to sort meaningless cues and stimuli from those that are meaningful or important97. Hearing aids may magnify background noise. People with dementia often cannot learn to compensate for this2 or perceive the sounds as offensive34. Burton and Torrington28 mention that sudden loud noises often frighten people with dementia. Hearing aids are crucial for people with hearing loss, since they contribute to communication abilities that are already negatively affected by dementia. They may prevent a state of sensory deprivation98. In institutional settings, noise has been associated with poor sleep, reduced ability to perform tasks, distraction from completing a task, agitation and fear3,11,99. In a qualitative study by Hyde96 involving Alzheimer’s facilities staff, one unit director advised the following in relation to unnecessary auditory stimulation: “Listen to the noise level. The phone ringing, the intercom, it’s a necessary evil, but they think God is talking to them.” It is unclear whether this apparent confusion is a source of fear or other negative feelings, or reassurance, or a combination of both. Apart from the confusion, sounds may cause a wide range of negative side effects. Often noise is an accepted part of the routine of people with dementia11. 4. Functional value The domain of the functional value deals with the needs of the organisation. Within this domain, production support and reliability play a role as performance indicators. This can be both the impact on care giving processes of the family or professionals, as well as the production processes within the domains of care, housing and technology. Based on the needs of the organisation and those of their clients, raising the level of awareness of the stakeholders of the impact the indoor environment may have on persons with dementia is of the utmost importance. The requirements within the domain of the functional value have a significant overlap with those stated in relation to thermal comfort7, in particular the aspects related to the professionals from the technological domain. Therefore, only some of the highlights are described.
119
![Page 133: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/133.jpg)
4.1. Raising awareness Relevant organisations, family and professional carers need to be made aware of the consequences the indoor environment can have on the behaviour and functioning of person with dementia care processes. Also, increased awareness should be raised on how the good design and implementation of relevant building services and systems can lead to more efficiency in dementia care processes. Even though dementia can significantly change how people interpret what they sense, the extent is highly individual and in constant flux, depending on neuropathological changes, sensory loss, time of day, medication management, and the social and physical environment100. All relevant actors should be aware of this phenomenon too. Raising awareness is also needed in terms of design and the operation of technology. The sensitivity of people with dementia stretches beyond sensitivity for actual physical conditions, for instance, to operational factors. Invasive technology, like lights switching on seemingly spontaneous, automated movement of curtains, and noisy ventilation systems can cause distress. Systems installed with the best of intentions, which are unfamiliar, are not understood by people with dementia and should therefore be left out of a dwelling. The complexity of technology can have an unwanted disabling effect on the person with dementia101. Bakker100 states that at times, the loss of function of residents with dementia is incorrectly blamed on dementia, when inappropriate design is at the basis. This is the point when specialised knowledge from designers and installers is wanted. Tilly and Reed102 provide an example of wrong design, applied to alarm systems used to alert the staff when a wandering resident is attempting to leave the facility. One should choose the system that is the least intrusive and burdensome. For some, alarm systems are a burden and may even lead to agitated behaviour, as evidenced by the resident’s protests or attempts to remove it. Furthermore, alarms that are audible to the resident may discourage any movement. The implementation of a seemingly good solution may turn out detrimental. Table 3. Illuminance levels per room104. Generally, the colour temperature of the light sources should be between 2,700 and 3,000 K, in accordance with personal preferences. Recommendations by De Lepeleire et al.105 based on a 55% increase of levels stated in the European Standard Lighting of workplaces are included in the comments. Location Illuminance [lx] Comments Living room 200-300 Install extra light sources to create the desired
atmosphere Living room, near seat
1,000-2,500 At places where a great deal of time is spent, lighting for biological stimulation could be installed. The colour temperature should be between 6,500 and 8,000 K. A chair could be placed near the window.
Dining room (table level)
500-1,000 For eating, reading, leisure
Hobby and work space
500-1,000 De Lepeleire et al.105 recommend about 775 lx
Kitchen 300-500 Task illumination for food preparation, at least 1,000 lx Bathroom and toilet
> 200
Bedroom 100-300 Bedside light, about 1,000 lx Corridors and storage rooms
100-200 Extra night lights (preferably red lights)80,104. De Lepeleire et al.105 recommend 200 to 300 lx during day, and 50 to 80 lx during the night.
Stairs > 200 Optional: install handrails that emit light. De Lepeleire et al.105 recommend 150 to 230 lx for stairs.
4.2. Standards and guidelines Current standards and guidelines for indoor environmental quality should be applied with caution when working with persons with dementia. Current standards and guidelines do not provide sufficient data on this group of people, and it seems that the demands set to the indoor environment should be a lot stricter. In general, the quality of the indoor environment may be expressed as the extent to which human requirements that have great interindividual
120
![Page 134: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/134.jpg)
variety are met. Some people are known to be rather sensitive to an environmental parameter and are difficult to satisfy103, and this seems to be particularly true for people with dementia. Other relevant building regulations tend to be primarily written for the needs older people with a physical impairment, rather than for people with mental of cognitive impairments. When recommendations are made for people with dementia, even these can have shortcomings. The light levels recommended in Table 3, for instance, are generally higher than the 300 to 500 lx recommended by Marx et al.106 for institutionalised people with dementia. New guidelines and standards that explicitly include older people with dementia can also be used to raise the aforementioned awareness among professionals and managers. Apart from the abovementioned standards and guidelines, used for the design of buildings, indoor environmental parameters and accompanying technology are also applied in the field of multi-sensory stimulation or ‘snoezelen’107-110, a therapy developed in The Netherlands around 1975111. Multi-sensory stimulation is applied in a special room using numerous tools that offer sensory stimulation by light, sound, touch, smell and taste108-110. Apart from the therapeutic goals to make contact110, multi-sensory stimulation also aims to offer pleasurable sensory experiences tailored to the needs of older adults with dementia110. Although Chung and Lai112 have concluded in a Cochrane review that there is not evidence showing the efficacy of this therapy, multi-sensory stimulation is applied worldwide and appears in numerous handbooks and guidelines. 5. Economic value The domain of the economic value deals with the fit between demand and supply of solutions and cost-benefit analysis of improved indoor environments. Within the domain of the economic value, initial costs and operational costs, as well as maintenance, play a role as performance indicators. Apart from direct economic benefits to society that are the results from an integrated building design (macro level), there are the human benefits to individuals (micro level). 5.1. Raising awareness One of the requirements for maximising the economic value is making all family and professional carers (and for that matter, managers in the health care sector too) aware about the role indoor environment might play in relation to behaviour and well-being. These persons can be made familiar through training as well as brochures, websites, handbooks, standards and guidelines, which have been shown to be lacking or incomplete at present. Training is costly and poses financial restrictions in the start-up phase. The results of training however, may cut down on costs for the processes of facilitating care. Raising awareness can lead to emancipation among carers and persons with dementia alike, which in turn should lead to requesting supportive indoor environments. In addition, managers in health care have an important role to play in the creation of such indoor environments. 5.2. Design The economic benefits of good indoor environmental quality can also be threatened by new or emerging views in terms of the design of the home environment, such as the example of new healthy lighting systems provided by Calkins113. Such systems have obvious benefits to the residents of institutional settings. Calkins113 stated that there is a shift away from discrete behaviours and single environmental ‘solutions’ to a more holistic approach. In her view, this represents a step forward in terms of understanding the larger, more complex set of relationships found in dementia care settings. Calkins113 continues by providing an example of this more holistic approach, namely the creation of so-called home-like care environments, which include the absence of ceiling-mounted fluorescent lighting. At the same time, fluorescent lighting is used in healthy lighting systems88-92, which have non-visual health benefits to the residents unlike the more home-like and dim incandescent lights that provide a pleasant atmosphere. Another issue related to providing solutions to existing demand is the availability of specialised technology. For instance, there are few commercially available solutions to assist
121
![Page 135: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/135.jpg)
people with dementia at home. One should keep in mind that what is available on the marketplace is not the same as what is or may be possible in practice114,115. 5.3. Costs There are economic aspects related to the creation of supportive indoor environments, which manifest in terms of benefits related to ageing-in-place and the reduced need for institutional care, the lessened burden on family carers, and the costs of home modifications. Duijnstee116 showed that practical housing can decrease the objective burden of family carers, and thus lead to human benefits, which also represent an economic value. Most family carers have an intrinsic motivation to provide care for a relative, but it is not a free choice. Moreover, many family carers are older adults themselves, and health problems may arise from the stresses of caring for a loved-one, in particular, when problem behaviours are observed. When family carers can no longer keep up with providing care due to all the stressors, people with dementia are institutionalised. New initiatives in the field supportive housing may offer opportunities for delaying the need for institutional care, which has economic consequences for both society as a whole as on an individual level. It was shown that for The Netherlands, € 6,000 to € 16,000 could be saved per person, depending on the health status, if people aged-in-place instead of being institutionalised (2004 price level)117. The human benefits of supportive living environments include increased well-being among people with dementia, support of family carers in the provision of care, as well as the opportunity that family carers do no longer have to cope with building-related or building-induced problem behaviours of their loved-ones. If people with dementia are able to age-in-place, due to improved indoor environmental quality and building systems, instead of living in an institutional setting, this goes together with a reduction of costs for society. Van Hoof et al.6 provide an overview of the financial and societal costs of care for people with dementia for The Netherlands. The costs of informal care in 2005 were an estimated € 4,700 per person with dementia per annum. The direct costs of dementia care were about € 14,200 per person with dementia per annum. The costs per person can vary considerably, even within the more developed countries and when considering the net domestic purchase power. The availability of supportive home environments, in combination with adequate professional care, services and telehealth, is not only much wanted by people in the community, but also a necessity from an economic point of view114,115. 6. Synthesis of building-related solutions in the domain of the basic value In the preceding sections basic value indicators were analysed which result from the needs of people with dementia. There are many building-related solutions available within the domain of the basic value that deal with the symptoms of dementia: impairments in activities of daily life, behavioural problems, and loss of cognitive functions. These solutions in relation to (i) air and odours, (ii) light and lighting, and (iii) the acoustical environment (Table 4) are described per building system (Brand’s six S’s20: stuff, space-plan, services, skin, structure, and site) in the following paragraphs. The majority of the solutions presented are generic and may help the total population of persons with dementia, whereas other solutions provide an answer in specific cases that depend of the health status, home environment and financial situation of the person with dementia. In practice, needs of the persons with dementia may vary due to differences in the stage of dementia, the incidence of problem behaviours, and health effects of biological ageing. All the aforementioned factors play a role when choosing and implementing a certain solution. 6.1. Air and odours There are many building-related solutions available to the homes of older people with dementia to deal with odours and indoor air quality.
122
![Page 136: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/136.jpg)
6.1.1. Stuff Building-related solutions on the stuff level can be found in the field of floor covering and upholstery. Aromatherapy activities are part of this system, as well as artificial deodorisers. Unpleasant smells (urine, strong cleaning products) are known to cause overstimulation118, and should be removed from the home as much as possible. Textile floor covering and furniture upholstery, often chosen to create a home-like atmosphere, should be easy to clean when dealing with incontinence and leakage. At the same time, textile floor covering is also recognised as a source of volatile organic compounds, and is a dust reservoir containing biological contaminants like mites and moulds119. The sense of smell often seems to have a strong hold on human emotions, because of the connection to the limbic system, which is associated with emotion and memory processing34,47. Smells can therefore be used for reminiscing and aromatherapy activities. Aromatherapy has emerged as promising treatment for behavioural problems in dementia in institutional settings, since it is claimed to reduce stress and affect mood. Previous studies have found improvement in agitation, and motor behaviour107. During bathing, people with dementia could enjoy the smell of nice soap or bathwater with fragrance100,120, which can alleviate stress. Perfumes as well as non-poisonous plants and flowers in and around the home can be used to alleviate stress, for example by reminiscing. People with dementia may be unable to recognise inedibles, and in some cases may even try to eat these items not intended as food. This probably results from damage to perception and memory2,120. Artificial deodorisers are no substitute for good ventilation, and may even pose dangers, for instance, when people with dementia mix up a bowl of potpourri for savoury snacks36. 6.1.2. Space-plan As smells can be used for reminiscing, pleasant odours can be a positive aspect of the home. Olfactory cues could even serve as orientation aids121. Some even claim that smells can improve wayfinding, for example, locating the kitchen via cooking smells23. Olfactory sense activation, for instance, by exposing people to cooking smells from the adjacent kitchen2,118,122, improves appetite and food intake by stimulating the salivary glands45, and hence can result in weight gains. 6.1.3. Services Building-related solutions on the services level can be found in the field of ventilation systems and alarm systems. A study by Coelho et al.123 revealed that many older adults (without dementia) use many different cleaning products, spend a long time cooking (moisture and combustion products), and spend a great deal of the day indoors. This exposes them to many indoor air pollutants. Homes for older people with dementia can greatly benefit from an adequate ventilation system121. At the same time, cooking odours can have beneficial effects and should not all be taken out through the hood. Ventilation is very important during bathing, in order to let fresh air in and to limit the amount of moisture that can cause hazardous mould growth. Brawley124 mentions that during bathing, steam-filled rooms may be stressful for people with dementia. Automated ventilation systems may be an option to get rid of excess moisture, but can problems of their own. Steinfeld125 describes how his demented father got anxious by the noise generated by the fan that activated automatically when the light was turned on. The old man did not understand the source of the noise, as he turned on the light, not a fan. The anxiety was thought to increase by the acoustics of the bathroom. In this example, improvements to IAQ can lead to problems caused by inexplicable and loud sounds. Smell and fine taste serve as a warning of environmental hazards1. A decreased sensitivity to odours may be dangerous for the older person, and can contribute to the inability to detect the odour of leaking gas, a smouldering cigarette, or spoilt food or something inappropriate1,36.
123
![Page 137: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/137.jpg)
T
able
4. B
asic
val
ue n
eeds
and
thei
r re
latio
n to
bui
ldin
g sy
stem
s/so
lutio
ns (
econ
omic
val
ue).
Cur
tain
s ca
n be
par
t of s
tuff
and
ski
n, d
epen
ding
on
thei
r fu
nctio
n.
Bas
ic v
alu
e n
eed
s B
uil
din
g s
yste
ms
Co
mm
ents
S
tuff
S
pac
e-p
lan
S
ervi
ces
Str
uct
ure
S
kin
Furniture
Floor covering
Curtains
Other items
Ventilation systems
Lighting
Alarm systems
Controls
Electronic equipment
Sanitary equipment
Other services
Floors
Ventilation systems in façade / operable windows
Curtains, shades and blinds
Windows / glass
Od
ou
rs -
IAQ
Nee
d fo
r sa
fety
-Im
paire
d od
our
iden
tific
atio
n
1
1. In
stal
l gas
ala
rms,
sm
oke
and
fire
dete
ctor
s. A
larm
s on
frid
ge
Nee
d fo
r sa
fety
–
Cog
nitiv
e im
pairm
ent
1
2
1. A
void
art
ifici
al d
eodo
riser
s /
potp
ourr
i 2.
Inst
all g
as a
larm
s, s
mok
e an
d fir
e de
tect
ors.
Ala
rms
on f
ridge
Inco
ntin
ence
-
Impa
ired
odou
r id
entif
icat
ion
1 2
3
1. E
asy
to c
lean
uph
olst
ery
2. E
asy
to c
lean
flo
or c
over
ing
3. C
oncr
ete
slab
or
sub-
floor
may
be
seal
ed
Nee
d fo
r ve
ntila
tion
1 2
3
4
1. P
reve
nt c
urta
ins
from
mov
ing
in d
raug
ht (
susp
icio
n)
2. P
reve
nt it
ems
as p
aper
fro
m m
ovin
g in
dra
ught
(su
spic
ion)
3.
Sile
nt a
utom
ated
ven
tilat
ion
syst
ems
(low
noi
se)
4. S
mal
l ope
ning
s to
pre
vent
peo
ple
from
clim
bing
thro
ugh.
Loc
ks o
n w
indo
ws.
E
asy
to r
each
grid
s/w
indo
ws
Olfa
ctor
y st
imul
atio
n an
d w
ay-
findi
ng
1 2
3
1. O
pen
kitc
hen.
Stim
ulat
ion
of a
ppet
ite
2. P
reve
nt ‘g
ood’
odo
urs
to b
e re
mov
ed v
ia h
ood
or v
entil
atio
n sy
stem
3.
Pre
vent
‘goo
d’ o
dour
s to
be
rem
oved
via
hoo
d or
ven
tilat
ion
syst
em
Lig
ht(
ing
)
Nee
d to
avo
id
glar
e 1
2 3
4
5
6
7
8 1.
Mat
uph
olst
ery
and
non-
polis
hed
furn
iture
2.
Avo
id s
hiny
flo
or c
over
ing
3. T
ype
of c
urta
in fa
bric
may
influ
ence
gla
re
4. In
stal
l con
sist
ent l
ight
ing.
Do
not
low
er li
ght l
evel
s 5.
Bew
are
of a
utom
ated
gla
re c
ontr
ol (
blin
ds).
May
cau
se p
robl
em b
ehav
iour
. 6.
Avo
id p
olis
hed
floor
s 7.
Inst
all c
urta
ins,
sha
des
and
blin
ds
8. S
peci
al n
on-g
lare
gla
zing
. M
ay le
ad t
o di
stor
ted
colo
ur p
erce
ptio
n an
d da
rk
inte
riors
N
eed
to a
void
ex
cess
vis
ual
stim
ulat
ion
1
2
3
1. In
stal
l cur
tain
s. C
erta
in p
atte
rns
can
caus
e be
havi
oura
l pro
blem
s 2.
Use
ele
ctro
nic
balla
sts.
Inst
all d
imm
ers
3. In
stal
l cur
tain
s, s
hade
s an
d bl
inds
124
![Page 138: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/138.jpg)
Nee
d fo
r in
crea
sed
light
le
vels
1 2
3
4
5
1. W
hite
fur
nitu
re r
efle
cts
mor
e lig
ht. R
isk
of g
lare
2.
Whi
te f
loor
cov
erin
g re
flect
s m
ore
light
. R
isk
of g
lare
3.
Whi
te c
urta
ins
refle
ct m
ore
light
. R
isk
of g
lare
4.
Incr
ease
d, c
onsi
sten
t, lig
ht le
vels
. P
rovi
de s
uffic
ient
ligh
ting
at t
able
leve
l. (im
prov
e ap
petit
e)
5. In
stal
l add
ition
al o
utle
ts n
ear
bed
6. A
cces
s to
win
dow
s N
eed
for
acce
ss
to d
aylig
ht
1
2
3
1. C
hoos
e cu
rtai
ns in
ord
er to
max
imis
e an
d m
inim
ise
dayl
ight
ent
ry (
whe
n sl
eepi
ng
durin
g da
y-tim
e).
2. O
pen
floor
pla
n 3.
Lar
ge w
indo
ws
(avo
id o
ver-
heat
ing)
. Win
dow
s al
so p
rovi
de o
rient
atio
n cu
es
(par
ticul
arly
in b
athr
oom
s)
Nee
d fo
r sa
fety
1
1.
Ext
ra li
ght i
n ki
tche
n (n
ear
kitc
hen
blad
e).
Put
cag
es a
roun
d w
arm
bul
bs (
agai
nst
touc
hing
). H
eavy
tab
le la
mps
(ho
ardi
ng)
Nee
d fo
r co
ntro
l ov
er li
ghtin
g
1
2
3
1.
Cur
tain
s ca
n he
lp c
ontr
ol d
aylig
ht
2. D
imm
ers
(par
ticul
arly
in b
athr
oom
). L
ight
ing
oper
able
from
bed
and
nea
r do
ors.
S
epar
ate
lam
ps in
bed
room
. P
ress
ure-
plat
e ty
pe li
ght s
witc
hes.
3.
Inst
all c
urta
ins,
sha
des
and
blin
ds
4. S
peci
al n
on-g
lare
gla
zing
. M
ay le
ad t
o di
stor
ted
colo
ur p
erce
ptio
n an
d da
rk
inte
riors
. N
ois
e
Nee
d fo
r lo
w
back
grou
nd n
oise
(d
istr
actio
n,
hear
ing
impa
irmen
t)
1
2
3
4
1. L
imit
amou
nt o
f ala
rms
whe
n ca
usin
g ov
erst
imul
atio
n 2.
Lim
it am
ount
of e
lect
roni
c eq
uipm
ent
(tv,
rad
ios
etc)
. Als
o du
ring
cook
ing/
dini
ng.
Hov
erin
g m
ay
caus
e ov
er-s
timul
atio
n 3.
Kee
p ve
ntila
tion
syst
ems
/ w
indo
ws
clos
ed to
kee
p tr
affic
noi
se o
ut.
4. In
stal
l aco
ustic
ally
insu
latin
g pa
nes
Nee
d fo
r sl
eep
1
2 3
4 5
1. In
stal
l hea
vy c
urta
ins
in b
edro
om t
o ke
ep (
traf
fic)
nois
e ou
t 2.
Str
uctu
ral c
ompo
sitio
n of
dw
ellin
g ca
n co
ntrib
ute
to s
ilent
bed
room
3.
Kee
p ve
ntila
tion
syst
ems
/ w
indo
ws
clos
ed to
kee
p tr
affic
noi
se o
ut
4. In
stal
l hea
vy c
urta
ins
or s
hutte
rs in
bed
room
to k
eep
(tra
ffic)
noi
se o
ut
5. In
stal
l aco
ustic
ally
insu
latin
g pa
nes
Lim
it re
verb
erat
ion
times
1 2
3 4
5
6
1. A
dd fu
rnitu
re
2. A
dd te
xtile
floo
r co
verin
g (im
pact
on
hygi
ene,
IAQ
, an
d w
heel
chai
r ac
cess
ibili
ty).
P
atte
rns
can
caus
e be
havi
oura
l pro
blem
s an
d fa
lls
3. A
dd c
urta
ins.
Cer
tain
pat
tern
s m
ay c
ause
beh
avio
ural
pro
blem
s 4.
Add
oth
er it
ems
5. L
ay o
ut o
f bui
ldin
g (s
ize
of r
oom
s) im
pact
s re
verb
erat
ion
times
6.
Bat
hroo
ms
are
ofte
n til
ed (
cera
mic
tile
s fo
r hy
gien
e).
Dry
-wal
l cei
lings
can
be
equi
pped
aco
ustic
s pa
nels
N
eed
to r
educ
e fe
ar a
nd s
tres
s (b
athr
oom
)
1
2
3
1. L
imit
nois
e fr
om v
entil
atio
n sy
stem
s in
bat
hroo
ms
2. L
imit
nois
e fr
om w
ashi
ng m
achi
nes
3. M
inim
ise
soun
ds f
rom
san
itary
equ
ipm
ent
in b
athr
oom
s. A
void
whi
rlpoo
ls
Nee
d fo
r sa
fety
–
Cog
nitiv
e im
pairm
ent
1
1. R
adio
in b
athr
oom
may
pos
e da
nger
125
![Page 139: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/139.jpg)
Therefore, alarms may be helpful in the home environment. When the fridge’s temperature control knob has been handled, leading to too high a temperature inside, a temperature alarm may alert the carer36. In kitchens that have gas cookers installed, gas alarms may be helpful. The same goes for smoke and fire detectors2,25,120. Other alarms, for CO, CO2 and NOx are available too. These measures give early warnings in case of danger, but it is not always clear if the alarms are understood as a warning signal. 6.1.4. Skin Building-related solutions on the skin level can be found in the field of ventilation systems in façades. When installing these systems, attention should be paid to the safety of the person with dementia and the family carer. Opening windows and doors for ventilation purposes allow people with dementia to escape or climb out2. Openings should be small enough so residents cannot crawl through them to the outside126. Locks may be necessary on windows to keep them from being opened too far, or to keep residents from opening them throughout the winter126. Bars and locks may form restraints to residents, whereas ideally some windows in a home should be operable by the residents as an easy way to have a certain degree of control over the environment126 and to allow for ventilation. Moreover, ventilation grids should be easy to reach, in order to prevent the risk of falls. 6.1.5. Structure Building-related solutions on the structure level can be found in the field of a building’s floors. Olfactory dysfunction can also have social implications, with disadvantages to the person with dementia, relatives, carers and the social network. Ebersole et al.1 and Diesfeldt46 state that people experience habituation to, and unawareness of, the own body odour. In case of incontinence, people may be unaware of the smell of urine that accompanies them1. In case of severe leakage due to incontinence, the concrete slab or sub-floor may be sealed in order to prevent odours from penetrating127. 6.2. Light and lighting The older individual is not static in the environment43, and this is very important in creating supportive visual environments. People often look away from a visual task; areas that may be brighter or darker than the task and which affect visual comfort. Schiff 99 states that excess visual stimulation can distract people from focussing on what they need to do in order to complete a task. In order to carry out visual tasks comfortably, attention should not only be paid to light levels, but also to luminance ratios, light colour, and colour rendering index. 6.2.1. Stuff Building-related solutions on the stuff level can be found in the field of floor covering inside the living environment. Highly polished floors are a common source of glare and should be avoided or replaced by matt surfaces23,27,28,118. Brawley128 mentions that carpets can be used to control glare. Qualitative research by Hyde96 involving Alzheimer’s facilities staff, found that glare caused by bright overhead lights on overly waxed linoleum tiles caused ‘puddles’ of light that more than one informant reported residents walk around. The choice of floor covering is thus very important in glare control. As mentioned before, the application of textile floor covering may have consequences to IAQ, cleaning and mobility, as should therefore be applied with caution. Calkins126 mentions that table lamps should be heavy, and that one should consider cages around the bulbs. This would increase the safety of the lighting and prevent hoarding of the lamps, a behaviour occasionally seen in middle stages of dementia. 6.2.2. Space-plan Building-related solutions on the space-plan level can be found in the field of daylight access and sightlines. Open floor plans allow for increased daylight access.
126
![Page 140: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/140.jpg)
In order to deal with clinging behaviour, both residents (and carers) should have an overview of spaces to keep in contact with one another. Such sightlines can be created with an open floor plan, which is obtained by reducing the number of walls5. Some residents with dementia may face difficulty in locating the toilet when needing to visit this facility. It is assumed that toilets are easier found (and thus used) when clearly marked or visible from the living room5. It is important that older adults frequently go outdoors in order to be exposed to daylight. Special architectural arrangements including a sheltered outdoor terrace and easy outdoor access can be made. In a paper on environmental design for dementia, Brawley129 asks herself: “Why are we not focusing on the reasons older adults in nursing homes do not get outside for valuable and much needed sunlight?” Exposure to daylight can be supplemented by special ceiling-mounted lighting91. 6.2.3. Services Building-related solutions on the services level can be found in the field of lighting systems and glare control, ballasts of lighting systems, the number and positioning of outlets control systems, and ceiling-mounted luminaires that can be used for light therapy. Apart from raising general light levels indoors (Table 3), Mace and Rabins2, Blom et al.25, Burton and Torrington28, Brawley34,80,127,129, Warner36, Boyce50, Cluff121, Silverstein et al.130, and Gitlin131 state that lighting should be consistent and evenly distributed to eliminate areas of shadow and glare. Moreover, glare from lights should be eliminated, and gradual changes in light levels and focused task lighting should be provided. Since many seniors have difficulty identifying the boundaries of objects, lighting should be sufficient to read any visual contrast in the environment121. Increased light levels, by up to 3 times, in combination with reduced glare and the use of contrast are means of adapting the environment for age-related changes in vision35. According to Turner24, Blom et al.25, and Brawley34 consistent and bright light sources may help to eliminate frightening shadows cast by objects in the room, avoid distraction, and lessen the number of hallucinations. Dim shadows and glare can distort images even further, contributing to a resident’s hallucination34. Of course, glare should not be countered by decreasing the general light levels23. Turner24 adds that lighting should not be too bright, since it may hurt the sensitive eyes of older adults and cause tearing. Moreover, the lights may be the reason why someone refuses to look in a specific direction. In kitchens and dining rooms, lighting should increase safety on the work blade. The dining area itself should be well lit in order for people to see and appreciate their food2,120. The lighting should not be overpowering or glaring36. Extra lighting in the cupboards could help people find food or utensils, and the same strategy could be used in closets to help find clothes. A study by Brush et al.132 of the effects of modifications to lighting on nutritional intake and behaviour during dinner of two groups of institutionalised older adults with dementia, showed that higher light levels increased caloric intake in one group, and resulted in more conversations during meals. Similar studies need to be repeated in home settings to confirm the positive effects of lighting during mealtime. Increased levels of lighting in bathrooms could help to prevent fall incidents. Since people are (un)dressing and grooming in bathrooms, there should be enough light to facilitate this activity133. The latter is also true for bedrooms. When people get out of bed at night to go and visit the bathroom, the path to the bathroom should be well-illuminated36 to limited to risk of fall incidents. This need for lighting is illustrated by van Berlo134, who describes the case of a woman, aged 56, who cares for her 88-year-old mother-in-law with dementia (pathology not mentioned). “She can still handle the lighting. At night she leaves a small compact fluorescent lamp on. I once told her: ‘Mom, you should leave it on, in case you got to go to the toilet at night’…” At night, lighting may help to prevent fear. This is illustrated by van Berlo134 in a case of a 45-year old woman who cares for her 86-year-old mother with probable AD. “I put her in bed and leave the lights on. I leave more lights on over time. It’s a bit like a child’s fear that a light needs to be on.”
127
![Page 141: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/141.jpg)
Brawley80 mentions that flickering of old-style magnetic ballasts may cause agitation and headaches and can even trigger seizures, and therefore need to be replaced with electronic ballasts. Warner36 mentions the need for extra outlets for bedside electrical appliances that do not only include a table light, but also communication devices and a clock. Brawley129 calls for the need for daylight and glare control, for instance, through electronic dimmers or step-level switching for lower illumination levels at night. In general, lighting systems should be equipped with dimmers in case people with dementia experience overstimulation from excess lighting, or in order to create a more home-like atmosphere. Lighting in the bathroom should provide an enabling and restful atmosphere, and therefore, lighting should be dimmable120. Lighting should be operable from bed and near the door, and should be equipped with dimmers36. Light switches should be of the pressure-plate type instead of handle-type switches122. For institutional two-person rooms, Calkins135 suggests using separate lamps for each resident, which he or she can turn on and off. A similar strategy may work for couples at home as well. Extra night-lights could be a solution to increase safety at night when going to the bathroom120. Van Berlo134 provides two examples of people with dementia and the challenges posed in relation to switches. First, there is the case of a 45-year old woman caring for her 86-year-old mother with probable AD. “[S]he sat in a low chair that was hard to get out of. […] We also placed the button of the floor lamp on the armrest, because it used to be somewhere low and that was somewhat of a burden. So we moved it, so that she can reach more easily.” Second, there is a 64-year old woman, who cares for her husband, aged 65, who is diagnosed with probable AD. “He walks around for six times, before he finds the switch. I mean, I don’t let him become tired from such things. […] If I’d say, ‘Please turn off the lights’, then he has turned to four to five plug sockets, before he reaches the right light switch. Then I need to direct him: ‘There, forward, to the right’. […] I want to let him do it by himself, but I really need to give him directions.” The increase of the general illuminance level in rooms where people with dementia spend their days via the installation of ceiling-mounted luminaires is gaining increased attention88-92. More research and modelling are needed in this field, as current illumination systems are not suitable, or user-friendly, for exposure to the required high levels of lighting. Carswell et al.136 suggest that these special luminaires may not only positively impact people with dementia during the day, but also have a role to play in nighttime care. 6.2.4. Skin Building-related solutions on the skin level can be found in the field of façade systems for daylight access and glare control. Glare from windows should be eliminated, and access to natural daylight should be provided, for instance as an orientation aid, along with gradual changes in light levels. Care should be taken to avoid glare from low-elevation sunlight28. Proper curtains and window shades can help to control the visual environment21,23,25. In order to provide daylight, as well as cues on the outdoor environment, bathrooms should preferably be equipped with an outside window34. It is important that people get enough rest, which should be the number one priority when designing and decorating bedrooms2. Heavy curtains, as part of the façade system, can be put in place to keep light out25. Blinds and screens could also be applied. Tilly and Reed102 stress the importance of regular sleep-wake cycles and state that these should be encouraged by ensuring that residents are exposed to sufficient daylight, apart from keeping bedding dry.
128
![Page 142: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/142.jpg)
6.2.5. Structure Building-related solutions on the structure level can be found in the field of the design of the façade and the installation of heavy luminaires. Large windows allow for the access of daylight and allow people to look outside. Bowlby Sifton38 states that windows can help in offering reality reassurance by providing outdoors views that help with orientation to the season and time of day. The structure of the ceiling should be sufficiently robust in order to carry the load of ceiling-mounted luminaries needed for light therapy. 6.3. The acoustical environment and noise The building-related solutions available in relation to the acoustical environment and noise aim at reducing background noise in the various rooms in the home, and improving the acoustical environment via the use of specific sound-absorbing materials. There are no concrete data or design guidelines on optimal sound pressure levels and reverberation times for home situations yet. Acoustical engineers should be able to distil relevant design information from the practical situations mentioned in the following sections. 6.3.1. Stuff Building-related solutions on the stuff level can be found in the field of the application of sound-absorbing materials in the living environment. A common strategy to limit reverberation times indoors is the placement of sound-absorbing curtains and textile floor covering127,128,137. Floor covering should not only be bought based on the acoustical properties, as it also has an impact on IAQ. Thick textile floor covering is uneasy for wheelchairs and walkers36, and should be resistant against heavy use. When cleaning is required, the sound of hovering can be frightening. Another issue with textile floor covering is that some people may experience disorientation or vertigo in response to large, bold geometric patterns34. Certain patterns may lead to nausea. Patterns may not be perceived to be level, or actually seem to move leading to instability34,100 or stalling. Such covering should not be used in other to minimise the risk of fall incidents. 6.3.2. Space-plan An open space-plan can improve wayfinding, as people can use auditory cues for orientation. At the same time, open space-plans have implications to reverberation times and sound propagation in the dwelling. For instance, open kitchen areas could also cause overstimulation in the living room due to sounds produced by a kitchen hood. 6.3.3. Services Building-related solutions on the services level can be found in the field of limiting background noise and music coming from electronical equipment. In care settings, people with dementia are exposed to very high levels of intrusive and disturbing aural stimulation, including intercoms, telephones, paging systems and alarms11,21,27,100,122,129, and unfortunately this is often the case at home as well. Hayen and Gafford138 mention the importance of a quiet institutional environment, with tempered loud talking, radios and televisions, and a selection of background music that soothes the residents rather than entertain carers. Many studies call for a reduction of excessive noise levels28,38,129,131. Moreover, assistive devices as ‘talking’ toilets and mirrors can be a source of confusion, and should be introduced into the dwelling with great caution. To many older adults with dementia, the bathroom is a place that can cause great stress, partly because of sounds and acoustics. According to Warner36, it is important to consider problematic sounds that may be confusing or irritating, including rushing water, the toilet flushing, exhaust fans and HVAC systems, washing machines, and outside noises, such as traffic or people34,36,139. Inside the bathroom, whirlpools can cause fear and agitation because of the sound they produce34. When using a radio, one should consider the danger of electrocution, as with any electrical equipment used in bathrooms120.
129
![Page 143: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/143.jpg)
During the preparation of meals and dinner, sound can be distracting too, such as background noise, and sounds from radios, televisions120 and kitchen hoods. In dining rooms, excessive background noises from dishwashers and other kitchen sounds should be limited36. If televisions and their sounds cause loss of concentration, fear, agitation or panic, also due to misinterpretation, they should be put off, and soft music could be played23,25. Larkin140 states that music also improves autobiographical recall, and has greater facilitatory effect than either quiet or background noise. Background noise should be kept to a minimum in order to assist with concentration. When talking to a person, one should not compete with a television or a radio24, since the person with dementia is usually not able to focus on both voices at the same time. It only adds to the state of confusion. At the same time, radios may be a source of therapy. Burgio et al.141 studied an interventions including listening to white noise; audiotapes of nature. Results indicated a 23% reduction in verbal agitation in severely demented nursing home residents (n=15), albeit that the results were obtained despite poor treatment fidelity. Radio-like interfaces are also used for reminiscence activities and leisure, for instance, by van Rijn et al.142. Finally, fire alarms that are installed for reasons of safety should be loud enough for older persons to be heard (sound pressure level about 74 dB(A)), even though some persons may have difficulty recognising the signal143. 6.3.4. Skin Building-related solutions on the skin level can be found in the field of façade systems to reduce indoor noise levels. Reducing background noise starts with the home’s façade. When people live near a crowded street, traffic noise can be kept out by having windows shut or having thermally and acoustically insulating panes. At the same time, auditory clues may be used as orientation aids121. The role of sound in bedrooms is evident. A silent bedroom is crucial to good sleep, which is of great importance to both the person with dementia as the caring partner. Both Warner36 and Mace and Rabins2 stress this need. Apart from the need for a proper sound-insulation building construction, one could also buy heavy curtains that not only keep the sun, but also noise, out of the bedroom25. 6.3.5. Structure Building-related solutions on the structure level can be found in the limitation of reverberation times through the choice of building materials and finishings. In case ceilings are dry wall, one can install acoustic panels on walls127,128,137. To many healthy people, bathing is an activity of relaxation. Stress and agitation may be reduced by singing together during bathing120. Bathroom acoustics may be great for singing in the shower, except for those who are irritated or upset by noise bouncing around in hard, ceramic tile environments36. In order to improve the room acoustics, bathroom finishing materials should be chosen with care in order to reduce the reverberation time as much as possible, even though out of hygienic reasons ceramic tiles are the best option. 7. Conclusions Older people with dementia may perceive the indoor environment differently from counterparts without dementia, which can go together with certain behavioural symptoms. People with dementia are not just seemingly passive receptors of the indoor environment, but may actually respond to it in a very outspoken manner, and that technology installed may actually pose challenges to the provision of care and well-being. The design solutions that followed the identification of needs in the domain of the basic value, may be a first step towards evidence-based and stakeholder-related design of home environments for people with dementia. Of the three indoor environmental parameters treated in this paper, light is the best understood. Novel lighting applications are developed and applied to improve cognition, mood and behaviour, sleep and vision. Vision can be improved
130
![Page 144: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/144.jpg)
by raising general illuminance levels and glare control. The economic benefits are thus largely visible for the relevant stakeholders, although in practice not all older people with dementia have access to such lighting systems or are sufficiently exposed to daylight. The supply of fresh air, elimination of bad odours, reduction of background noise and other aspects of the acoustical environment are recognised as being important to behaviour and well-being of people with dementia, but are not as well-understood as light and lighting. The economic benefits of accounting for these parameters are not yet clear. More research is needed on how and which odours impact well-being and behaviour positively and negatively, and what the acceptance thresholds are. Also, adequate ventilation systems should be developed to counter the negative effects of odours without causing distress by noise. In terms of the acoustical environment, it is not possible to provide specific data and values of the ideal sound pressure levels and reverberation times for persons with dementia. The types of noise that may cause distress are not always predictable. The acoustical environmental is claimed to improve wayfinding, although the underlying mechanisms are not fully understood. More research is needed in these fields. The new framework combining the International Classification of Functioning, Disability and Health and the Model of Integrated Building Design was a useful tool for a detailed analysis of various stakeholder-related needs and solutions on a building system level, bringing together demand and supply and adding a new dimension to the care of persons with dementia. The synthesis of building-related solutions does not yet provide an overview based on existing guidelines, but provides directions for home modifications in relation to the three values considered in this paper. Given the results of this study, it is worthwhile to investigate and evaluate the impact of the indoor environmental parameters on older people with dementia further along the lines indicated. In addition, further research is needed to explore the functional and economic values of the described environmental parameters as solutions for persons with dementia and their informal and formal carers. References 1. Ebersole P, Hess P, Schmidt-Luggen A, editors (2004) Toward healthy aging. Sixth edition.
Mosby, St. Louis, MO, USA 2. Mace NL, Rabins PV (2006) The 36-hour day. Fourth edition. The Johns Hopkins University
Press, Baltimore, MD, USA 3. Sloane PD, Mitchell CM, Weisman G, Zimmerman S, Foley KML, Lynn M, Calkins M, Lawton
MP, Teresi J, Grant L, Lindeman D, Montgomery R. The Therapeutic Environment Screening Survey for Nursing Homes (TESS-NH): An observational instrument for assessing the physical environment of institutional settings for persons with dementia. The Journals of Gerontology Series B: Psychological Sciences and Social Sciences 2002;57(2):S69-S78
4. Helmuth L. All in your mind. Science of Aging Knowledge Environment 2003;2003(8):ns3 5. van Hoof J, Kort HSM. Supportive living environments. A first concept of a dwelling designed for
older adults with dementia. Dementia 2009;8(2):293-316 6. van Hoof J, Kort HSM, van Waarde H. Housing and care for older adults with dementia. A
European perspective. Journal of Housing and the Built Environment 2009;24(3):369-390 7. van Hoof J, Kort HSM, Hensen JLM, Duijnstee MSH, Rutten PGS. Thermal comfort and
integrated building design for older people with dementia. Building and Environment 2010;45(2):358-370
8. Topo P, Östlund B, editors (2009) Dementia, design and technology. Time to get involved. Assistive Technology Research Series, volume 24. IOS Press, Amsterdam, The Netherlands.
9. Weaverdyck SE (1991) Assessment as a basis for intervention. In Coons DH, editor. Specialized dementia care units. John Hopkins University Press, Baltimore, MD, USA. pp 205-223.
10. Tilly J, Reed P. Literature review. Intervention research on caring for people with dementia in assisted living and nursing homes. Alzheimer’s Care Today 2008;9(1):24-32
11. Aminoff BZ (2007) Measurement of suffering in end-stage Alzheimer’s disease. Dyonon Publishers, Tel Aviv, Israel.
12. Nightingale F (1859) Notes on Nursing: What it is, and what it is not. London, UK: Harrison 13. Higgins PA, Winkelman C, Lipson AR, Guo S-E, Rodgers J. Light measurement in the hospital:
A comparison of two methods. Research in Nursing & Health 2007;30(1):120-128 14. Rutten PGS (1996) Strategisch bouwen. Inaugural speech. Eindhoven University of Technology,
Eindhoven, The Netherlands [in Dutch]
131
![Page 145: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/145.jpg)
15. van Hoof J, Hensen JLM. Thermal comfort and older adults. Gerontechnology 2006;4(4):223-228
16. van Hoof J. Forty years of Fanger’s model of thermal comfort: Comfort for all? Indoor Air 2008;18(3):182-201
17. Wong LT, Fong KNK, Mui KW, Wong WWY, Lee LW. A field survey of the expected desirable thermal environment for older people. Indoor and Built Environment 2009;18(4):336-345
18. Gomolin IH, Aung MM, Wolf-Klein G, Auerbach C. Older is colder: Temperature range and variation in older people. Journal of the American Geriatrics Society 2005;53(12):2170-2172
19. WHO (2001) International classification of functioning, disability and health. Resolution WHA54.21 of the fifty-fourth World Health Assembly, ninth plenary meeting, agenda item 13.9, 22 May 2001, A54/VR/9, Geneva, Switzerland, World Health Organization.
20. Brand S (1994) How buildings learn - What happens after they’re built. Viking-Penguin, New York, NY, USA
21. Cohen U, Weisman GD (1991) Holding on to home: Designing environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
22. Brawley EC. Creating caring environments. Alzheimer’s Care Quarterly 2005;6(4):263-264 23. Ministry of Community and Social Services (1990) Dementia and activities of daily living. A
report on technologies and environmental design that can assist people with Alzheimer disease and related dementias. Ministry of Community and Social Services. Toronto, ON, Canada
24. Turner G. Decreasing stimulation in the environment of persons diagnosed with Alzheimer’s disease. The American Journal of Alzheimer's Care and Related Disorders & Research 1991;6(4):26-28
25. Blom M, Tjadens F, Withagen P (2000) Weten van vergeten. NIZW, Utrecht, The Netherlands [in Dutch]
26. Pynoos J, Cohen E, Lucas C. Environmental coping strategies for Alzheimer’s caregivers. The American Journal of Alzheimer’s Care and Related Disorders & Research 1989;4(6):4-8
27. Weisman GD, Cohen U, Ray K, Day K (1991) Architectural planning and design for dementia care units. In Coons DH, editor. Specialized dementia care units. John Hopkins University Press, Baltimore, MD, USA. pp 83-106
28. Burton E, Torrington J. Designing environments suitable for older people. CME Journal Geriatric Medicine 2007;9(2):39-45
29. Cohen-Mansfield J, Werner P. Environmental influences on agitation: An integrative summary of an observational study. The American Journal of Alzheimer’s Care and Related Disorders & Research 1995;10(1):32-39
30. Zeisel J, Silverstein NM, Hyde J, Levkoff S, Lawton MP, Holmes W. Environmental correlates to behavioral health outcomes in Alzheimer’s special care units. The Gerontologist 2003;43(5):697-711
31. Lucero M. Intervention strategies for exit-seeking wandering behavior in dementia residents. American Journal of Alzheimer’s Disease and Other Dementias 2002;17(5):277-280
32. Price JD, Hermans DG, Grimley Evans J. Subjective barriers to prevent wandering of cognitively impaired people. Cochrane Database of Systematic Reviews 2007;(3):CD001932
33. Victoroff J, Mack WJ, Nielson KA. Psychiatric complications of dementia: Impact on caregivers. Dementia and Geriatric Cognitive Disorders 1998;9(1):50-55
34. Brawley EC (1997) Designing for Alzheimer’s disease. Strategies for creating better care environments. John Wiley & Sons, Inc., New York, NY, USA
35. Gallo JJ, Reichel W (1991) The role of the physician in dementia care units. In Coons DH, editor. Specialized dementia care units. John Hopkins University Press, Baltimore, MD, USA. pp 245-273
36. Warner ML (2000) The complete guide to Alzheimer’s proofing your home. Revised and updated edition. Purdue University Press, West Lafayette, IN, USA
37. Onishi J, Suzuki Y, Umegaki H, Nakamura A, Endo H, Iguchi A. Influence of behavioral and psychological symptoms of dementia (BPSD) and environment of care on caregivers’ burden. Archives of Gerontology and Geriatrics 2005;41(2):159-168
38. Bowlby Sifton C. Setting up surroundings for success and safety. Alzheimer’s Care Today 2007;8(3):286
39. Zeisel J. Environment, neuroscience, and Alzheimer’s disease. Alzheimer’s Care Quarterly 2005;6(4):273-279
40. Humphreys MA. Quantifying occupant comfort: Are combined indices of the indoor environment practicable? Building Research & Information 2005;33(4):317-325
41. ASHRAE (2001) ANSI/ASHRAE Standard 62-2001, Ventilation for Acceptable Indoor Air Quality. American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc., Atlanta, GA, USA
132
![Page 146: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/146.jpg)
42. Cometto-Muñiz JE (2001) Physicochemical basis for odor and irritation potency of VOCs. In Spengler JD, Samet JM, McCarthy JF, editors. Indoor Air Quality Handbook. McGraw-Hill, New York, NY, USA, pp. 20.1-20.21
43. Hughes PC, Neer RM. Lighting for the elderly: A psychobiological approach to lighting. Human Factors 1981;23(1):65-85
44. Attems J, Lintner F, Jellinger KA. Olfactory involvement in aging and Alzheimer’s disease: An autopsy study. Journal of Alzheimer’s Disease 2005;7(2):149-157
45. Calkins MP. Environments for late-stage dementia. Alzheimer’s Care Quarterly 2005;6(1):71-75. 46. Diesfeldt H. Een neus voor dementie. Hoe het reukvermogen bij dementie verandert. Denkbeeld
2008;20(1):30-32 [in Dutch] 47. Duffee RA, O’Brien M (2001) Response to odors. In Spengler JD, Samet JM, McCarthy JF,
editors. Indoor Air Quality Handbook. McGraw-Hill, New York, NY, USA, pp. 21.1-21.12 48. Strubel D, Jacquot JM, Martin-Hunyadi C. Démence et chutes. Annales de Réadaptation et de
Médecine Physique 2001;44(1):4-12 [in French] 49. Gray Miceli D. Falls associated with dementia: How can you tell? Geriatric Nursing
2005;26(2):106-110 50. Boyce PR (2003) Human Factors in Lighting. Second edition. Taylor & Francis, London, UK -
New York, NY, USA 51. Boyce PR. Lighting for the elderly. Technology and Disability 2003;15(3):165-180 52. Aarts MPJ, Westerlaken AC. Field study of visual and biological light conditions of
independently-living elderly people. Gerontechnology 2005;4(3):141-152 53. Bakker R, Iofel Y, Mark S. Lachs MS. Lighting levels in the dwellings of homebound older adults.
Journal of Housing for the Elderly 2004;18(2):17-27 54. Kergoat H, Kergoat M-J, Justino L, Robillard A, Bergman H, Chertkow H. Normal optic nerve
head topography in the early stages of dementia of the Alzheimer type. Dementia and Geriatric Cognitive Disorders 2001;12(6):359-363
55. Desai AK, Grossberg GT. Recognition and management of behavioral disturbances in dementia. Primary Care Companion to the Journal of Clinical Psychiatry 2001;3(3):93-109
56. Mendez MF, Cherrier MM, Meadows RS. Depth perception in Alzheimer’s disease. Perceptual and Motor Skills 1996;83(3 Pt 1):987-995
57. Webb AR. Considerations for lighting in the built environment: Non-visual effects of light. Energy and Buildings 2006;38(7):721-727
58. Czeisler CA, Allan JS, Strogatz SH, Ronda JM, Sanchez R, Rios CD, Freitag WO, Richardson GS, Kronauer RE. Bright light resets the human circadian pacemaker independent of timing of sleep-wake cycle. Science 1986;233(4764):667-671
59. Brainard GC, Rollag MD, Hanifin JP. Photic regulation of melatonin in humans: Ocular and neural signal transduction. Journal of Biological Rhythms 1997;12(6):537-546
60. Badia P, Myers B, Boecker M, Culpepper J, Harsh JR. Bright light effects on body temperature, alertness, EEG and behaviour. Physiology and Behaviour 1991;50(3):583-588
61. Cajochen C, Zeitzer JM, Czeisler CA, Dijk DJ. Dose-response relationship for light intensity and ocular and electroencephalographic correlates of human alertness. Behavioural Brain Research 2000;115(1):75-83
62. Berson DM, Dunn FA, Takao M. Phototransduction by retinal ganglion cells that set the circadian clock. Science 2002;295(5557):1070-1073
63. Moore RY, Speh JC, Card JP. The retinohypothalamic tract originates from a distinct subset of retinal ganglion cells. Journal of Comparative Neurology 1995;352(3):351-366
64. Waterhouse JM, Minors DS, Waterhouse ME, Reilly T, Atkinson G (2002) Keeping in time with your body clock. Oxford University Press, Oxford, UK
65. Rollag MD, Berson DM, Provencio I. Melanopsin, ganglion-cell photoreceptors, and mammalian photoentrainment. Journal of Biological Rhythms 2003;18(3):227-234
66. Thapan K, Arendt J, Skene DJ. An action spectrum for melatonin suppression: Evidence for a novel non-rod, non-cone photoreceptor system in humans. Journal of Physiology 2001;535(Pt 1):261-267
67. Abbott A. Restless nights, listless days. Nature 2003;245(6961):896-898 68. Brainard GC, Hanifin JP, Greeson JM, Byrne B, Glickman G, Gerner E, Rollag MD. Action
spectrum for melatonin regulation in humans: Evidence for a novel circadian photoreceptor. Journal of Neuroscience 2001;21(16):6405-6412
69. Hebert M, Martin SK, Lee C, Eastman CI. The effects of prior light history on the suppression of melatonin by light in humans. Journal of Pineal Research 2002;33(4):198-202
70. Smith KA, Schoen MW, Czeisler CA. Adaptation of human pineal melatonin suppression by recent photic history. The Journal of Clinical Endocrinology & Metabolism 2005;89(7):3610-3614
71. Park SJ, Tokura H. Bright light exposure during the daytime affects circadian rhythms of urinary melatonin and salivary immunoglobulin A. Chronobiology International 1999;16(3):359-371
133
![Page 147: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/147.jpg)
72. Mishima K, Okawa M, Shimizu T, Hishikawa Y. Diminished melatonin secretion in the elderly caused by insufficient environmental illumination. The Journal of Clinical Endocrinology & Metabolism 2001;86(1):129-134
73. Hashimoto S, Kohsaka M, Nakamura K, Honma H, Honma S, Honma K. Midday exposure to bright light changes the circadian organization of plasma melatonin rhythm in humans. Neuroscience Letters 1997;221(2-3):89-92
74. van Hoof J. Air-conditioned deployable force infrastructure as a strategy to combat sleep deprivation among troops in hot countries. Building Services Engineering Research and Technology 2008;29(4):327-339
75. van Someren EJW. Circadian and sleep disturbances in the elderly. Experimental Gerontology 2000;35(9-10):1229-1237
76. Health Council of The Netherlands (2002). Dementia. Publication no. 2002/04. Health Council of The Netherlands, The Hague, The Netherlands [in Dutch]
77. Harper DG, Volicer L, Stopa EG, McKee AC, Nitta M, Satlin A. Disturbance of endogenous circadian rhythm in aging and Alzheimer disease. The American Journal of Geriatric Psychiatry 2005;13(5):359-368
78. Marshall M. Technology is the shape of the future. Journal of Dementia Care 1995;3(3):12-14 79. Hopkins RW, Rindlisbacher P, Grant NT. An investigation of the sundowning syndrome and
ambient light. The American Journal of Alzheimer's Care and Related Disorders & Research 1992;7(2):22-27.
80. Brawley EC (2006) Design innovations for aging and Alzheimer’s. Creating caring environments. John Wiley & Sons, Inc., Hoboken, NJ, USA
81. Lovell BB, Ancoli-Israel S, Gevirtz R. Effect of bright light treatment on agitated behavor in institutionalized elderly subjects. Psychiatry Research 1995;57(1):7-12
82. Graf A, Wallner C, Schubert V, Willeit M, Wlk W, Fischer P, Kasper S, Neumeister A. The effects of light therapy on Mini-Mental State Examination in demented patients. Biological Psychiatry 2001;50(9):725-727
83. Thorpe L, Middleton J, Russell G, Stewart N. Bright light therapy for demented nursing home patients with behavioral disturbance. American Journal of Alzheimer's Disease 2000;15(1):18-26
84. Dowling GA, Hubbard EM, Mastick J, Luxenberg JS, Burr RL, van Someren EJW. Effect of morning bright light treatment for rest-activity disruption in institutionalized patients with severe Alzheimer’s disease. International Psychogeriatrics 2005;17(2):221-236
85. Kim S, Song HH, Yoo SJ. The effect of bright light on sleep and behavior in dementia: An analytic review. Geriatric Nursing 2003;24(4):239-243
86. Forbes D, Morgan DG, Bangma J, Peacock S, Pelletier N, Adamson J. Light therapy for managing sleep, behaviour, and mood disturbances in dementia. Cochrane Database of Systematic Reviews 2004;(2):CD003946
87. Terman M. Evolving applications of light therapy. Sleep Medicine Reviews 2007;11(6):497-507 88. Rheaume YL, Manning BC, Harper DG, Volicer L. Effect of light therapy upon disturbed
behaviors in Alzheimer patients. American Journal of Alzheimer's Disease 1998;13(6):291-295 89. van Someren EJW, Kessler A, Mirmiran M, Swaab DF. Indirect bright light improves circadian
rest-activity rhythm disturbances in demented patients. Biological Psychiatry 1997;41(9):955-963 90. Riemersma-van der Lek RF, Swaab DF, Twisk J, Hol EM, Hoogendijk WJG, van Someren EJW.
Effect of bright light and melatonin on cognitive and noncognitive function in elderly residents of group care facilities. A randomized controlled trial. The Journal of the American Medical Association 2008;299(22):2642-2655
91. van Hoof J, Aarts MPJ, Rense CG, Schoutens AMC. Ambient bright light in dementia: Effects on behaviour and circadian rhythmicity. Building and Environment 2009;44(1):146-155
92. van Hoof J, Schoutens AMC, Aarts MPJ. High colour temperature lighting for institutionalised older people with dementia. Building and Environment 2009;44(9):1959-1969
93. Sloane PD, Williams CS, Mitchell CM, Preisser JS, Wood W, Barrick AL, Hickman SE, Gill KS, Connell BR, Edinger J, Zimmerman S. High-intensity environmental light in dementia: effect on sleep and activity. Journal of the American Geriatrics Society 2007;55(10):1524-1533
94. Hickman SE, Barrick AL, Williams CS, Zimmerman S, Connell BR, Preisser JS, Mitchell CM, Sloane PD. The effect of ambient bright light therapy on depressive symptoms in persons with dementia. Journal of the American Geriatrics Society 2007;55(11):1817-1824
95. Sato H. Effect of aging of hearing on speech recognition in rooms. In Shimizu N, Nagamachi M, Yamaba K, Sagawa K, editors. Proceedings of the 5th International Conference on Gerontechnology, 24-27 May, Nagoya, Japan. Published by the International Society for Gerontechnology. CD-rom
96. Hyde J. The physical environment and the care of Alzheimer’s patients: An experiential survey of Massachusetts’ Alzheimer’s units. The American Journal of Alzheimer’s Care and Related Disorders & Research 1989;4(3):36-44
134
![Page 148: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/148.jpg)
97. Weaverdyck SE (1991) Intervention to address dementia as a cognitive disorder. In Coons DH, editor. Specialized dementia care units. John Hopkins University Press, Baltimore, MD, USA. pp 224-244
98. Cohen-Mansfield J, Infeld DL. Hearing aids for nursing home residents: Current policy and future needs. Health Policy 2006;79(1):49-56
99. Schiff MR. Designing environments for individuals with Alzheimer’s disease: Some general principles. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):4-8
100. Bakker R. Sensory loss, dementia and environments. Generations 2003;27(1):46-51 101. Hagen I, Holthe T, Gilliard J, Topo P, Cahill S, Begly E, Jones K, Duff P, Macijauskiene J,
Budraitiene A, Bjørneby S, Engedal K. Development of a protocol for the assessment of assistive aids for people with dementia. Dementia 2004;3(3):281-296
102. Tilly J, Reed P. Dementia care practice recommendations for nursing homes and assisted living, Phase 2: Falls, wandering, and physical restraints. Alzheimer’s Care Today 2008;9(1):51-59
103. CEN (1998) Technical report CR 1752: Ventilation for buildings: Design criteria for the indoor environment, European Committee for Standardization, Brussels, Belgium
104. van Hoof J, Schoutens AMC (2007) Van voorlichting tot verlichting. Licht voor ouderen en mensen met dementie. Vilans, Utrecht, The Netherlands [in Dutch]
105. De Lepeleire J, Bouwen A, De Coninck L, Buntinx F. Insufficient lighting in nursing homes. Journal of the American Medical Directors Association 2007;8(5):314-317
106. Marx L, Haschka B, Schnur P. Mehr Lux – mehr Wohlbefinden. Die richtige Beleuchtung hat positiven Einfluss auf demente Bewohner. Altenheim 2002;41(5):57-58,60-61 [in German]
107. Burns A, Byrne J, Ballard C, Holmes C. Sensory stimulation in dementia. British Medical Journal 2002;325(7376):1312-1313
108. van Weert JCM, Kerkstra A, van Dulmen AM, Bensing JM, Peter JG, Ribbe MW. The implementation of snoezelen in psychogeriatric care: An evaluation through the eyes of caregivers. International Journal of Nursing Studies 2004;41(4):397-409
109. Hope KW, Waterman HA. Using multi-sensory environments (MSEs) with people with dementia. Dementia 2004;3(1):45-68
110. van Weert JCM, van Dulmen AM, Spreeuwenberg PMM, Ribbe MW, Bensing JM. Effects of snoezelen, integrated in 24 h dementia care, on nurse-patient communication during morning care. Patient Education and Counseling 2005;58(3):312-326
111. Cuvo AJ, May ME, Post TM. Effects of living room, Snoezelen room, and outdoor activities on stereotypic behavior and engagement by adults with profound mental retardation. Research in Developmental Disabilities 2001;22(3):183-204
112. Chung JCC, Lai CKY. Snoezelen for dementia. Cochrane Database of Systematic Reviews 2002;(4):CD003152
113. Calkins MP. The physical and social environment of the person with Alzheimer’s disease. Aging & Mental Health 2001;5(Supplement 1):S74-S78
114. van Hoof J, Kort HSM (2008) Unattended autonomous surveillance in community-dwelling older adults: A field study. In ISG’08: Proceedings of the 6th International Conference of the International Society for Gerontechnology, 4-7 June, Pisa, Italy. Proceedings published on DVD
115. van Hoof J, Kort HSM (2009) PB7 358 Unattended autonomous surveillance in community-dwelling older adults. The Journal of Nutrition, Health & Aging 13(Supplement 1):S448
116. Duijnstee MSH (1992) De belasting van familieleden van dementerenden. Dissertation. Katholieke Universiteit Nijmegen, Nijmegen, The Netherlands [in Dutch]
117. Kok LM, Brouwer NM, Sadiraj K, Stevens J, van Gameren E, Woittiez I. Kosten en baten van extramuralisering. SCP-werkdocument 109. Sociaal en Cultureel Planbureau, The Hague, The Netherlands. 2004 [in Dutch]
118. Cohen U, Day K (1993) Contemporary environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
119. Kort HSM, Schober G, Koren LGH, Scharringa J. Mould-devouring mites differ in guanine excretion from dust-eating Acari, a possible error source in mite allergen exposure studies. Clinical and Experimental Allergy 1997;27(8):921-925
120. Petersen R, editor-in-chief (2002) Mayo Clinic on Alzheimer’s disease. Practical answers on memory loss, aging, research, treatment and caregiving. Mayo Clinic Health Information, Rochester, MN, USA
121. Cluff PJ. Alzheimer’s disease and the institution: Issues in environmental design. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):23-32
122. Weisman G, Cohen U, Day K, Meyer G (1992) Programming and design for dementia. Development of a 50 person residential environment. Second print. University of Wisconsin-Milwaukee, Milwaukee, WI, USA
123. Coelho C, Steers M, Lutzler P, Schriver-Mazzuoli L. Indoor air pollution in old people’s homes related to some health problems: A survey study. Indoor Air 2005;15(4):267-274
135
![Page 149: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/149.jpg)
124. Brawley EC. Bathing environments: How to improve the bathing experience. Alzheimer’s Care Quarterly 2002;3(1):38-41
125. Steinfeld E. My father’s room. Alzheimer’s Care Quarterly 2002;3(1):1-6 126. Calkins MP. Designing special care units: A systematic approach -- Part II. The American
Journal of Alzheimer’s Care and Research 1987;2(3):30-34 127. Brawley E. Alzheimer’s disease: Designing the physical environment. The American Journal of
Alzheimer’s Care and Related Disorders & Research 1992;7(1):3-8 128. Brawley E. Alzheimer’s housing and environments. The American Journal of Alzheimer’s
Disease 1996;11(2):46 129. Brawley EC. Environmental design for Alzheimer’s disease: A quality of life issue. Aging &
Mental Health 2001;5(Supplement 1): S79-S83 130. Silverstein NM, Hyde J, Ohta R. Home adaptation for Alzheimer’s households. Factors related to
implementation and outcomes of recommendations. Technology and Disability 1993;2(4):58-68 131. Gitlin L. Guidelines for environmental adaptations and safety at home. Alzheimer’s Care Today
2007;8(3):278-281 132. Brush JA, Meehan RA, Calkins MP. Using the environment to improve intake for people with
dementia. Alzheimer’s Care Quarterly 2002;3(4):330-338 133. Zgola J. Alzheimer’s disease and the home: Issues in environmental design. The American
Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):15-22 134. van Berlo GMW (1997) Technology, ethics and dementia. Can technology support primary
carers in the supervision of persons suffering from dementia? Foundation BeNeLux - University, Antwerp, Belgium
135. Calkins MP. Designing special care units: A systematic approach. The American Journal of Alzheimer’s Care and Research 1987;2(2):16-22
136. Carswell W, McCullagh PJ, Augusto JC, Martin S, Mulvenna MD, Zheng H, Wang HY, Wallace JG, McSorley K, Taylor B, Jeffers WP. A review of the role of assistive technology for people with dementia in the hours of darkness. Technology and Health Care 2009;17(4):281-304
137. Calkins MP. Learning from doing. Conducting a SAGE postoccupancy evaluation. Alzheimer’s Care Quarterly 2005;6(4):357-365
138. Hayen D, Gafford J. The ideal nursing home for dementia care. Alzheimer’s Care Today 2008;9(2):162-163
139. Calkins MP. Articulating environmental press in environments for people with dementia. Alzheimer’s Care Quarterly 2004;5(2):165-172
140. Larkin M. Music tunes up memory in dementia patients. The Lancet 2001;357(9249):47 141. Burgio L, Scilley K, Hardin JM, Hsu C, Yancey J. Environmental “white noise”: An intervention for
verbally agitated nursing home residents. Journals of Gerontology Series B: Psychological Sciences and Social Sciences 1996;51(6):P364-P373
142. van Rijn H, van Hoof J, Stappers PJ. Designing leisure products for people with dementia: Developing ‘the Chitchatters’ game. American Journal of Alzheimer’s Disease and Other Dementias 2010;25(1):74-89
143. Wong LT, Leung LK. Minimum fire alarm sound pressure level for older care centres. Building and Environment 2005;40(1):125-133
136
![Page 150: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/150.jpg)
6
Lighting intervention I: bright light (6,500 K) van Hoof J, Aarts MPJ, Rense CG, Schoutens AMC Ambient bright light in dementia: Effects on behaviour and circadian rhythmicity. Building and Environment 2009;44(1):146-155 The preceding chapter showed the importance of lighting for the health and well-being of people with dementia, as well as the role it may play in ageing-in-place. Behavioural disturbances, such as nocturnal restlessness and wandering, which are seen in people with dementia, may be positively affected by non-pharmacologic interventions, such as high intensity lighting. More research is needed to identify which aspects of lighting systems are critical in achieving effects in the field, in particular the interaction between illuminance levels and the colour temperature of the light. Therefore, Chapter 6 and Chapter 7 present two studies, which investigate the effects of two different lighting systems on behaviour and circadian rhythmicity. Chapter 6 presents a field study concerning the effects of a lighting intervention on behaviour and circadian rhythmicity of older people with dementia in a nursing home setting (clinical-controlled trial). In literature, positive effects are ascribed to high illuminance levels. The effects of colour temperature have not been studied in great detail before, although it is speculated that higher colour temperatures have a larger effect. The lighting tested in Chapter 6 concerns a high CCT (correlated colour temperature, 6,500 K) ambient bright light intervention versus a low CCT (2,700 K) control. Within the combined framework of ICF-MIBD, Chapter 6 deals with an analysis and evalution of the effects building services (lighting) have within the basic and functional value domains and related performances.
137
![Page 151: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/151.jpg)
138
![Page 152: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/152.jpg)
Behavioural and psychological symptoms, such as nocturnal restlessness and wandering, are seen in 90% of persons with dementia at some point in their course. Non-pharmacologic interventions, such as high intensity lighting, can play an important role in managing these behavioural and psychological symptoms by impacting both the visual and the circadian system. In order to assess the effects of prolonged exposure to high intensity light (about 1,800 lx horizontal on table level) on behaviour and circadian rhythmicity of institutionalised older adults with dementia, ceiling-mounted luminaires emitting bluish (6,500 K) and yellowish (2,700 K) light were installed in an intervention group that was compared to a control group of traditional dim lighting equipment. The study was performed from May to August 2006. Effects of the lighting intervention were assessed by the Dutch Behaviour Observation Scale for Intramural Psychogeriatrics (GIP), and tympanic temperature measurements. In the bluish light scenario, a significant improvement in restless behaviour was observed in the intervention group, as well as a significant increase in the range of tympanic temperature. These effects were not found in the yellowish light scenario. Further evidence is found that high intensity bluish light may play a role in managing restless behaviour and improving circadian rhythmicity in institutionalised older adults with dementia. 1. Introduction An estimated 24.3 million people worldwide cope with dementia syndrome, and this number is to rise to 81.1 million by 20401. Behavioural and psychological symptoms are seen in 90% of persons with dementia at some point in their course2, irrespective of the level of cognitive impairments. Non-pharmacologic or non-medical interventions can play an important role in managing these problems2. The foundation of non-pharmacologic management is recognising that the person with dementia is no longer able to adapt, and that instead the living environment must be adapted to the person’s specific needs3. Such adaptations are believed to be effective in improving health, behaviour, and well-being4,5. Special lighting is one of such important non-pharmacological interventions6. The best known benefits of light are visual, i.e., being able to see, and the prevention of falls. Moreover, light plays a role in regulating important biochemical processes, immunologic mechanisms, and neuroendocrine control (for instance, melatonin and cortisol), via the skin and via the eye7,8. Exposure to light is the most important stimulus for synchronising the biological clock9, suppressing pineal melatonin production10, elevating core body temperature11, and enhancing alertness11,12. The circadian system, which is orchestrated by the hypothalamic suprachiasmatic nuclei (SCN), influences virtually all tissue in the human body. Light activates intrinsically photosensitive retinal ganglion cells (ipRGCs) in the eye, which discharge nerve impulses that are transmitted to the SCN in the brain13. The action spectrum of the ipRGCs14 is different from those of photoreceptors for scotopic and photopic vision. The ipRGCs are particularly sensitive to short-wavelength light, i.e., bluegreen light15. In people with Alzheimer’s, degenerative changes in the SCN appear to be a biological basis for circadian disturbances, which might be reversed by stimulation of the SCN by light16. The timing the sleep-wake cycle can show a far wider variation; times of sleep and activity can vary substantially from day to day, or can be temporarily inverted17. Restlessness, disturbed sleep cycles and wandering form a high burden for carers, and are among the main reasons for institutionalisation17-22. In institutional settings, these problems concerning the proper functioning of the circadian rhythmicity deteriorate and in combination with behavioural problems pose stress on professional carers and other residents. In older adults, light levels needed for the orchestration of the SCN are significantly higher than those required for proper vision, due opacification and yellowing of the vitreous and the lens19,23. In practice, many older adults are not exposed to illuminance levels that are sufficiently high, due to poorly-lit homes (up to 400 lx), and the short periods of time spent outdoors. This forms a great contrast with the horizontal illuminances found outdoors that can reach between 10,000 and 100,000 lx during daytime.
139
![Page 153: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/153.jpg)
It is hypothesised that high intensity lighting, with illuminance levels of well over 1,000 lx, may play a role in the management of dementia. Although the vast majority of people with dementia live in the own home, most lighting studies focus on older adults in nursing homes, due to better options for controlled study design and the costs for the expensive lighting equipment. In many nursing homes, bright light treatment by table-mounted luminaires requiring much supervision is applied to entrain the biological clock. The results of this therapy on managing sleep, behavioural, mood, and cognitive disturbances show preliminary positive signs, but more research is needed16. Another approach that is gaining popularity, also for ethical and practical reasons, is to increase the general illuminance in rooms by ceiling-mounted lighting. A study by van Someren et al.24 providing light of over 1,100 lx (790 lx min; 2,190 lx max) during the whole day to 22 people with dementia resulted in an increased stability of the rest-activity rhythm in participants with intact vision. A cluster-unit crossover intervention trial by Sloane et al.25 on the effects of high-intensity light found that night-time sleep of older adults with dementia (n=66) improved when exposed to morning and all-day light, with the increase most prominent in participants with severe or very severe dementia. Unfortunately, it is unknown how long the effects of bright light last and how to predict which people respond positively to light treatment18. Also, many studies lack a description of the lighting used. In summary, adequate lighting to improve behaviour and circadian rhythmicity, which people are exposed to in an ethical and unobtrusive way, is yet to be researched and modelled in more detail. This field study aims to assess effects of prolonged exposure to high intensity light with a high, bluish correlated colour temperature (CCT), and a low, yellowish correlated colour temperature, emitted from ceiling-mounted luminaires on behaviour and circadian rhythmicity of institutionalised older adults with dementia, compared to a control group of traditional dim lighting equipment.
Figure 1. One of the living rooms, with lighting equipment installed above the dining tables.
140
![Page 154: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/154.jpg)
2. Methodology 2.1. The building and nursing The psychogeriatric ward in this study was located in the city of Eindhoven, The Netherlands. The psychogeriatric ward was located on the ground floor and consisted of 3 communal living rooms (Figures 1 and 2), connected to the shared bedrooms by a circular corridor. Windows of thermally insulating glass were present in about two thirds of the walls of rooms 2 and 3, and about half of room 1. Windows were facing west in room 1, north-east in room 2, and south west in room 3. The orientations of the rooms were not considered in the study. Mean air temperature in the living room was kept at room temperature. The clothes worn were standard clothing packages, including dresses or trousers, blouses and sweaters. Most residents were involved in sedentary activity, including reading and watching television. In general, residents were out of bed between 07:00 and 21:00 hours. Some residents went to bed to rest about 13:30 hours. More stable ‘Zeitgebers’ were formed by the fixed times of meals (08:00-10:00, 12:00, 12:30, 17:00 hours), and tea and coffee breaks (07:00, 10:30, 16:00, 19:00, 21:00 hours). The meals were served in the living room, underneath the test luminaires. During the experiment, five members of staff, including nurses, were available per living room from 07:00 to 15:00 hours (total of 15), and two members of staff from 15:00 to 23:00 hours (six in total). During the night shift there were three members of staff to manage the three living rooms together.
Figure 2. Layout of the living rooms. The luminaires are shown as clusters of squares.
141
![Page 155: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/155.jpg)
2.2. Subjects Informed consent was signed by 42 residents and/or their responsible relatives out of a total population of 61 residents of the psychogeriatric ward. Of these 42 residents, only 26 people started with the test protocol. Bed-ridden residents were excluded from the study. The control group consisted of ten people, and the intervention group of 16 people. In the control group, one person passed away during intervention 2, and one person did not participate in the tympanic temperature measurements because of hearing aids. Institutionalisation took place on the basis of an indication for psychogeriatric care by a needs assessment centre. All participants were clinically diagnosed by the medical staff, resulting in diagnoses of probable Alzheimer’s disease (AD), vascular dementia (VD), or mixed Alzheimer’s disease and vascular dementia (MX) (Table 1). Residents with types of dementia other than Alzheimer’s disease were not excluded because rhythm disturbances also occur in people with other types of dementia. There may, however, be differences in the type and severity of the disturbance as well as in the response of the disturbances to bright light therapy24. Table 1. Population of the wards. Gender Age [years] Clinical diagnosis
Male Female Mean SD AD VD MX Control group 3 7 84.4 5.7 6 1 3 Intervention group 4 12 86.3 7.6 10 5 1 Total 7 19 85.6 6.9 16 6 4
Table 2. Study design. Week number
Lighting condition (mean Ehorizontal without daylight [lx] / CCT [K]) (rooms 1 and 3)
Measurements and assessments (rooms 1, 2 and 3)
Remarks
15 Rearranging tables and furniture in living rooms
16 Installing lighting equipment
17-19 Baseline (200 / 2,700)
20 Baseline (200 / 2,700)
Tympanic temperature, illumination at eye level (11x); GIP (1x)
21-23 Bluish (1750-1810 / 6,500)
24 Bluish (1750-1810 / 6,500)
Tympanic temperature, illumination at eye level (11x); GIP (1x)
25 Baseline (200 / 2,700)
Holiday period of half of the resident population
26-28 Baseline (200 / 2,700)
29-31 Yellowish (1750-1810 / 2,700)
32 Yellowish (1750-1810 / 2,700)
Tympanic temperature, illumination at eye level (11x); GIP (1x)
There was no clinical basis for assigning the people over the living rooms when entering the nursing home. The residents spent most of their days in one of three shared living room they had been assigned to. The interior design and type of furniture were of the same type for all living rooms. The residents had been living in that ward for 22±19 (mean, SD) months with a
142
![Page 156: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/156.jpg)
minimum of three months and a maximum of 77 months. Two thirds of the residents received visitors at least twice a week. Medical records indicated severe visual deficiencies in only six residents (cataract and impaired vision; 75%). In summer, seven people stayed indoors, while the 19 spent some limited time outdoors. 2.3. Study design The intervention study was performed between May and August 2006 (Table 2). Pre-, mid-, and post-trial assessments of various parameters/scales were taken in weeks 20, 24 and 32 to investigate any generalisation of effects to behaviour and circadian rhythmicity on the ward. In the week prior to the lighting intervention, GIP scores, environmental light levels, and tympanic temperature were assessed in compliance with instructions supplied to all participating members of staff. The study coordinator visited the ward to ensure that assessments and procedures were carried out consistently. Hereafter, the installed bright light equipment in living rooms 1 and 3 was turned on. Both groups followed the same experimental protocol. Living room number 2 was the control room. Subjects in the intervention groups were exposed to experimental conditions of a bluish correlated colour temperature for three weeks. Then the experimental lighting was turned off, for the situation to return to baseline conditions for two weeks. Thereafter, the experimental lighting in rooms 1 and 3 was turned back on in a yellowish correlated colour temperature for three weeks. After the second period of high intensity lighting, lights were switched down to baseline level. By the end of the two interventions, assessments of GIP scores, tympanic temperature and illumination levels took place. 2.4. Behaviour The Dutch Behaviour Observation Scale for Intramural Psychogeriatrics (Gedragsobservatieschaal voor de Intramurale Psychogeriatrie, GIP)26-28, used in this study for determining the behavioural conditions of the residents, is made up of fourteen subscales that can be used separately. Of the fourteen subscales, only five subscales for apathic behaviour, disturbances of consciousness, restless behaviour, depressive/sad behaviour, and anxious behaviour were used. An assessment of limitations in activities of daily living is not included in the GIP scale, but can be derived from it by approximation28. This part of the study could not be carried out blindly for two reasons: (i) the nurses filling out the scoring lists make overtime observations and thus have to be familiar with the subject, and (ii) the type of lighting intervention is visible (none, versus bluish or yellowish lighting). Nurses involved in this study were already familiar with assessing GIP scores and with the residents and their behaviour. They were instructed to fill out the lists in compliance with their observations, and not with expectations or possible outcomes of the study. 2.5. Tympanic temperature In a study on rats, Scheer et al.29 demonstrated that the endogenous circadian rhythm in core body temperature depends crucially on the presence of functional SCN, and that light has an immediate and circadian-phase dependent core body temperature suppressing effect in rats with intact SCN. This study used tympanic temperature as a marker of circadian rhythm. In general, there are four types of age-related changes in circadian rhythm; (i) reduction in amplitude, (ii) earlier circadian rhythm phase, (iii) shortening of natural free-running period, and (iv) worsening of toleration of abrupt phase shifts30. Body temperature is known to fluctuate over the day, with amplitude of 0.5 K in healthy adults, and a minimum between 04:00 and 06:00 hours, and a maximum plateau between 12:00 and 18:00 hours31. Tympanic temperature was measured eleven times a day by a Braun 4520 ear thermometer. The nurses received instructions on how to measure tympanic temperature correctly, and were asked to measure three times and fill out the average temperature. Moreover, the study coordinator also participated in the temperature measurements. The sampling hours were (i) at wake up (dark conditions in the private room), (ii) one hour after wake up, (iii) two hours after wake up, (iv) approximately five hours after wake up, (v) approximately eight hours after wake up, (vi) three hours before going to bed, (vii) two hours before going to bed, (viii) one hour before going to bed, (ix) bed time (dark conditions in room), (x) early night-time measurement, and (xi) late night-time measurement. During tympanic temperature measurements, vertical illuminance measurements took place simultaneously at the eye level of the subjects. Data were reduced to single values for mean tympanic temperature, mean
143
![Page 157: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/157.jpg)
range of tympanic temperature (two times the amplitude) and mean late-night temperature, which were considered in further analysis. 2.6. Lighting equipment and measurements In living rooms 1 and 3 the existing ceiling-mounted illumination above the table that was used by the participants for their meals, was replaced by five new luminaires of the type Philips Strato TPH710 SKY. Each new fitting contained eight high-intensity fluorescent tubes (TL5-49W/827/865). The general colour rendering index (Ra) of the lighting was 85. Based on simulations in the computer program DIALux 4.1 by DIAL GmbH, an arrangement of luminaires was designed in order to obtain the largest illuminance level on vertical eye level as possible without causing visual discomfort, in an in vivo situation (Figure 3). The most efficient layout was a combination of two clusters of luminaires, i.e., one cluster of two and a second cluster of three luminaires above the dining tables. When measuring the equipment at night, to exclude daylight, horizontal illuminance levels at table height reached 1,750 to 1,810 lx. Ariës32 hypothesises that vertical light intensities of 1,000 to 1,500 lx should bring about biological stimulation in people without impairments to the eye. Aarts and Westerlaken23 state that illuminance levels for older adults with aged eye tissue should be at least three times higher due to the diminished light transmittance of the eye. During daytime, higher illuminance levels (about 3.0 klx) are impossible to obtain in our setting without the use of excess equipment. The luminaires were installed away (2 to 6 metres) from the windows, near the core of the building (Figure 2). The lighting equipment was switched on from base-line conditions (Ehorizontal about 200 lx, added artificial light) each morning at 07:30 hours, and allowed to gradually reach at least 1,000 lx vertical by 08:00 hours. This amount of lighting was gradually lowered at 18:00 hours in order to reach a level of 200 lx at 18:30 hours. In order to maximise the exposure to ‘bright’ light, the lighting was not dimmed during lunch break. The lighting during the first intervention had a CCT of 6,500 K, and 2,700 K during the second intervention. This corresponds to bluish and yellowish colours respectively. Since the direction of light at the retina plays an import role in non-visual effects of lighting32, the vertical illuminance at the position of the eye was measured with a Hagner cell type SD 2, simultaneously with tympanic temperature; taking into account the participant’s viewing direction and angle.
Figure 3. Luminaire lay-out simulated in DIALux, showing isographs for horizontal illumination at a height of 1.2 metres. 2.7. Statistical analyses Analyses of the effects of the two lighting scenarios, on GIP-scores and tympanic temperature were performed with both parametric and non-parametric statistical methods. Data analysis was carried out using SPSS 14.0 for Windows. The critical p-value was set at 0.05 for
144
![Page 158: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/158.jpg)
between-group comparisons of behaviour and tympanic temperature at baseline. The Bonferroni correction was applied to all other comparisons (critical p-value of 0.025). Non-parametric statistics for independent and related samples were employed to test whether observed behaviour (GIP) differed between the control and intervention groups, and within groups, for the various lighting scenarios. Mann-Whitney U-tests were used for between group differences, and Wilcoxon signed ranks tests were used for within group differences. For the analyses of tympanic temperature, independent samples t-tests were used for between group differences, and loose paired-samples t-tests for within group differences.
Figure 4. Average measured vertical illuminance in the rooms at the three research stages. 3. Results 3.1. Lighting measurements Lighting measurements showed that vertical illuminance at baseline did not differ significantly the groups (Table 3, Figure 4). The vertical illuminance during both interventions was significantly higher in the intervention group than in the control group (p=.000 and p=.015). The people in the intervention group were thus exposed to higher lighting levels, even though depending on the orientation and seating distance from the window, the amount of light on the individual eye differed. 3.2. Behaviour The median values of the five researched GIP subscales are given in Table 4. To allow for comparison, hypothetical means (ordinal scale) are given in Table 4 as well. Mann-Whitney U-tests showed a significant difference in GIP subscale scores for anxious behaviour between the two groups at baseline (p<.05), as well as a statistical trend (p<.1) for depressive/sad behaviour. Therefore, these two subscales were omitted from further study, since for proper comparison baseline scores should not be significantly different. Only the subscales for apathic behaviour, disturbances of consciousness and restless behaviour were considered for further analyses.
145
![Page 159: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/159.jpg)
Tab
le 3
. Ver
tical
illu
min
ance
s m
easu
red
at th
e ey
e in
the
cont
rol a
nd in
terv
entio
n ro
oms
at th
e th
ree
rese
arch
sta
ges.
Bas
elin
e In
terv
entio
n 1
Inte
rven
tion
2 E
vert
ical [l
x]
Con
trol
gr
oup
In
terv
entio
n gr
oup
p- va
lue
Con
trol
gr
oup
In
terv
entio
n gr
oup
p- va
lue
Con
trol
gr
oup
In
terv
entio
n gr
oup
p- va
lue
Mea
n 15
6 86
.2
20
144
413
.000
43
41
0 .0
15
Max
31
6 21
1
416
1,14
0
100
1,31
0
Tab
le 4
. Med
ian
scor
es o
f GIP
sub
scal
es a
nd m
ean
tym
pani
c te
mpe
ratu
res
of c
ontr
ol a
nd in
terv
entio
n gr
oups
, and
res
ults
(p-
valu
es)
of M
ann-
Whi
tney
U-
test
s (G
IP)
and
inde
pend
ent-
sam
ples
t-te
sts
(Tty
mp)
for
betw
een-
grou
p di
ffere
nces
at v
ario
us r
esea
rch
stag
es.
B
asel
ine
Ass
essm
ent p
erio
d 1
Ass
essm
ent p
erio
d 2
C
ontr
ol
grou
p In
terv
entio
n gr
oup
p-va
lue
Con
trol
gr
oup
Inte
rven
tion
grou
p p-
valu
e C
ontr
ol
grou
p In
terv
entio
n gr
oup
p-va
lue
GIP
su
bsc
ale*,
†,‡
n=11
n=
15
n=
11
n=15
n=10
n=
15
A
path
ic b
ehav
iour
8.
5 (9
.4)
7.5
(9.1
) .6
10
8 (8
.7)
10 (
10.5
) .3
05
10 (
9.7)
9
(10)
.8
92
Dis
turb
ance
s of
co
nsci
ousn
ess
8 (8
.5)
6.5
(7.1
) .2
59
6.5
(5.6
) 4.
5 (6
.1)
.610
7
(6.6
) 6
(7.6
) .8
07
Res
tless
beh
avio
ur
5.5
(5)
3.5
(3.5
) .1
48
4 (4
) 2.
5 (2
.3)
.041
4.
5 (5
.0)
2.5
(3.3
) .0
55
Dep
ress
ive/
sad
beha
viou
r§ 4.
5 (5
.1)
2.5
(3.8
) .0
61
2 (3
.1)
2 (3
) -
4 (5
.1)
2.5
(4.4
) -
Anx
ious
beh
avio
ur§
5.5
(5.9
) 1
(2.9
) .0
41
3.5
(3.5
) 0.
5 (1
.9)
- 8
(7.6
) 2
(3.3
) -
Tty
mp p
aram
eter
¶
n=
10
n=15
n=10
n=
15
n=
9 n=
15
M
ean
tem
pera
ture
[°
C]
35.7
35
.8
.700
36
.0
35.7
.0
69
35.9
36
.2
.539
Mea
n ra
nge
[K]
1.2
1.3
.528
1.
2 1.
8 .0
02
1.2
1.0
.305
n=9
n=15
n=9
n=15
n=8
n=15
Mea
n la
te-n
ight
te
mpe
ratu
re [°
C]
35.6
35
.5
.524
35
.6
35.7
.4
80
36.1
36
.2
.381
* Exa
ct s
igni
fican
t diff
ere
nces
(2-
taile
d, α
= 0
.05
at b
asel
ine;
α =
0.0
25 a
fter
inte
rven
tions
1 a
nd 2
) m
ark
ed b
old.
† T
he .5
med
ian
scor
es in
eve
n sa
mpl
e si
zes
are
the
mea
n va
lue
of t
he G
IP s
core
s 1
belo
w a
nd 1
ab
ove
the
med
ian
valu
e. G
IP s
core
s a
re a
lwa
ys n
atu
ral n
umbe
rs.
‡ Hyp
othe
tical
mea
n va
lues
of G
IP s
ubsc
ale
sco
res
are
give
n be
twee
n br
acke
ts.
§ No
anal
yses
for
betw
een
-gro
up
diffe
renc
es a
fter
asse
ssm
ent p
erio
ds 1
and
2.
¶ Sig
nific
ant d
iffer
ence
s (2
-tai
led,
α =
0.0
5 at
bas
elin
e; α
= 0
.025
aft
er in
terv
entio
ns 1
and
2)
ma
rked
bol
d.
146
![Page 160: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/160.jpg)
Tab
le 5
. Res
ults
(p-
valu
es)
of n
onpa
ram
etric
Wilc
oxon
sig
ned
rank
s te
sts
(GIP
), a
nd r
esul
ts o
f par
amet
ric p
aire
d-sa
mpl
es t-
test
s (T
tym
p), c
ompa
ring
asse
ssm
ent p
erio
ds 1
and
2 to
bas
elin
e co
nditi
ons.
Con
trol
gro
up
Inte
rven
tion
grou
p A
sses
smen
t per
iod
1A
sses
smen
t per
iod
2A
sses
smen
t per
iod
1A
sses
smen
t per
iod
2G
IP s
ub
scal
e*
A
path
ic b
ehav
iour
.2
33
.357
.0
17.2
30
Dis
turb
ance
s of
co
nsci
ousn
ess
.0
05
.030
.1
53
.593
Res
tless
beh
avio
ur
.058
.5
72
.005
.623
Tty
mp p
aram
eter
†
M
ean
tem
pera
ture
.0
03
.472
.9
45
.074
M
ean
rang
e .9
65
.866
.0
02
.009
M
ean
late
-nig
ht te
mpe
ratu
re
1.00
0 .0
11
.129
.0
00
* Asy
mpt
otic
sig
nific
ant d
iffer
ence
s (α
= 0
.025
) m
arke
d bo
ld.
† Sig
nific
ant d
iffer
ence
s (2
taile
d, α
= 0
.025
) m
ark
ed b
old.
147
![Page 161: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/161.jpg)
Wilcoxon signed ranks tests (Table 5), used to find significant differences between results of the interventions and baseline conditions, showed a significant decrease (p<.01) for disturbances of consciousness after intervention 1 for the control group. After intervention 2, only a decrease (p<.05) was found for disturbances of consciousness compared to baseline. The GIP score, however, was somewhat higher compared to intervention 1. For the intervention group, a significant increase (p<.025) was found for apathic behaviour, as well as a significant decrease for restless behaviour (p<.01). There were no significant differences after intervention 2 compared to baseline conditions. When the differences from the Wilcoxon signed ranks tests were compared again to the results of the Mann-Whitney U-tests, there were no significant between-group differences for apathic behaviour after intervention 1. There were also no significant between-group differences for disturbances of consciousness. We did see a trend (.025<p<.05) in restless behaviour after intervention 1, indicating that the scores for restless behaviour of the two groups differ from each other, and that the bluish light intervention (6,500 K) reduced restless behaviour (minus one scale unit on a scale ranging from 0 to 15, from 3.5 to 2.5 median values) compared to the control. No significant differences were found after the yellowish light intervention, implying that the spectral built-up of the light may play an important role. 3.3. Tympanic temperature Mean tympanic temperature, mean range of tympanic temperature and mean late-night temperature are given in Table 4. Independent t-tests (Table 4) showed that the tympanic temperature parameters did not differ from each other significantly, and can therefore be used for further analyses. Results of paired-samples t-tests (Table 5) showed a significant increase (p<.005) in mean temperature within the control group after intervention 1. When analysing mean temperature range, there were no differences within the control group, while the intervention group showed a significant increase (p<.005) after intervention 1 and a significant decrease after intervention 2 (p<.01). When analysing mean late-night temperature, both the control and the lighting groups showed significant increases (p<.025 and p=.000) in temperature after intervention 2. When these differences were compared again with the results from the independent t-tests, we found a significantly higher mean range for the intervention group after intervention 1 (0.6 K; p<.005). 4. Discussion 4.1. Behaviour and light Of the five GIP subscales considered in this study, we did not study the effects of lighting on depressive/sad and anxious behaviour due to differences in baseline conditions. After interventions 1 and 2, both control and intervention groups showed significant between-group changes in various GIP subscale scores. In the control group, there were positive developments in GIP scores for several subscales, implying that there may have been changes in behaviour due to other factors. Although there were no significant differences between the two groups after analysing the significant within-group differences in behaviour, there was a trend for restless behaviour. The baseline value for restless behaviour in both groups was low (median 5.5 and 3.5) and not of major concern to the nursing staff given their observation scores. After the bluish lighting intervention, observed restless behaviour of both groups improved, albeit that the results for the intervention group were more positive and showed the statistical trend. Even though other factors may have played a role, there was a significant improvement in restless behaviour during the bluish lighting intervention that also showed in the between-group comparisons. This result might have been more pronounced if the subjects had had higher scores for restless behaviour at baseline, for instance, in a group with more advanced dementia. Although this study did not analyse the effects of ambient bright light on depressive/sad behaviour, there is an American study available on this matter. Hickman et al.33 studied the effects of a high-intensity, low-glare lighting system on depressive symptoms as expressed on
148
![Page 162: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/162.jpg)
the Cornell Scale for Depression in Dementia in the same settings and population as Sloane et al.25. Their findings did not support the use of ambient bright light therapy as a treatment for depressive symptoms, although the therapy is widely propagated as a non-pharmacologic intervention for combating depressive symptoms. Hickman et al.33 do state that a subpopulation of persons with dementia may benefit from the intervention, and that an individual rather than unit-level intervention approaches are more beneficial. A problem in this study is the way behaviour was assessed; by partially ‘subjective’ observations instead of objective measurements. A possible bias in this study might be caused by questions concerning the semantics of the validated GIP scale. The character of the answers on the questionnaire (never, hardly ever, sometimes and often), in which the underlying meanings of the numbers are not spread evenly across a numeric scale, can lead to considerable deviations. For instance, there is a far smaller interval size between sometimes and often, than between never and hardly ever. On the other hand, nurses were familiar with the scoring scale and the resident population, reducing the scale of any bias. These unequal- interval sizes made it important for baseline conditions to be statistically equal to allow for further analyses. To our knowledge, there are no studies on the natural decline in GIP scores of residents of psychogeriatric wards. It is likely that there is an overall irreversible deterioration in behaviour when dementia progresses until people reach the end-stage of the syndrome. A study by Baker et al.34 on the influence of multi sensory stimulation on GIP subscale scores stated that behaviour on the ward remained stable during a 4-week trial. GIP scores and the loss of skills generally differ from person to person and depend heavily on the character of individuals. Since the effects of ambient bright light on behaviour are not fully understood, it is unknown whether lighting has a positive effect on GIP scores, or whether a stand-still in the decline of the behavioural observations should be expected when exposing older adults with dementia to ambient bright light. Even more relevant issue is how to implement the results in the own home situation. According to Hatfield et al.22, the deterioration of activity/rest cycles is a common and progressive feature in home-dwelling people with Alzheimer’s. In the future, lighting solution may alleviate the burden of care that rests upon the shoulders of relatives. 4.2. Tympanic temperature Body core temperature, and thus tympanic temperature, is one of the most powerful and stable indicators of circadian synchrony, reflecting activity of the circadian rhythm’s strong oscillator35. The average tympanic temperatures found in this study’s subjects are about 36°C. The normal body temperature range for older adults is 36.1 to 37.8°C36. The temperatures found are on the lower side of the normal range, which may indicate disturbances in circadian rhythmicity or an altered metabolism. According to Kenney and Munce35, lower body core temperatures in older adults appear to reflect nutritional, disease and medication effects. Body core temperature should, in resting and thermoneutral conditions, be similar to that of younger adults. Lower temperatures may also point out to errors in instruments, the way temperature was measured by the staff, and anatomical properties of the ear canal, as is known from studies on infrared tympanic thermometry37-39. Tympanic temperature, however, can be measured objectively in contrast to GIP scores. In a study by Aizawa andTokura40 on the effect of daytime (09:30 to 18:00 hours) exposure to light (4,000 lx and 100 lx) on tympanic temperature in nine healthy young adults, average tympanic temperatures were significantly lower in the bright than in the dim condition. The lower tympanic temperatures found in the study cannot be only attributed to the light intervention, since they were also found in the control group. Perhaps the effects are due to unwanted exposure of participants to outdoor light, and a similar study carried out in winter should further investigate this matter. Other methods often used to assess circadian rhythmicity and sleep-wake patterns are the collection of melatonin from saliva and actigraphy. In our view, these methods posed too much strain on the residents or were not practical from a nursing point of view, and were therefore not applied. As to the lighting intervention, the bluish light seems to have had a positive effect on amplitude of circadian rhythm, and possibly a stabilising effect on mean tympanic
149
![Page 163: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/163.jpg)
temperature. However, the strengthened amplitude in the intervention group exceeds that of healthy adults. At the same time, such an effect may be due to an altered functioning of the brain in people with dementia. 4.3. Time of study and ambient temperature This study was carried out in late spring and summer. When weather was good, the majority of participants went outdoors for a period of time, where they were exposed to high levels of natural daylight. Exposure to high intensity daylight may have influenced mood and circadian rhythmicity to a higher extent as did the lighting intervention, although the effects of lighting in experiments carried out in winter and spring by van Someren24 required a day-long exposure to high-intensity light. Moreover, people did not only go outdoors, but also walked or moved around the corridor of the ward. By moving around, the effective light exposure may have been reduced to only 3 to 4 hours per day, for instance, during meals. Even though some residents left the room or fell asleep (eyes closed) during the experiment implying that exposure varied per individual, the exposure to light was always larger in the intervention group than in the control conditions. If outdoor exposure to daylight had played a role, the effects on behaviour and circadian rhythmicity should have shown in the data obtained during the yellowish light intervention, and also in the control group. Future research should be carried out in winter in order to exclude or minimise a number of factors. During winter, the contribution of sunlight to indoor light levels is less than in summer. Moreover, subjects do not go outdoors as frequently, and high outdoor temperatures possibly interacting with body temperature are not found. It is hypothesised that the hot weather in July may have influenced tympanic temperature or the measurement thereof to an unknown extent. Outdoor air temperature reached a maximum of 36.4°C on July 19th. On 14 days temperature reached 30°C. There were 27 days with temperatures exceeding 25°C. The lowest temperature was measured on July 7th: 23.7°C41. A mean maximum outdoor air temperature of 29.2°C led to an increase in indoor air temperatures that may have influenced the body temperature of the residents. In general, older individuals have a lower basic metabolic rate and activity level, and a higher threshold for sweating than the young; thus, it is more difficult for them to maintain normal body temperature during stressful thermal climatic conditions42,43. Higher temperatures may also have had a negative effect on behaviour during the yellowish CCT intervention, as persons are annoyed with the high temperatures or become lethargic. At the same time tympanic temperatures that are a representation of core body temperature were on the lower side, when one would expect an increase in body temperature in people with a diminished threshold for sweating. The additional heat gains from the lighting equipment were less than 1 K, and are therefore not considered as a cause of shifts in circadian rhythmicity. 4.4. Ethical considerations, safety, and benefits of lighting The ceiling-mounted luminaires used in this study provide an ethical way of exposing people to ambient bright light. Van Someren et al.24 describe a number of experiments in which subjects were placed in front of a table-mounted artificial light source for two hours, requiring continuous attendance from nursing staff to guarantee exposure and compliance. Besides ethical concerns, the extra attention of the nurses might introduce a placebo effect, and in work situations extra staff may even not be available24. The luminaires used in this study also support vision and carrying out activities. Nurses expressed concerns about any harmful effects of the installed equipment and the high intensity light to health and eye sight. Sloane et al.44 researched the impact of high-intensity, low-glare, ambient light (about 2,500 lx, 6,500 K, 85 Ra) on residents and staff of dementia care units in the United States, and compared the outcomes to a control of dim industrial lighting. Eleven symptoms considered as side-effects, namely: eyestrain, seeing spots, problems with glare, eye burning or irritation, eye redness, jitteriness, skin rash on the face or arms, severe agitation, headache, dizziness, and nausea, were minimal. The intensity of light from the equipment is still much lower than outdoor light levels in summer. A strengthened circadian rhythmicity in combination with improved behaviour has many practical benefits. People with dementia themselves may experience improved sleep, and may go through life in a more dignified manner. The improved health status may even be more inviting for relatives, who are else deterred by behavioural problems, to pay an extra
150
![Page 164: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/164.jpg)
visit. Last but not least, the burden of caregiving may be decreased by the lighting intervention. Care professionals may benefit from the lighting equipment themselves because of visual and non-visual effects the systems have. This could be a relevant addition to future research. Also, beneficial effects of high-intensity lighting in relation to night shifts are worth investigating. Although lighting undoubtedly has benefits in terms of visual capacities, special artificial lighting can never be a substitute for taking older adults outside or for care capacity problems. Every human being has the right to go outside - not merely for sensory activation - even though there are few (in)formal carers to take residents out for a short walk just to catch some fresh air. This, however, does not imply that residents are not entitled to have the best possible lighting equipment as an additional therapy. 5. Conclusions Our research has found further evidence that high intensity light with a high CCT (6,500 K), emitted by ceiling-mounted luminaires, improves circadian rhythmicity in institutionalised older adults with dementia, and may positively influence restless behaviour, without putting extra strain on the nursing staff or being an invasive treatment for older adults with dementia. Effects were not found for the yellowish light (2,700 K) intervention. However, more research is needed to strengthen the new evidence, for instance, by using a less subjective observation scale to assess behaviour, by using subjects with more pronounced restless behaviour, and by conducting experiments in winter. Acknowledgements All residents, family, and staff of the psychogeriatric ward of nursing home De Weerde (De Vitalis Zorg Groep), Eindhoven, The Netherlands, are thanked for their support and cooperation in this study. References 1. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie
H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca M and for Alzheimer’s Disease International. Global prevalence of dementia: A Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
2. Ritchie K, Lovestone S. The dementias. The Lancet 2002;360(9347):1759-1766 3. Desai AK, Grossberg GT. Recognition and management of behavioral disturbances in dementia.
Primary Care Companion to the Journal of Clinical Psychiatry 2001;3(3):93-109 4. Zeisel J, Silverstein NM, Hyde J, Levkoff S, Lawton MP, Holmes W. Environmental Correlates to
Behavioral Health Outcomes in Alzheimer's Special Care Units. The Gerontologist 2003;43(5):697-711
5. van Hoof J, Kort HSM. Healthy living environments for older adults with dementia. In: de Oliveira Fernandes E, Gameiro da Silva M, Rosado Pinto J, editors. Proceedings of the 8th International Conference Healthy Buildings, Volume III. Lisbon, Portugal. pp 89-93
6. Torrington JM, Tregenza PR. Lighting for people with dementia. Lighting Research and Technology 2007;39(1):81-97
7. Hughes PC, Neer RM. Lighting for the elderly: a psychobiological approach to lighting. Human Factors 1981;23(1):65-85
8. Webb AR. Considerations for lighting in the built environment: Non-visual effects of light. Energy and Buildings 2006;38(7):721-727
9. Czeisler CA, Allan JS, Strogatz SH, Ronda JM, Sanchez R, Rios CD, Freitag WO, Richardson GS, Kronauer RE. Bright light resets the human circadian pacemaker independent of timing of sleep-wake cycle. Science 1986;233(4764):667-671
10. Brainard GC, Rollag MD, Hanifin JP. Photic regulation of melatonin in humans: ocular and neural signal transduction. Journal of Biological Rhythms 1997;12(6):537-546
11. Badia P, Myers B, Boecker M, Culpepper J, Harsh JR. Bright light effects on body temperature, alertness, EEG and behaviour. Physiology and Behaviour 1991;50(3):583-588
151
![Page 165: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/165.jpg)
12. Cajochen C, Zeitzer JM, Czeisler CA, Dijk DJ. Dose-response relationship for light intensity and ocular and electroencephalographic correlates of human alertness. Behavioural Brain Research 2000;115(1):75-83
13. Moore RY, Speh JC, Card JP. The retinohypothalamic tract originates from a distinct subset of retinal ganglion cells. Journal of Comparative Neurology 1995;352(3):351-366
14. Rollag MD, Berson DM, Provencio I. Melanopsin, ganglion-cell photoreceptors, and mammalian photoentrainment. Journal of Biological Rhythms 2003;18(3):227-234
15. Thapan K, Arendt J, Skene DJ. An action spectrum for melatonin suppression: evidence for a novel non-rod, non-cone photoreceptor system in humans. Journal of Physiology 2001;535(1):261-267
16. Forbes D., Morgan D.G., Bangma J., Peacock S, Pelletier N, Adamson J. Light therapy for managing sleep, behaviour, and mood disturbances in dementia. Cochrane Database of Systematic Reviews 2004;(2):CD003946
17. Waterhouse JM, Minors DS, Waterhouse ME, Reilly T, Atkinson G (2002) Keeping in time with your body clock. Oxford University Press, Oxford, United Kingdom
18. Health Council of The Netherlands (2002) Dementia. Publication no. 2002/04. Health Council of The Netherlands, The Hague, The Netherlands [in Dutch]
19. Abbott A. Restless nights, listless days. Nature 2003;245(6961):896-898 20. Riemersma RF. P1-340 Light and melatonin: effect on sleep, mood and cognition in demented
elderly. Neurobiology of Aging 2004;25(Supplement 2): S194 21. Harper DG, Volicer L, Stopa EG, McKee AC, Nitta M, Satlin A. Disturbance of endogenous
circadian rhythm in aging and Alzheimer disease. The American Journal of Geriatric Psychiatry 2005;13(5):359-368
22. Hatfield CF, Herbert J, van Someren EJW, Hodges JR, Hastings MH. Disrupted daily activity/rest cycles in relation to daily cortisol rhythms of home-dwelling patients with early Alzheimer's dementia. Brain 2004;127(Pt 5):1061-1074
23. Aarts MPJ, Westerlaken AC. Field study of visual and biological light conditions of independently-living elderly people. Gerontechnology 2005;4(3):141-152
24. van Someren EJ, Kessler A, Mirmiran M, Swaab DF. Indirect bright light improves circadian rest-activity rhythm disturbances in demented patients. Biological Psychiatry 1997;41(9):955-963
25. Sloane PD, Williams CS, Mitchell CM, Preisser JS, Wood W, Barrick AL, Hickman SE, Gill KS, Connell BR, Edinger J, Zimmerman S. High-intensity environmental light in dementia: effect on sleep and activity. Journal of the American Geriatrics Society 2007;55(10):1524-1533
26. Verstraten PF. The GIP. 14 observation scales for psychogeriatric behavior problems. Tijdschrift voor Gerontologie en Geriatrie 1988;19(4):147-151 [in Dutch]
27. Verstraten PJF, van Eekelen CWJM (1988) Handleiding voor de GIP: gedragsobservatieschaal voor de psychogeriatrie. Van Loghum Slaterus, Deventer, The Netherlands [in Dutch]
28. de Jonghe JFM, Pot AM, Teunisse S (2001) Hoofdstuk 10. Observatie- en beoordelingsschalen. In: Jonker C, Verhey FRJ, Slaets JPJ, editors. Alzheimer en andere vormen van dementie. Bohn Stafleu Van Loghum, Houten, The Netherlands. pp 101-134 [in Dutch]
29. Scheer FAJL, Pirovano C, van Someren EJW, Buijs RM. Environmental light and suprachiasmatic nucleus interact in the regulation of body temperature. Neuroscience 2005;132(2):465-477
30. Monk TH. Aging human circadian rhythms: conventional wisdom may not always be right. Journal of Biological Rhythms 2005;20(4):366-374
31. Mayer E (1985) Tagesgang der thermischen Behaglichkeit? In: Fanger PO, editor. Proceedings of the CLIMA 2000 World Congress on Heating, Ventilating and Air-Conditioning, Volume 4, Copenhagen, Denmark. pp 141-146 [in German]
32. Ariës MBC (2005) Human Lighting demands. Healthy Lighting in an office environment. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
33. Hickman SE, Barrick AL, Williams CS, Zimmerman S, Connell BR, Preisser JS, Mitchell CM, Sloane PD. The effect of ambient bright light therapy on depressive symptoms in persons with dementia. Journal of the American Geriatrics Society 2007;55(11):1817-1824
34. Baker R, Holloway J, Holtkamp CCM, Larsson A, Hartman LC, Pearce R, Scherman B, Johansson S, Thomas PW, Wareing LA, Owens M. Effects of multi-sensory stimulation for people with dementia. Journal of Advanced Nursing 2003;43(5):465-477
35. Kenney WL, Munce TA. Invited review: aging and human temperature regulation. Journal of Applied Physiology 2003;95(6):2598-2603
36. Simmers LM (1988) Diversified Health Occupations. Second edition. Albany: Delmar, Albany, NY, USA. pp 150-151
37. McCarthy PW, Heusch AI. The vagaries of ear temperature assessment. Journal of Medical Engineering & Technology 2006;30(4):242-251
38. Daanen HA. Infrared tympanic temperature and ear canal morphology. Journal of Medical Engineering & Technology 2006;30(4):224-234
152
![Page 166: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/166.jpg)
39. Evans J, Kenkre J. Current practice and knowledge of nurses regarding patient temperature measurement. Journal of Medical Engineering & Technology 2006;30(4):218-223
40. Aizawa S, Tokura H. Exposure to bright light for several hours during the daytime lowers tympanic temperature. International Journal of Biometeorology 1997;41(2):90-93
41. Anomymous. Hitte maakt dorstig. Eindhovens Dagblad 2006;94(Wednesday 2 August):11 [in Dutch]
42. van Someren EJW, Raymann RJ, Scherder EJ, Daanen HA, Swaab DF. Circadian and age-related modulation of thermoreception and temperature regulation: mechanisms and functional implications. Ageing Research Reviews 2002;1(4):721-778
43. van Hoof J, Hensen JLM. Thermal comfort and older adults. Gerontechnology 2006;4(4):223-228
44. Sloane PD, Noell-Waggoner E, Hickman S, Mitchell CM, Williams CS, Preissler JS, Barrick AL, Zimmerman S, Brawley E. Implementing a lighting intervention in public areas of long-term care facilities. Lessons learned. Alzheimer’s Care Quarterly 2005;6(4):280-293
153
![Page 167: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/167.jpg)
154
![Page 168: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/168.jpg)
7
Lighting intervention II: dim light (17,000 K) van Hoof J, Schoutens AMC, Aarts MPJ High colour temperature lighting for institutionalised older people with dementia. Building and Environment 2009;44(9):1959-1969 Chapter 7 presents a second field study concerning the effects of lighting on behaviour and circadian rhythmicity of older people with dementia (clinical-controlled trial). In literature, positive effects are ascribed to high illuminance levels in combination with high colour temperatures. Therefore, the effects of a very high CCT (17,000 K) intervention versus a low CCT (2,700 K) control at low illuminance levels (500 lx) were investigated in order to see whether a very high CCT can compensate for lower illuminance levels in terms of effects on behaviour and circadian rhythmicity of older people with dementia. Within the combined framework of ICF-MIBD, Chapter 7 deals with an analysis and evalution of the effects building services (lighting) have within the basic and functional value domains and related performances.
155
![Page 169: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/169.jpg)
156
![Page 170: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/170.jpg)
Non-pharmacologic interventions, such as high intensity white light with a high output in the short wavelength part of the spectrum can play an important role in the care for older people with dementia. In order to assess the effects of prolonged exposure to low intensity light, i.e., E < 500 lx, from a light source with a high correlated colour temperature (CCT) (17,000 K versus 2,700 K) on behaviour and circadian rhythmicity of institutionalised older adults with dementia, a cross-over design field study was carried out in a psychogeriatric day care ward in May and June 2008. Effects of the lighting intervention were assessed by the Dutch Behaviour Observation Scale for Intramural Psychogeriatrics (GIP), and tympanic temperature measurements. The two lighting solutions installed, particularly the 17,000 K lighting, led to much lower colour temperatures at eye level in practice. No significant improvements in behaviour and in the range of tympanic temperature were found for the lighting interventions tested. This might indicate that higher illuminance levels are the important factor in establishing successful light therapy, and that higher colour temperature may add up to the effectiveness. At the same time, the 17,000 K light tubes did not result in ultrahigh colour temperatures at the eye level of the subjects, and may even have an adverse effect on some persons with dementia. 1. Introduction According to estimations, over 24 million people worldwide cope with dementia syndrome, and this number is to rise to 81.1 million by 20401. Behavioural and psychological symptoms are seen in 90% of persons with dementia at some point in their course2. Non-pharmacologic or non-medical interventions can play an important role in managing these problems2. Special lighting is one of such important non-pharmacological interventions3-5. Adequate lighting enables people to see and prevents falls. Also, light plays a role in regulating important biochemical processes, immunologic mechanisms, and neuroendocrine control, via the skin and via the eye4,6. Exposure to light is the most important stimulus for synchronising the biological clock7, suppressing pineal melatonin production8, elevating core body temperature9, and enhancing alertness9,10. In older adults, (short-wave length) light levels needed for these effects are much higher than those required for proper vision, due to opacification and yellowing of the vitreous and the lens, which stem from biological ageing11,12. In practice, many older adults are not exposed to illuminance levels that are sufficiently high. Many homes are poorly-lit (up to 400 lx), and a lot of older people do not go outdoors for prolonged periods of time where illuminance levels are much higher11,12. The limited exposure to high levels of lighting is a cause of impaired functioning and problem behaviours, which form a great source of stress and a burden for carers, and are among the main reasons for institutionalisation13-15. High intensity lighting, with illuminance levels of well over 1,000 lx, may play a role in the management of dementia. Bright light treatment with the use of light boxes is applied to entrain the biological clock, to modify behavioural symptoms, and improve cognitive functions, by exposing people with dementia to high levels of light (for instance, Lovell et al.16, Graf et al.17, Thorpe et al.18), requiring supervision to make them follow the total protocol and may cause a bias in the outcomes of the therapy. The results of bright light therapy on managing sleep, behavioural, mood, and cognitive disturbances show preliminary positive signs, but there is a lack of adequate evidence obtained via randomised controlled trials to allow for a widespread implementation in the field19-21. Another approach that is gaining popularity, both from a research, ethical and practical point of view, is to increase the general illuminance in rooms where people with dementia spend their days to a high level22. Studies by Rheaume et al.23, van Someren et al.24, Riemersma-van der Lek et al.25, and van Hoof et al.5, that exposed institutionalised people with dementia to ambient bright light through ceiling-mounted luminaires showed short-term and long-term effects as lessened nocturnal unrest, a more stable sleep-wake cycle, possible improvement to restless and agitated behaviour, increased amplitude of the circadian body temperature cycle, and possible improvements to sleep. Still, the field of study is new and lighting equipment used needs to be researched and modelled in more detail, both in laboratory and field settings. Van Hoof et al.5 have shown that not only
157
![Page 171: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/171.jpg)
illuminance levels are important, but that the correlated colour temperature (CCT) of the lighting equipment installed plays a role too, and that certain behavioural and circadian effects that are obtained with 6,500 K light are not found in 2,700 K light. It is hypothesised that light with even higher CCTs may sort more outspoken effects. At the same time, the spectral build-up of the light may be so important, that the spectral composition by itself is enough to yield positive effects, and that high intensity in terms of illuminance levels is not even required. This field study aims to assess effects of prolonged exposure to low intensity white light (500 lx from electrical lighting on the eye level) with a high CCT of 17,000 K, and a low 2,700 K CCT, emitted from ceiling-mounted luminaires on behaviour and circadian rhythmicity of older adults with dementia in a day care ward in a care home. 2. Methodology 2.1. Study building The psychogeriatric day care centre in this study, which was situated in a care home, was located in the town of Gilze-Rijen, The Netherlands (Figures 1 and 2). The test rooms were located on the ground floor and consisted of two communal living rooms (Figure 1). The rooms contain two large tables where all residents are seated for the largest part of the day. The centres of these tables were located at a distance of approximately 4 metres from the windows. There is also a television corner with seats, which together form a third place where residents can sit down for a while. The rooms and the furniture are quite colourful for a health care setting in order to create a non-institutional atmosphere (Figure 2). Windows of thermally insulating glass were present in the external walls of the rooms, and made up about two thirds of the wall surface area. The ratio between window surface and floor surface was approximately 1:3. The height of the rooms was about 2.4 metres. Windows were facing east in both rooms. With the use of the validated light simulation tool Radiance version 3.9, the daylight condition in room A was simulated, and validated with light measurements taken in the room on a sunny day with a clear blue sky in the afternoon. Due to the elevation of the sun and orientation of the room, no direct sunlight could enter. The horizontal and vertical illuminance levels were both taken at a height of 1.2 metres with a horizontal grid of 2 by 2 metres (Figure 3). Near the tables, the contribution of daylight was found to be lower than 200 lx horizontal. The vertical illuminance in the direction of the façade ranged between 400 and 800 lx (Figure 3). That is why during the experiments the white translucent shading screens (Figure 2) in the room were positioned to keep out direct sunlight. During the experiments staff were instructed not to use these screens, unless there was much direct sunlight. Additional notes were placed next to the controls of the screen, and black tape was placed on the window panes to indicate the maximum opening height of the screens. Mean air temperature in the living room was kept at room temperature, i.e., 25 °C, which was verified by daily measurements at 14:00 h. The clothes worn were standard clothing packages, including dresses or trousers, blouses and sweaters. Most residents were involved in sedentary activity, including reading and watching television. In general, residents were present from 07:30 h and 22:15 h in room A (14:45 hours in total) and from 08:00h and 19:00h in room B (10:30 hours in total). Occupants of room B had a somewhat more independent lifestyle, and went to their own living quarters in the evening hours. Occupants of room A, however, had more supervision. This is a reason why a cross-over design was chosen.
158
![Page 172: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/172.jpg)
Figure 1. Floor plan of the day care centre. 2.2. Subjects Informed consent was signed by 23 subjects and/or their responsible relatives. One person was excluded because of a non-dementia-related psychogeriatric disorder. The 22 participants, with a mean age of 88.2 years, were randomly divided over two groups of 10 (group A) and 12 people (group B) respectively. All participants were clinically diagnosed by the medical staff, resulting in diagnoses of probable Alzheimer’s disease (AD), vascular dementia (VD), mixed Alzheimer’s disease and vascular dementia (MX), or Lewy Body dementia (Table 1). The majority of persons were diagnosed with vascular dementia. Residents with types of dementia other than Alzheimer’s disease were not excluded because rhythm disturbances also occur in persons with other types of dementia. There may, however, be differences in the type and severity of the disturbance as well as in the response of the disturbances to bright light therapy24. The residents spent most of their day in one of the rooms they had been assigned to. The interior design and type of furniture were of the same type for both rooms. The residents had been living institutionally for 45±37 (mean, SD) months. 2.3. Study design The intervention study was performed in May and June 2008 (Table 2). Pre-, mid-, and post-trial assessments of various parameters/scales were taken on nine assessment days in order to investigate any generalisation of effects to behaviour and circadian rhythmicity on the ward. In the weeks prior to the lighting intervention, GIP scores, environmental light levels, and tympanic temperature were assessed and measured in compliance with instructions supplied to all participating members of staff. The study coordinator visited the ward to ensure that assessments and procedures were carried out consistently. Hereafter, the installed bright light equipment was switched on for several consecutive days to find possible short-term effects. After these days, a short period of baseline lighting conditions was established once more. Both groups followed the same experimental protocol until May 26th. Thereafter, the design of a cluster-unit crossover intervention trial was chosen. The two methods are a combination of previous designs chosen by van Hoof et al.5 and Sloane et al.26. The protocol was stopped after June 24th. During each of the two light interventions, assessments of GIP scores, tympanic temperature and illumination levels took place. During the whole experimental period, logs were available to the care professionals to write down special or deviating events.
159
![Page 173: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/173.jpg)
Figure 2. Experimental luminaire as installed in the day care centre. 2.4. Behaviour The Dutch Behaviour Observation Scale for Intramural Psychogeriatrics (GIP)27, used in this study and by van Hoof et al.5 for determining the behavioural conditions of the residents, is made up of fourteen subscales that can be used separately. Of the fourteen subscales, only five subscales for apathic behaviour, disturbances of consciousness, restless behaviour, depressive/sad behaviour, and anxious behaviour were used. Subscale scores range from 0 (not present) to a maximum of 21 (most frequent and severe); subscale scores are 0 to 18 for apathic behaviour, 0 to 21 for disturbances of consciousness, 0 to 15 for restless behaviour, 0 to 18 for depressive/sad behaviour, and 0 to 18 for anxious behaviour. This part of the study could not be carried out blindly for two reasons: (i) the care professionals filling out the scoring lists make overtime observations and thus have to be familiar with the subject, and (ii) the type of lighting intervention is visible. Care professionals involved in this study were already familiar with assessing GIP scores and with the residents and their behaviour. They were instructed to fill out the lists in compliance with their observations, and not with expectations or possible outcomes of the study. 2.5. Tympanic temperature This study used tympanic temperature as a marker of circadian rhythm. In general, there are four types of age-related changes in circadian rhythm; (i) reduction in amplitude, (ii) earlier circadian rhythm phase, (iii) shortening of natural free-running period, and (iv) worsening of toleration of abrupt phase shifts28. Body temperature is known to fluctuate over the day, with amplitude of 0.5 K in healthy adults, and a minimum between 04:00 and 06:00 hours, and a maximum plateau between 12:00 and 18:00 hours29. In a study comprising 237 older adults with dementia, Sund-Levander and Wahren30 have found that the variation in tympanic and rectal temperatures ranged from 33.8 to 38.4 C and 35.6 to 38.0 C, respectively. Dementia was significantly related to lower tympanic and rectal temperature. In this study, we were aware that temperatures found could be lower than expected in healthy older adults.
160
![Page 174: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/174.jpg)
F
igur
e 3.
Fou
r sc
enar
ios
of il
lum
inan
ce in
Roo
m B
of t
he d
ay c
are
cent
re. T
he u
pper
row
sho
ws
horiz
onta
l illu
min
ance
leve
ls, t
he
low
er r
ow v
ertic
al
illum
inan
ce le
vels
. The
firs
t col
umn
show
s re
sults
of t
he s
imul
atio
ns in
rad
ianc
e, th
e se
cond
col
umn
resu
lts o
f fie
ld m
easu
rem
ent
s. M
easu
rem
ents
wer
e ta
ken
at a
hei
ght o
f 1.2
met
res
(for
Eve
rt,
mea
sure
men
ts th
e in
stru
men
t was
faci
ng to
war
ds th
e w
indo
w).
161
![Page 175: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/175.jpg)
Tab
le 1
. Pop
ulat
ion
of th
e w
ards
.
Gen
der
Age
[ye
ars]
N
umb
er o
f mon
ths
livin
g in
stitu
tiona
lly
Clin
ical
dia
gno
sis
Pre
senc
e in
the
room
M
ale
Fem
ale
Mea
n S
D
Mea
n S
D
AD
V
D
MX
Le
wy
Bod
y G
roup
A
2 8
87.9
5.
5
43.1
37
.3
3 5
2 0
7 da
ys p
er
wee
k (n
=10
) G
roup
B
3 9
88.4
5.
8
46.9
39
.1
2 7
2 1
7 da
ys p
er
wee
k (n
=6)
; 7 h
alf d
ays
pe
r w
eek
(n=
3);
5 da
ys p
er w
eek
(n=
1); 2
da
ys p
lus
5 ha
lf da
ys p
er
we
ek (
n=1)
; 2
days
plu
s 3
half
days
per
wee
k (n
=1)
Tot
al
5 17
88
.2
5.5
45.2
37
.4
5 12
4
1
Tab
le 2
. Stu
dy d
esig
n.
Dat
e [y
yyym
mdd
] Li
ghtin
g co
nditi
ons
(mea
n E
horiz
onta
l [lx
] / C
CT
[K])
M
easu
rem
ents
and
ass
essm
ents
Gro
up A
G
roup
B
2008
0509
(5
00 /
2,70
0)
Tym
pani
c te
mpe
ratu
re (
11x)
, illu
min
atio
n at
eye
leve
l (11
x); G
IP (
1x)
2008
0513
T
ympa
nic
tem
pera
ture
(11
x), i
llum
inat
ion
at e
ye le
vel (
11x)
; GIP
(1x
) 20
0805
17/2
0080
518
GIP
(1x
) 20
0805
22
(500
/ 17
,000
) T
ympa
nic
tem
pera
ture
(11
x), i
llum
inat
ion
at e
ye le
vel (
11x)
; GIP
(1x
) 20
0805
26
(500
/ 2,
700)
2008
0530
(5
00 /
2,70
0)
(500
/ 17
,000
) T
ympa
nic
tem
pera
ture
(11
x), i
llum
inat
ion
at e
ye le
vel (
11x)
; GIP
(1x
) 20
0806
04
(500
/ 17
,000
) (5
00 /
2,70
0)
Tym
pani
c te
mpe
ratu
re (
11x)
, illu
min
atio
n at
eye
leve
l (11
x); G
IP (
1x)
2008
0619
(5
00 /
17,0
00)
Tym
pani
c te
mpe
ratu
re (
11x)
, illu
min
atio
n at
eye
leve
l (11
x); G
IP (
1x)
2008
0624
T
ympa
nic
tem
pera
ture
(11
x), i
llum
inat
ion
at e
ye le
vel (
11x)
; GIP
(1x
)
162
![Page 176: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/176.jpg)
Table 3. Time line of activities in the day care centre. Sampling times are included by approximation to the activities.
Sampling times
Time Activity
1 Morning Residents come into the rooms after having received personal care, and have breakfast
From 07:30 First people gather in the room of Group A 2 Around 08:00 3 Between 09:15-09-45 Half-way during the morning Coffee and tea break, activity Between 11:45 and 12:30 Warm meal 4 Between 12:45 and 13:45 Some residents of both groups return to
apartment to have a rest. Others remain Half-way during the afternoon Coffee and tea break, activity 5 Around 15:30 Between 17:.00 and 18:00 Cold meal (bread) From 18:15 to 19:00 Some residents of group A return to apartment to
have a rest. Most remain in the room From 18:15 to 19:00 Residents of group B are returned to their
apartments. The room closes 6 Around 19:00 Coffee and tea break. Some residents in Group A
participate in an activity Around 19:30 First resident of Group A is returned to his/her
apartment and put in bed 7 20:00-21:00 8 21:00-22:00 9 Around 22:00 Last person returns to his/her apartment 10 Around 01:00 11 Around 05:00
Tympanic temperature was measured eleven times a day by a Braun 4520 ear thermometer. The nurses received instructions on how to measure tympanic temperature correctly, and were asked to measure three times and fill out the average temperature. Moreover, the study coordinator also participated in the temperature measurements. The sampling hours were (1) at wake up (dark conditions in the private room), (2) one hour after wake up, (3) two hours after wake up, (4) approximately five hours after wake up (around nap time), (5) approximately eight hours after wake up, (6) three hours before going to bed, (7) two hours before going to bed, (8) one hour before going to bed, (9) bed time (dark conditions in room), (10) early night-time measurement, and (11) late night-time measurement (Table 3). During tympanic temperature measurements, illuminance measurements took place simultaneously at the eye level and viewing direction of the subjects. Data were reduced to single values for range of tympanic temperature (two times the amplitude), which were considered in further analysis. 2.6. Lighting equipment and measurements In the rooms the subjects were cared for, the existing ceiling-mounted illumination above the table that the participants sat at, was replaced by two new luminaries (Figure 2), type BioSun by Van Doorn B.V., Culemborg, The Netherlands. Each new fitting contained high-intensity fluorescent tubes by Philips Lighting (MASTER TL5 HO ActiViva Active 54W 1SL for 17,000 K, and MASTER TL5 HO 54W/827 UNP for 2,700 K) – six tubes emitting 17,000 K light and four tubes emitting 2,700 K light per luminaire. The spectra of the light emitted by the two types of tubes are shown in Figures 4 and 5. The general colour rendering index (Ra) of the lighting was 82 for the 17,000 K lighting and 85 for the 2,700 K lighting. For legibility, the text mentions 2,700 and 17,000 K lighting, whereas different values may be achieved in the field at eye level. Based on simulations in the computer program DIALux 4.1 by DIAL GmbH (Figure 6), an arrangement of luminaires was designed in order to obtain the largest illuminance level on vertical eye level as possible without causing visual discomfort. The most efficient layout was a combination of two clusters of luminaires above the dining/work tables. The lighting equipment was switched on from base-line conditions (Ehorizontal about 50 lx, added artificial light) each morning at 07:30 hours, and allowed to gradually reach at least 500
163
![Page 177: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/177.jpg)
lx horizontal by 08:00 hours. This level corresponds with lighting recommendations for nursing homes in The Netherlands31. The amount of lighting was gradually lowered at 18:00 hours in order to reach a level of 50 lx (added artificial light) at 18:30 hours. The times correspond with the arrival and leaving of the majority of the residents, as can be seen in the time plan of a typical day (Table 3). The total exposure to the lighting intervention depended on the duration of the subjects’ presence in the rooms (Table 1). Additional light sources in the room were not used during the experiments. The lighting installed during the first intervention had a CCT of 17,000 K, and 2,700 K during the second intervention. The 17,000 K has a larger contribution of short-wavelength light in the light spectrum, whereas 2,700 K largely lacks this part of the spectrum. Since the direction of light at the retina plays an important role in non-visual effects of lighting, the illuminance, as well as the colour temperature at the position of the eye were measured with a Minolta Chroma Meter XY-DC simultaneously with tympanic temperature; taking into account the participant’s viewing direction and angle. The instrument’s colour temperature range is from 1,600 to 40,000 K. The daytime light measurements all included the contribution of daylight to illuminance levels and colour temperature, as the study is field study and environmental exposures are relevant exposures in practice. According to the Kruithof diagram of the relation between colour temperature and illuminance and the perceived ambience32, the 2,700 K scenario is perceived as a warm ambience, while extrapolation of the current scheme shows that the 17,000 K might be just within the limits of being perceived as a cold ambience (threshold limit for satisfactory ambience). According to Berman33, the intrinsically photosensitive retinal ganglion cells might explain the effects of light spectrum on spatial brightness perception. Górnicka34 calculated the non-image forming (NIF) effects of 17,000 K lamps based on data provided by Philips Lighting, Eindhoven, The Netherlands, for office situations. She found that the lighting condition of 17,000 K would give 3.4 times more NIF output than the condition of 2,700 K (Figure 7). Due to the aforementioned opacification and yellowing of the vitreous and the lens, and thus increased filtering of the short wavelength light emitted by the 17,000 K light source, this ratio might be different. 2.7. Statistical analyses During each of the two light interventions, assessments of GIP scores, tympanic temperature and illumination levels took place. All the data were aggregated into average values for the two groups. These new data were in turn used for statistical analyses. Analyses of the effects of the two lighting scenarios, on GIP-scores and tympanic temperature were performed with both parametric and non-parametric statistical methods. Data analysis was carried out using SPSS 14.0 for Windows. The critical p-value was set at 0.05 for between-group comparisons of behaviour and tympanic temperature at baseline. Non-parametric statistics for independent and related samples were employed to test whether observed behaviour (GIP) differed between the two groups, and within groups, for the various lighting scenarios. Mann-Whitney U-tests were used for between group differences, and Wilcoxon signed ranks tests were used for within group differences. For the analyses of tympanic temperature, independent samples t-tests were used for between group differences, and loose paired-samples t-tests for within group differences.
164
![Page 178: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/178.jpg)
Figure 4. Spectral distribution of the Philips Lighting MASTER TL5 HO ActiViva Active 54W 1SL, shown for every 5 nm frequency band in μW/lm.
Figure 5. Spectral distribution of the Philips Lighting MASTER TL5 HO 54W/827 UNP, shown for every 5 nm frequency band in μW/lm.
Figure 6. Luminaire lay-out simulated in DIALux, showing isographs for horizontal illuminance levels at a height of 1.2 metres.
165
![Page 179: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/179.jpg)
Figure 7. Hypothesised size of non-visual effects of light during daytime for different illuminance levels at the eye and different colour temperatures, taken and adapted from Górnicka34. 3. Results 3.1. Light Light measurements showed that the illuminance at eye level in the two rooms was quite low (Table 4, Figures 8 and 9), on average between 120 and 220 lx (mean value of the 11 measurement periods). When taking a closer look at measurement periods 3 and 5 when people are fully exposed to the light emitted by the experimental luminaire, the mean illuminance at eye level was much higher, ranging from 375 to 470 lx. The luminaire was designed to provide horizontal illuminance levels of up to 500 lx. The levels differ per individual, as not all subjects had the same viewing direction. Some looked at an interior wall, whereas others looked towards the window. Also, not all subjects had the same distance to the window. At measurement point 4 in Figures 8 and 9, there is a distinctly lower illuminance level. This is due to the afternoon nap of some of the subjects. They were no longer exposed to the experimental conditions, but returned to their own apartment. Table 4. Illuminance levels at eye level and colour temperature at the eye in the two groups, average values over the day, and average values of measurement periods 3 and 5. Measurements 2,700 K scenario 17,000 K scenario
Group A Group B Group A Group B Eeye [lx] Mean 201 219 119 162 SD 42 55 40 46 Mean (periods 3 and 5) 469 427 375 433
SD (periods 3 and 5) 187 222 233 224
Max (periods 3 and 5) 810 895 1,170 910 Colour temperature [K]
Mean 2,691 3,254 4,182 4,716
SD 300 328 367 646 Mean (periods 3 and 5) 2,823 3,461 7,364 8,358 SD (periods 3 and 5) 814 1,290 2,439 3,043 Max (periods 3 and 5) 7,750 8,850 11,500 12,500
Table 4 shows that when assessing the mean value of the colour temperature during the day, these range from 2,700 to 3,250 K for the 2,700 K scenario, and are between 4,200 and 4,700 K for the 17,000 K scenario. There seems to be a good match between the installed and realised colour temperature for the 2,700 K scenario, but a large mismatch for the 17,000 K scenario. Figures 10 and 11 show the measured colour temperature at eye level over the day, which varies considerably over the day, as people did not constantly stay in the rooms.
166
![Page 180: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/180.jpg)
When taking a closer look at measurement periods 3 and 5, the mean colour temperature is much higher, in both lighting scenarios. Means for the 2,700 K scenario range from 2,800 to 3,460 K, with considerable peaks up to well over 8,000 K, and for the 17,000 K scenario means range from 7,400 to 8,400 K, with maximum values of 11,500 and 12,500 K. The CCT installed thus does not match the colour temperatures found in the field, possibly due to interactions with daylight and the environment. Table 5. Median scores of GIP subscales and mean range of tympanic temperature of the two groups, and results (p-values) of Mann-Whitney U-tests (GIP) and independent-samples t-tests (Ttymp) for between-group differences for the two lighting conditions. 500 - 2,700 500 - 17,000 Group A Group B p-value Group A Group B p-value GIP subscale*,†,‡
Apathic behaviour
8.5 (8.6) 9 (8.8) .974 8 (8.1) 10 (9.5) .254
Disturbances of consciousness
3 (3.7) 6.5 (6.1) .123 3 (3.5) 7,5 (7.1) .000
Restless behaviour
2 (2.4) 2 (2.9) .456 2 (2.5) 4 (3.5) .283
Depressive/sad behaviour
2 (3.1) 4 (4.4) .069 4 (4.2) 5 (4.4) .872
Anxious behaviour
0 (2.6) 2 (2.3) .923 2.5 (3.4) 1 (2.3) .456
Ttymp§
Mean range [K] 1.17 1.15 .818 1.12 0.94 .085 SD 0.26 0.22 0.27 0.18
*Exact significant differences (2-tailed, α = 0.05) marked bold. †The .5 median scores in even sample sizes are the mean value of the GIP scores 1 below and 1 above the median value. GIP scores are always natural numbers. ‡Hypothetical mean values of GIP subscale scores are given between brackets. §Significant differences (2-tailed, α = 0.05) marked bold. Table 6. Results (p-values) of nonparametric Wilcoxon signed ranks tests (GIP), and results of parametric paired-samples t-tests (Ttymp), within-groups for both lighting scenarios. Group A Group B GIP subscale* Apathic behaviour .074 .084 Disturbances of consciousness .553 .065 Restless behaviour .812 .098 Depressive/sad behaviour .028 .694 Anxious behaviour .015 .683 Ttymp parameter† Mean range .622 .052
*Asymptotic significant differences (α = 0.05) marked bold. †Significant differences (2 tailed, α = 0.05) marked bold.
167
![Page 181: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/181.jpg)
Figure 8. Overview of average measured vertical illuminance at eye level for Group A shown per measurement day.
Figure 9. Overview of average measured vertical illuminance at eye level for Group B shown per measurement day.
Measured vertical illuminance Group B
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
1 2 3 4 5 6 7 8 9 10 11
Measurement
E v
erti
cal
[lx]
May 9th May 13th May 22nd May 30th June 4th June 19th June 24th
Measured vertical illuminance Group A
0
50
100
150
200
250
300
350
400
450
500
550
600
650
1 2 3 4 5 6 7 8 9 10 11
Measurement
E v
erti
cal
[lx]
May 9th May 13th May 22nd May 30th June 4th June 19th June 24th
168
![Page 182: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/182.jpg)
Figure 10. Overview of average measured colour temperature at eye level for Group A, shown per measurement day.
Figure 11. Overview of average measured colour temperature at eye level for Group B, shown per measurement day.
Measured colour temperature Group A
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
1 2 3 4 5 6 7 8 9 10 11
Measurement
Co
lou
r te
mp
erat
ure
[K
]
May 9th May 13th May 22nd May 30th June 4th June 19th June 24th
Measured colour temperature Group B
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
1 2 3 4 5 6 7 8 9 10 11
Measurement
Co
lou
r te
mp
erat
ure
[K
]
May 9th May 13th May 22nd May 30th June 4th June 19th June 24th
169
![Page 183: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/183.jpg)
3.2. Behaviour The median values of the five researched GIP subscales are given in Table 5. To allow for comparison, hypothetical means (ordinal scale) are given in Table 5 as well. The data for the 2700 K scenario are composed of the values of 5 assessments; the 17,000 K scenario out of 4 assessments. There were no differences in behavioural aspects between the groups at baseline. Ideally, the 17,000 K scenario would result in improved behaviour. This is not the case. In group A, the scores for depressive/sad behaviour and anxious behaviour increase, i.e., behaviour deteriorates (Table 6). These within-group changes are significant (p=.028 and p=.015). Between-group comparisons show no differences. In the 17,000 K scenario, there is a between-groups difference for disturbances of consciousness, and the Group B scores worse. Within-group comparisons for group B, shows this difference is not significant (p=.065). 3.3. Tympanic temperature The mean range of tympanic temperature and their standard deviation are given in Table 5. Independent t-tests (Table 5) showed that the tympanic temperature parameters did not differ from each other significantly, and can therefore be used for further analyses. There are no within-group differences in the two groups, implying that the 17,000 K scenario does not have circadian effects. In the 17,000 K scenario, the range in tympanic temperature has slightly declined (not significant), whereas it should increase if any circadian effects were present. 4. Discussion 4.1. Light The light parameters considered in this study, illuminance and colour temperature, deviate in the field from what has been installed. The lluminance levels at eye level, during the day are around 400 lx, with maximum values ranging between 810 and 1,170 lx. The somewhat higher levels are probably due to daylight contribution through windows. Also, illuminance levels are higher in the 2,700 K scenario as compared to the 17,000 K scenario. This difference cannot be attributed to luminous fluxes of the tubes (at 25 °C), which is 3,800 lm for the MASTER TL5 HO ActiViva Active 54W 1SL tube (17,000 K), and 4,450 lm for the MASTER TL5 HO 54W/827 UNP tube (2,700 K). Given the installation of six versus four tubes of the two types, this corresponds to a 28% difference. There might have a larger contribution of daylight. In low colour temperature lighting, the low illuminance levels measured are not expected to cause any NIF effects. Differences in realised colour temperature between the two scenarios are more outspoken and might show different outcomes. The 17,000 K scenario does not expose people to 17,000 K at the eye level, and the 2,700 K scenario does not automatically lead to continuous lighting conditions with a matching colour temperature. There are some explanations for these findings. First of all, there is a contribution of daylight during the day, which influences the colour temperature of the light. In case of the low colour temperature intervention, daylight may increase the colour temperature by a factor 3 on average during the day (Table 4), particularly when subjects are facing towards the windows. The viewing direction, and the seating position of the subjects are thus of great importance. At the same time, figures show that the realised colour temperature in the 17,000 K scenario is much lower, with maximum values of 12,500 K. Here, daylight may also play a role, as well as interactions between the building, the furniture and interior design features. This is a direct result of conducting field studies in a non-uniform environment. Possibly, there might be a filtering effect of the luminaires too, which might absorb some of the short wavelength part of the visible spectrum. During the evening hours, when curtains are closed, colour temperature ranges between 2,000 and 3,000 K for both lighting scenarios. Also, ambient temperature may play a role. According to Philips Lighting, the correlated colour temperature of the lighting was determined at a temperature of 25 °C, which
170
![Page 184: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/184.jpg)
corresponds to the temperature of the rooms in the day care centre. When temperature alters, this soon causes a deviation of 0.005 in CIE XY coordinates. In case of the 17,000 K lighting, this can mean a shift of 2,000 K in realised colour temperature. One of the implications of lower achieved light levels and colour temperature can be a reduction of the aforementioned NIF effects. Based on Górnicka34, the lighting condition of 17,000 K would give 3.4 times more NIF output than the condition of 2,700 K. If in practice, the differences between colour temperature exposure of the 2,700 and 17,000 K scenarios are smaller than 14,300 K, the differences in behavioural and circadian output would be much smaller too, smaller than the claimed 3.4 times in laboratory studies. Given the measured situation, it might be that the current interventions do not cause any NIF effects at all. In combination with the lower illuminance levels, it might be that the lighting conditions do not reach the threshold levels (for long enough), for instance, the aforementioned 1,000 lx. Still, the low illuminance levels found in the two rooms comply with lighting recommendations for nursing homes in The Netherlands, which seem to be insufficient for NIF effects to take place. Perhaps, positive effects could have been found in a controlled laboratory setting with an ‘ambient’ colour temperature of 17,000 K, whereas the same lighting equipment does not yield the same results due to interactions with the environment and daylight. The actual threshold may even be in between. Another explanation may be that as illuminance levels are somewhat higher in the 2,700 K scenario, and as colour temperature differences are not as large as suggested, the 17,000 K may even have a lower NIF effect than the 2,700 K scenario. If one takes a closer look at daytime light conditions during measurement periods 3 and 5, the conditions are 450 lx and 3,140 K on average for the 2,700 K scenario, versus 400 lx and 7,860 K. Extrapolation of Figure 7 shows that the hypothesised effects of the realised light conditions in the 17,000 K scenario should still be about 30% larger than those of the 2,700 K scenario. Still, illuminance levels were very low, perhaps too low to cause any significant NIF effects. Also, the biological ageing of the eye has a yet unknown impact on this new ratio, as not short wavelength light penetrates the eye in order to reach the retina. Even so, these findings may have a great impact on the expected effects of lighting interventions in practice, which may be not as large as anticipated. 4.2. Behaviour and physical symptoms The 17,000 K lighting scenario did not bring about the effects hypothesised, partly because of reasons discussed in the previous section. In contrary, it even resulted in worsened observed behaviour. The lighting itself may be perceived as less natural, less comfortable, and therefore, it might contribute negatively to behavioural scores. Even though the colour temperature at eye level was much lower, people may at time look at the lighting equipment, or notice the higher amount of blue in the emitted light. In Group A, there is an increase in anxious and depressive/sad behaviour. The type of lighting and perceived colours may be a cause of the results found. People with dementia may not have the communicative skills to complain about the lighting, and express their discomfort in an indirect manner. Staff in day care centres and nursing wards might play an important role in signalling discomfort. Also, people with dementia have an altered sensitivity for indoor environmental conditions, which can induce problematic behaviour35. Some clues as to why people with dementia may respond negatively to the 17,000 K light tubes come from a study by Górnicka34, who studied the effects of 17,000 K and 2,700 K lighting in office situations (CCT of installed lighting). She has described the visual comfort remarks of the 17,000 K at a 430 lx situation of 12 subjects. The feedback on the lighting is very critical. Some of the remarks are the light is too bright, and too white, and that the visual comfort is bad. Also, there is a lot of reflection of light, resulting in a feeling of dizziness or ‘moving’ light. Another person described the light as being very bluish, which bleaches warm colours and the skin. Others state that when reading, the person gets a sensation of dizziness. Other important items mentioned are that the colour of the light is strange and not very natural, and that the light is too bright for a restful environment. The brightness of the light is said to take away a lot of the visual comfort. The perceptions reported by the subjects in this office study may be more outspoken in people with dementia.
171
![Page 185: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/185.jpg)
At the same time, air temperature may affect psychological preferences of the colour temperature of lighting. In low temperatures, people seem to prefer lower colour temperatures, whereas in higher temperatures, higher colour temperatures are preferred36. The temperature in the day care centre was kept at room temperature. Ishi and Kakitsuba37 mention that the preferences of colour temperatures according to the Kruithof diagrams32 does not take seasonal changes or differences in age into account. Older people may have a preference for higher colour temperatures over lower colour temperatures. At the same time, dementia syndrome may undo age-related changes in colour temperature preference. Sloane et al.38 researched the impact of high-intensity, low-glare, ambient light (about 2,500 lx, 6,500 K, 85 Ra) on residents and staff of dementia care units in the United States, and compared the outcomes to a control of dim industrial lighting. Eleven symptoms considered as side-effects; eyestrain, seeing spots, problems with glare, eye burning or irritation, eye redness, jitteriness, skin rash on face or arms, severe agitation, headache, dizziness, and nausea, were not significantly experienced by residents (as reported by staff) and by staff. The intensity of light from the equipment is still much lower than outdoor light levels in summer. Possibly, the outcomes for higher CCT interventions (even at lower illuminance levels) are different and need to be studied in more detail. Brawley39 mentions that flickering of old-style magnetic ballasts may cause agitation and headaches and can even trigger seizures, and therefore need to be replaced with electronic ballasts. The system installed for the experiment was balanced with 24 kHz electronic ballasts. One of the reasons for carrying out multiple GIP assessments in this study was the partially ‘subjective’ character of observations, as has been discussed by van Hoof et al.5. By averaging the scores found, a more stable judgment could be made about the behaviour observed. In future studies, other methods for observing behaviour or perceived quality of life, including dementia care mapping, can be used. 4.3. Tympanic temperature Body core temperature, and thus tympanic temperature, is one of the most powerful and stable indicators of circadian synchrony, reflecting activity of the circadian rhythm’s strong oscillator40. As to the lighting intervention, the 17,000 K scenario had no effect on circadian rhythmicity. In our view, this is not due to the method chosen to assess circadian rhythmicity. Other methods, including the collection of melatonin from saliva and actigraphy, are available, but were not used in this study because these methods pose too much strain on the subjects or were not practical from a nursing point of view. 4.4. Implementation issues The European Union is facing a boom in de the number of older adults with dementia. Housing and care policies for older people with dementia include home modifications and services that lead to improved quality of life41. In both institutional settings and in the homes of community-dwelling older persons with dementia, lighting can be an important feature42 that can be easily integrated into the design of new housing35. The benefits of lighting are manifold, including improved vision and the so-called biological or NIF effects42. Special ceiling-mounted luminaries are a non-invasive way of exposing people with dementia to pre-set ambient lighting conditions, without putting strains of health care professionals. Lighting systems should never be a compensation for going outdoors. It is of the utmost importance that older adults frequently go outdoors5,44 for exposure to daylight. In a paper on environmental design for dementia, Brawley43,p.S80 asks herself: “Why are we not focusing on the reasons older adults in nursing homes do not get outside for valuable and much needed sunlight?” This, however, does not imply that residents are not entitled to have the best possible lighting equipment as an additional therapy5.
172
![Page 186: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/186.jpg)
5. Conclusions The dim lighting system with a high CCT of 17,000 K studied was not found to have any beneficial effects on circadian rhythmicity or behaviour in older persons with dementia in the field setting, compared to a dim lighting system with a low CCT of 2,700 K. This might be an indication that high illuminance levels are a necessity in obtaining the aforementioned effects, or that a longer exposure to the lighting intervention was needed to obtain effects, as many people were only exposed during hours spent in the experimental rooms. Possibly, better results would have been achieved when using high intensity lighting with the same colour temperatures. Also, the colour temperature realised in practice varied considerably from the colour temperature of the lighting installed, and raises serious questions when applying findings from controlled settings into practice. At the same time, the 17,000 K scenario may have an impact on behaviour, which might be caused by perception of the light source being ‘unnatural’. Similar experiments should be repeated in winter. Acknowledgements All residents, family, and staff of the psychogeriatric ward of care home St. Franciscus, Gilze-Rijen, The Netherlands, are thanked for their cooperation in this study. N.V. Brabantse Ontwikkelings Maatschappij, Tilburg, The Netherlands, is thanked for the financial support. Philips Lighting B.V. is thanked for supplying the ActiViva light tubes. Mr. K. Gommans (Eindhoven University of Technology) is thanked for his help with the light measurement and simulations in Radiance. Mr. C.G. Rense (MediluX B.V.) is thanked for his help with the lighting equipment. References 1. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie
H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca M and for Alzheimer’s Disease International. Global prevalence of dementia: A Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
2. Ritchie K, Lovestone S. The dementias. The Lancet 2002;360(9347):1759-1766 3. Torrington JM, Tregenza PR. Lighting for people with dementia. Lighting Research and
Technology 2007;39(1):81-97 4. Webb AR. Considerations for lighting in the built environment: Non-visual effects of light. Energy
and Buildings 2006;38(7):721-727 5. van Hoof J, Aarts MPJ, Rense CG, Schoutens AMC. Ambient bright light in dementia: Effects on
behaviour and circadian rhythmicity. Building and Environment 2009;44(1):146-155 6. Hughes PC, Neer RM. Lighting for the elderly: a psychobiological approach to lighting. Human
Factors 1981;23(1):65-85 7. Czeisler CA, Allan JS, Strogatz SH, Ronda JM, Sanchez R, Rios CD, Freitag WO, Richardson
GS, Kronauer RE. Bright light resets the human circadian pacemaker independent of timing of sleep-wake cycle. Science 1986;233(4764):667-671
8. Brainard GC, Rollag MD, Hanifin JP. Photic regulation of melatonin in humans: ocular and neural signal transduction. Journal of Biological Rhythms 1997;12(6):537-546
9. Badia P, Myers B, Boecker M, Culpepper J, Harsh JR. Bright light effects on body temperature, alertness, EEG and behaviour. Physiology and Behaviour 1991;50(3):583-588
10. Cajochen C, Zeitzer JM, Czeisler CA, Dijk DJ. Dose-response relationship for light intensity and ocular and electroencephalographic correlates of human alertness. Behavioural Brain Research 2000;115(1):75-83
11. Abbott A. Restless nights, listless days. Nature 2003;245(6961):896-898 12. Aarts MPJ, Westerlaken AC. Field study of visual and biological light conditions of
independently-living elderly people. Gerontechnology 2005;4(3): 141-152 13. Waterhouse JM, Minors DS, Waterhouse ME, Reilly T, Atkinson G (2002) Keeping in time with
your body clock. Oxford University Press, Oxford, United Kingdom 14. Harper DG, Volicer L, Stopa EG, McKee AC, Nitta M, Satlin A. Disturbance of endogenous
circadian rhythm in aging and Alzheimer disease. The American Journal of Geriatric Psychiatry 2005;13(5):359-368
173
![Page 187: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/187.jpg)
15. Hatfield CF, Herbert J, van Someren EJW, Hodges JR, Hastings MH. Disrupted daily activity/rest cycles in relation to daily cortisol rhythms of home-dwelling patients with early Alzheimer's dementia. Brain 2004;127(Pt 5):1061-1074
16. Lovell BB, Ancoli-Israel S, Gevirtz R. Effect of bright light treatment on agitated behavior in institutionalized elderly subjects. Psychiatry Research 1995;57(1):7-12
17. Graf A, Wallner C, Schubert V, Willeit M, Wlk W, Fischer P, Kasper S, Neumeister A. The effects of light therapy on Mini-Mental State Examination in demented patients. Biological Psychiatry 2001;50(9):725-727
18. Thorpe L, Middleton J, Russell G, Stewart N. Bright light therapy for demented nursing home patients with behavioral disturbance. American Journal of Alzheimer's Disease 2000;15(1):18-26
19. Forbes D, Morgan DG, Bangma J, Peacock S, Pelletier N, Adamson J. Light therapy for managing sleep, behaviour, and mood disturbances in dementia. Cochrane Database of Systematic Reviews 2004;(2):CD003946
20. Kim S, Song HH, Yoo SJ. The effect of bright light on sleep and behavior in dementia: an analytic review. Geriatric Nursing 2003;24(4):239-243
21. Terman M. Evolving applications of light therapy. Sleep Medicine Reviews 2007;11(6):497-507 22. Boyce PR. Lighting for the elderly. Technology and Disability 2003;15(3):165-180 23. Rheaume YL, Manning BC, Harper DG, Volicer L. Effect of light therapy upon disturbed
behaviors in Alzheimer patients. American Journal of Alzheimer's Disease 1998;13(6):291-295 24. van Someren EJ, Kessler A, Mirmiran M, Swaab DF. Indirect bright light improves circadian rest-
activity rhythm disturbances in demented patients. Biological Psychiatry 1997;41(9):955-963 25. Riemersma-van der Lek RF, Swaab DF, Twisk J, Hol EM, Hoogendijk WJG, van Someren EJW.
Effect of bright light and melatonin on cognitive and noncognitive function in elderly residents of group care facilities. A randomized controlled trial. The Journal of the American Medical Association 2008;299(22):2642-2655
26. Sloane PD, Williams CS, Mitchell CM, Preisser JS, Wood W, Barrick AL, Hickman SE, Gill KS, Connell BR, Edinger J, Zimmerman S. High-intensity environmental light in dementia: effect on sleep and activity. Journal of the American Geriatrics Society 2007;55(10):1524-1533
27. Verstraten PF. The GIP. 14 observation scales for psychogeriatric behavior problems. Tijdschrift voor Gerontologie en Geriatrie 1988;19(4):147-151 [in Dutch]
28. Monk TH. Aging human circadian rhythms: conventional wisdom may not always be right. Journal of Biological Rhythms 2005;20(4):366-374
29. Mayer E (1985) Tagesgang der thermischen Behaglichkeit? In: Fanger PO, editor. Proceedings of the CLIMA 2000 World Congress on Heating, Ventilating and Air-Conditioning, Volume 4, Copenhagen, Denmark. pp 141-6. [in German]
30. Sund-Levander M, Wahren LK. The impact of ADL status, dementia and body mass index on normal body temperature in elderly nursing home residents. Archives of Gerontology and Geriatrics 2002;35(2):161-169
31. Stoer GW, editor (2006) Licht, welzijn en de ouder wordende mens. First edition. Nederlandse Stichting Voor Verlichtingskunde, Ede, The Netherlands [in Dutch]
32. Kruithof AA. Tubular luminescence lamps for general illumination. Philips Technical Review 1941;6(3):65-73
33. Berman SM. Correspondence. A new retinal photoreceptor should affect lighting practice. Lighting Research and Technology 2008;40(4):373-376
34. Górnicka GB (2008) Lighting at work. Environmental study of direct effects of lighting level and spectrum on psychophysiological variables. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
35. van Hoof J, Kort HSM, Duijnstee MSH, Schoutens AMC, Hensen JLM, Begemann SHA (2008) The indoor environment in relation to people with dementia. In: Strøm-Tejsen P, Olesen BW, Wargocki P, Zukowska D, Toftum J, editors. Indoor Air 2008: Proceedings of the 11th International Conference on Indoor Air Quality and Climate. Copenhagen, Denmark. paper ID: 64
36. Nakamura H, Oki M. Influence of air temperature on preference of color temperature of general lighting in the room. Journal of the Human-Environmental System 2000;4(1):41-47
37. Ishi M, Kakitsuba N. Preferred color temperatures at 200 lx during exposure to cool or warm environments for middle-aged female subjects. Journal of the Human-Environmental System 2003;6(2):93-100
38. Sloane PD, Noell-Waggoner E, Hickman S, Mitchell CM, Williams CS, Preissler JS, Barrick AL, Zimmerman S, Brawley E. Implementing a lighting intervention in public areas of long-term care facilities. Lessons learned. Alzheimer’s Care Quarterly 2005;6(4):280-293
39. Brawley EC (2006) Design innovations for aging and Alzheimer’s. Creating caring environments. John Wiley & Sons, Inc, Hoboken, NJ, USA
40. Kenney WL, Munce TA. Invited review: aging and human temperature regulation. Journal of Applied Physiology 2003;95(6):2598-2603
174
![Page 188: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/188.jpg)
41. van Hoof J, Kort HSM, van Waarde H. Housing and care for older adults with dementia. A European perspective. Journal of Housing and the Built Environment 2009;24(3):369-390
42. van Hoof J, Kort HSM. Supportive living environments: a first concept of a dwelling designed for older adults with dementia. Dementia 2009;8(2):293-316
43. Calkins M, Szmerekovsky JG, Biddle S. Effect of increased time spent outdoors on individuals with dementia residing in nursing homes. Journal of Housing for the Elderly 2007;21(3-4):211-228
44. Brawley EC. Environmental design for Alzheimer’s disease: a quality of life issue. Aging & Mental Health 2001;5(Supplement 1):S79-S83
175
![Page 189: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/189.jpg)
176
![Page 190: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/190.jpg)
8
Ambient intelligence, ethics and privacy van Hoof J, Kort HSM, Markopoulos P, Soede M Ambient intelligence, ethics and privacy. Gerontechnology 2007;6(3):155-163 After the analyses of architectural solutions in the preceding chapters, the following two chapters focus on technological solutions, which should enable older persons with dementia to age-in-place. A variety of new technological solutions including ambient intelligence technologies (the intelligent home environment) are emerging within the domain of health care in order to support ageing-in-place, and form a special kind of adaptation to the dwelling. Chapter 8 explores the aspects of ambient intelligence in the daily living of, and care to, community-dwelling older people (with and without dementia). Such technologies include unobstrusive support systems, which allow care and health centres to remotely monitor their clients. Apart from potential positive effects on ageing-in-place, there are certain concerns, for instance, within the domains of ethics and privacy, particularly when the group of users concerns older adults with dementia. Therefore, the emergence of new ambient intelligence technologies in relation to ethics and privacy are discussed, as well as the supposed role of these technologies in supporting ageing-in-place and care. It provides a preliminary study to the evaluation of one of the first ambient intelligence technologies in The Netherlands, the Unattended Autonomous Surveillance system, which is presented in Chapter 9. Within the combined framework of ICF-MIBD, Chapter 8 deals with an analysis and evaluation of needs of users in relation to building services, the basic value and related performances.
177
![Page 191: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/191.jpg)
178
![Page 192: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/192.jpg)
Networked and ubiquitous information and communication technology (ICT) and ambient intelligence are increasingly used in the home environment to facilitate independent living for older adults. These systems collect and disperse a high volume of personal data, which is used for assistance and monitoring by professional carers in order to provide more responsive care for high-risk individuals.These personal data are often also sent to commercial service providers. The computerisation of home environments, while providing many positive potential uses, goes together with concerns about privacy, sensitivity of data, ethics, and the inclusion of all groups of older adults, also those with dementia. It is arguable that present privacy regulation lags behind technological developments, especially with society moving into the era of ambient intelligence, which promises to intensify data collection in kind, frequency and volume. Also, personal control by older users is becoming ever more laborious to exercise in ambient intelligence environments. A combined agenda of technological and legislative developments is needed to support, as well as inform, the wider public and especially the older population about the legitimacy and the appropriateness of the data collection for the service provided. While principles hold just as much for the internet domain as for ambient intelligence, the complexity and diversity of the latter call for extra care to ensure transparency for the older population. 1. Introduction In the ageing populations of the industrialised world, the older adults, of ever increasing number, want to maintain physical independence, autonomy and quality of life. This is expressed in the desire to remain living independently up to a high age, even when health is already declining1. Older adults see the use of a very diverse range of technology and accompanying services as a solution to facilitate independent living and compensate for decline in vitality. Moreover, there is a push on older people by the technology-driven society to incorporate technology, such as internet banking, into daily life. Information and communication technology (ICT) forms a substantial part of all technology around us, and is becoming an omnipresent part of the living environment. At the same time, such ICT collects and disperses a high volume of personal data, and is becoming increasingly intelligent and autonomous. Governments and professionals delivering services use networked technologies to assist and monitor their citizens and clients. Privacy and ethical implications of networked, ubiquitous technologies in and around the home environment are of rising concern, and possible ‘Big Brother’ scenarios, in which industry is monitoring citizens, loom around the corner. This paper provides a brief introduction to intelligent technology and the purposes it is used for. Moreover, the paper discusses privacy and ethical issues concerning the collection of data, as well as protection of (vulnerable groups of) older adults against misuse, and the responsibility for, and legislation concerning, this matter. 2. Technology in the home environment From the early 20th century AD, dwellings were increasingly equipped with electrical devices to make life easier. This electrical revolution continues to the present day. Today’s dwellings contain various technologies to support household activities, to provide comfort, and when needed, to assist in activities of daily living. The computerisation of our residences that started around 1980 not only led to many people having a PC, but also to the introduction of domotics or home automation systems2. In the near future homes are expected to serve as an integrated part of an ambient intelligence environment with situated and distributed services that will learn from individual users and the actual environment and can constantly react to changes in environmental conditions or user needs and capabilities2,3. The integration and use of technologies in the home environment of the current generation of older persons is
179
![Page 193: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/193.jpg)
somewhat challenging, but as the next generation ages this cohort will be much more familiar with, and thus potentially more accepting of, such innovations. The wide range of (networked) technological possibilities in the home environment of older people is shown by the model of Stefanov et al.4 of a health smart home (Figure 1). For the purposes of this investigation, we distinguish between two kinds of technologies: (i) assistive technologies and devices that are not connected to a network, and (ii) state-of-the-art ICT-solutions, connected to a (single) home network. In Figure 1, the home network is connected to a call centre that includes medical staff and carers along with assistance, security, and maintenance services. In practice, governments, family and yet unknown parties could also be linked to the network and have access to data. 3. What data are collected? All networked packages and services in the home environment collect and transmit some form of data. These data range from simple logs of internet behaviour to more sensitive data on banking and very private or intimate data on health status. Most of the data are gathered via a broad spectrum of devices, including PCs, sensors and mobile telephones. In Stefanov’s model (Figure 1), the package ‘diagnostics and health monitoring’ includes the monitoring of vital parameters or behaviour, and even advanced chemical analysis and (on-body) diagnostics. Accompanying tools can be used to facilitate care. There are many examples of telecare, telemedicine and home health monitoring via video links5,6. There is equipment available on the market place to monitor one’s body temperature, body movement, and blood coagulation properties. When concerning diagnostics, data are judged by a distant medical expert. Particularly in areas with low density of professional carers, telecare offers a solution, because of reduced travel costs and saving of time7. Assistive technologies that are connected to the home network include systems for movement assistance, fall prevention, and track and trace systems, along with devices for physical rehabilitation and fitness. Additionally, this category of technology allows for self-management by providing services for shopping, banking and dressing. The package ‘automation and control of the home environment’ supports the control of the physical indoor environment, i.e., temperature, ventilation and lighting, as well as home security devices or automatic kitchen equipment. Information and communication devices supply information to, and allow communication with, the call centre, and transfer data, images and sound. Leisure devices give comfort to people living alone, and even enhance social networks. Moreover, these devices can provide cognitive stimulation and distraction. All above mentioned technological packages within the model of Stefanov are part of (commercial) services for older adults. A better delivery of services could be reached by optimising profiling and matchmaking processes. Occupational therapy offers a 3-dimensional model for generating a profile based on one’s personal characteristics such as interests and abilities, environment and activities (the Person, Environment and Occupation model). These parameters form the basis of an individual profile, from which a match can be proposed by adding technology, training the person, or changing the environment8,9. Matchmaking concerns bringing individuals into couples, for instance, patients and doctors, and consumers and products. Quality of the delivery of services is determined by the matchmaking process itself, by the properties of the ICT infrastructure, and of course by the available privacy-related information.
180
![Page 194: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/194.jpg)
Automation and control of the
home environment
Assistive technologies
connected
to home network
Diagnostics&
Health monitoring
Information&
Communication
Leisure
Home network
Health Smart Home
Call centre
Assistive technologies
not connected
to home network
SecurityCareCure Assistance MaintenanceAdvice &
instructions
Figure 1. Various forms of technology transmitting data in an intelligent home environment. Taken and adapted from Stefanov et al.4. 4. Ethics and privacy Good ethical practice involves asking questions that concern dilemmas that can arise when considering the appropriateness of technology for a certain person or groups of persons having certain characteristics. Ethics and privacy-related issues of modern ICT are closely linked to a limited awareness of the presence of these technologies due to miniaturisation and concealment. The latter two, however, are of extra importance to owners of small homes and those who may no longer consider their dwelling more as a hospital than as a real home once it is equipped with technology needed for health monitoring after a life threatening event. If data collection takes place in an unobtrusive, non-invasive way, in the home environment that is considered to be a safe haven, one might forget about the implications of data collection and transmission. At the same time, this form of unobtrusive technology would disturb the occupant to a lesser extent than, for example, a periodical interruption by a visiting person10.
181
![Page 195: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/195.jpg)
Nowadays, several data are already collected of which citizens are not aware, such as on energy and water use, telephone calls and time of internet banking. Citizens are less aware about the data collection by health assurance companies in order to gain more insight in the use of health care and in order to profile their insurance policy. In case of daily shopping, citizens make an active contribution to data collection by supermarkets by use of their customer cards. In the latter case, privacy apparently is not the most important issue for citizens. This will, however, not always be the case when health data or data on care use are collected. The question remains to what extent data collection is privacy-sensitive? Older adults attach important value to security in and around their home. Qualitative studies by care professionals found that in relation to video monitoring, some older adults even prefer being monitored in the bathroom while being naked, than running the risk to fall or lie unconscious, incapacitated or even dead. In our society, such a situation is ethically totally unacceptable. We find it intolerable to leave a person undiscovered, whether he or she is still being alive and in need of care and contact, or deceased. In case of emergency, when human lives are at stake, the ethics and privacy situation should change and the closest person, a neighbour or anyone passing by, should be informed about such a critical situation. 4.1. Misuse and protection There are three core issues related to the misuse of technology designed to protect people: (i) safety and reliability, (ii) data security, and (iii) human integrity. At a basic level, the protection of people starts with the safety and reliability of the equipment. Sensors used should be non-invasive, reliable and sustainable, easy to maintain in case of defects, and able to identify and communicate with the user11. Moreover, technology should be easy to use, and have maximum resistance against improper use by experienced or first-time users. It is of the utmost importance that people remain in control of the monitoring and data streams, even when individual control options seem to disappear from sight. When collecting and transmitting large volumes of personal data via ICT, another key issue is how to deal with security and protection of the data and information against misuse by government, professionals, relatives or criminals? Technology has provided solutions such as firewalls, digital user identification and authorisation. Sadly, these systems can be overruled, and data can be accessed for misuse by others, leading to fraud or unwanted monitoring. Worries about Orwellian notions of Big Brother are frequently mentioned, pertaining to the fear that central governments or local authorities are excessively monitoring their citizens. The argument has been made that, at least in some democratic societies, a more actual threat might be that industry or commercial services breach ethical rules12; in such cases the governmental reaction might be a firm legal framework to prevent future misuse. While the breach of rules is dealing with the same data and information that is used by intelligent and autonomous systems, the end result will be blocking innovation and thus blocking better systems for everybody13. Another issue is how to protect human integrity and value. In electronic tagging, the very personhood of people who are being watched over is under pressure. Modern ICT is a very acceptable means of supplementing care giving, but should not be directly used as the sole substitute for proper personal care and face-to-face contact. One could therefore question whether data collection should be carried out by a care centre that has many interests to serve, such as achieving a certain level of productivity and targets. Care centres could in fact stimulate contact with clients by having insight in the lifestyle of citizens. Another point is that clients do not only need care or care-related contact, but also support or access to other platforms for leisure or for contact with other citizens. Information should be presented in such a way that a third person does not have access to a person’s heart rhythm files, but that separate information is combined to determine a pattern of behaviour: what food are you buying as a chronically ill patient, are you regularly taking your medicine, do you refrain from taking necessary rest or refrain from activity programmes? For instance, a health insurance company should not have access to certain data that might lead to adjustments to one’s insurance premium.
182
![Page 196: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/196.jpg)
4.2. Dementia A particularly vulnerable group of older adults are those with dementia. This ever increasing group, an estimated 24.3 million people worldwide14, has specific needs given their physical and cognitive status. According to carers, the complexity of contemporary technology plays a role in loss of abilities and can have a disabling effect on the person with dementia syndrome15. Some studies have been conducted on the utility and usability of technology for older adults with dementia in home care situations16,17. Especially for this vulnerable group, technology and equipment should (i) not require any learning, (ii) look familiar, (iii) not remove control from the user, (iv) keep user interaction to a minimum, and (v) reassure the user16,17. Ambient intelligence may meet all five criteria, in particular because the support devices are invisible to the user, and since ambient intelligence forms a self-learning part of the environment where one lives itself. Investigations of needs of users by Orpwood et al.17 resulted in a number of key issues to be addressed in the technological home environment. These include the support for use of cookers, baths and hand-basins, support to prevent leaving the house at inappropriate times and support for finding lost items, and reminders about daily activities, as well as communication with friends and relatives. To cope with the problems accompanying wandering, a potentially lethal behaviour associated with dementia, track and trace systems are used, which are said not to put an unethical restraint on people. It is argued that a slight loss of liberty is acceptable in order to increase safety18,19. At the same time, electronic tagging arguably satisfies an ethical principle and decreases stigma19. Bjørneby et al.20 and van Berlo10 state that the following questions should be considered in the use of technology: (i) the purpose of introduction, (ii) degree of involvement and consent of the person with dementia, (iii) who is to benefit most, (iv) is technology replacing human input, and (v) effects on the person with dementia. Although abilities of people may vary considerably depending on the stage of dementia and past experience with technology, it is expected that most, including many of the current generation of older adults with early dementia, do not fully comprehend to what extent autonomous ICT collect and transmit data, and by whom this data can be accessed. This makes persons with dementia, and their partners when living together in the same households, vulnerable to misuse, criminal activities, privacy breaches, and possible dehumanising treatment. An issue of concern in autonomous technology and its use with persons with dementia is obtaining informed consent, for instance, in relation to having aspects of personal health routines and other behaviours tracked. Whereas persons without cognitive impairment can decide for themselves, persons with dementia may require help from (family) carers, and periodical revaluation of their will to cooperate. Current ethical practice in the field of technology and care already involves people with a disability in will, intention and judgement, such as young children and the mentally disabled. However, the most difficult problem in ethical decision-making for dementia seems to be the degree of dementia and, for instance, the fluctuations in cognition, skills and behaviour around an average pattern that pose limitations to the degree in which technology can be understood and thus applied. 5. Protecting privacy In many ways it appears as if privacy regulation lags behind technological developments. Data protection laws address the privacy concerns raised by the creation of databases during the 1960s and 1970s by government organisations and eventually private enterprises. This legislation put forward responsibilities for these agencies and rights for the individual, but assumed the necessity of the relevant records and the feasibility of enforcing related legislation. These assumptions are challenged in the era of internet use, and even more so as we move into the era of ambient intelligence, which promises to intensify data collection in kind,
183
![Page 197: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/197.jpg)
frequency and volume. Private individuals are confronted with ever more contexts in which they are invited to impart personal information in order to use a particular service. Privacy researchers have debated the choice between self-regulation by the industry and the introduction of new legislation. A middle ground proposed in the United States of America has been the definition of privacy standards, such as the P3P21, and the development of ‘privacy critics’ as technologies that would support users in assessing whether different services do or do not comply or not with their personal privacy preferences. These privacy critics should provide an early warning system regarding potential privacy breaches. The argument behind such technologies is that individuals will show preferences to companies complying with their personal privacy preferences, and market forces will ensure that companies applying sound privacy policies are rewarded for doing so. In practice, however, this has not turned out to be the case. In the context of internet use, but also in transactions of daily life, people often opt for fast gratification, enjoying a service at the moment it is offered and only appreciating privacy implications later on and usually only after problems arise. Older adults in the current cohort may not be able to appreciate the nature of the privacy implications of disclosing information about themselves, either because of the technological complexity or because of lack of awareness of how information is used and misused in a networked society. Currently, privacy researchers are examining how such technologies can transcend the domain of internet services and enter the arena of ambient intelligence22. The questions facing the use of such technologies for the benefit of older adults are how to communicate the nature of the privacy risks that older adults face, how to communicate the options they have, and how to exercise control over the information capture and dissemination capabilities of the environment they live in. Unfortunately, the current state of affairs on the feasibility of such solutions is far from encouraging. Lacking knowledge regarding privacy risks, older adults are not able to appreciate the different choices offered to them. In a recent survey23 of older and young individuals suffering from chronic and life-threatening illnesses, the seniors appeared nonchalant regarding their privacy, not being able to conceptualise how their information could be misused. Privacy critics assume the ability of users to comprehend and make decisions regarding their privacy preferences and the privacy policies of different services. Al Mahmud et al.24 conducted an extensive survey study involving 127 middle-aged and older participants. The comprehension of simple statements regarding the privacy policy of a hypothetical health care service was evaluated. The statements were very simplified versions of OECD guidelines for data protection25. When requested to judge whether a particular privacy policy was applied, participants’ answers were only 70% correct, even when this privacy statement was repeated verbatim from the system description. It seems that the very nature of privacy and the related descriptions of privacy policies require some fine nuances to be made that are lost in the common sense use of terms such as purpose of data collection, description of intended use, purpose of data collection, and so on. Some privacy researchers have suggested that the most important consideration from a user’s perspective is to provide control for their own information26. In the context of ambient intelligence, this control becomes ever more laborious to exercise, relies on understanding complex concepts, and even requires a technological awareness on uses and misuses of this information- that cannot be assumed for the current generation of older adults. 6. Responsibility and legislation Since technologies are becoming an omnipresent and integrated part of the daily lives of older adults, offering a diverse range of functionalities that to some extent require the collecting and processing of personal data, good ethical practice demands for a number of actions. These include a discussion on the responsibility for these processes, the appropriateness of technology and inclusion of all types of users, the protection of users from misuse and the creation of awareness regarding privacy-sensitive matters, and, most importantly upgraded legislation pertaining to all these aspects of home technologies.
184
![Page 198: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/198.jpg)
Monitoring individuals in and around their homes imposes responsibilities upon various parties, including governing agencies and professionals. The issue of accountability and proper treatment of data is a sensitive matter. Increased government supervision often is accompanied by a loss of personal freedom. The issues concerning the responsibility of ICT are manifold, for instance, who is responsible when data is lost, or when due to a lack of electrical power, vital information is not collected or transmitted? At what time should data be destroyed by the authority in charge? Moreover, the quality of technology and maintenance it requires become increasingly important. Technicians may acquire a new role in health care at home, and become direct players in facilitating care of care-dependent seniors. Guidelines delineating to what extent society should accept a temporary decrease in the quality of care or life in case of failure of the technology involved will become essential. The same guidelines could account for the quality of communication, stating who is in charge of treatment and who is responsible for quality and equal access to health care for all, including those without internet connections. A combined agenda of technological and legislative developments is needed to support the wider public and especially the older population. This support could pertain to elucidating and helping these individuals appreciate the nature of the choices they make regarding the disclosure of their personal information, the legitimacy of the information disclosure they are requested to make, and the appropriateness of the data collection for the service provided. While these principles hold just as much for the internet domain as for ambient intelligence, the complexity and diversity of the latter call for extra care to ensure transparency for the older population that is in need of the comfort and security these technologies promise to provide. The issue of privacy and ethics is not easy to address. Lack of privacy and breach of ethical behaviour are seen as very serious. This results in a tendency to keep away from ‘experimenting’ around a borderline, which is still to be defined. Profiling a person can be a good method for presenting the best individual services. However, a profile can be easily misused for commercial and criminal purposes. When a profile is used in a positive sense it should be based on very clear decision structures and protocols. In this era of rapid developments related to privacy and ethics there is an urgent need for total transparency and clear definitions. These decision procedures and protocols are to be based on thorough research, which currently is not getting sufficient attention. References 1. van Overbeek R, Schippers A, editors (2004) Ouder worden we allemaal, Trendstudies en
toekomstdebatten over de vergrijzing in Nederland. NIZW, Utrecht, The Netherlands [in Dutch] 2. van Bronswijk JEMH, van Hoof J, Franchimon F, Koren LGH, Pernot CEE, van Dijken F (2005)
De intelligente thuisomgeving. Een betaalbare zorg voor de lange duur. In: Zuidema EA, Stevens PGJJ, van Adrichem JAM, Kort HSM, Verbeek G, editors. Handboek zorg thuis. Elsevier gezondheidzorg, Maarssen, The Netherlands. pp C 5.3-1-C 5.3-28 [in Dutch]
3. Aarts E, Marzano S, editors (2003) The new everyday - Views on ambient intelligence. 010 Publishers, Rotterdam, The Netherlands
4. Stefanov DH, Bien Z, Bang W-C. The smart house for older persons and persons with physical disabilities: Structure, technology arrangements, and perspectives. IEEE Transactions on Neural Systems and Rehabilitation Engineering 2004;12(2):228-250
5. Levy S, Bradley DA, Morison MJ, Swanston MT, Harvey S. Future patient care: tele-empowerment. Journal of Telemedicine and Telecare 2002;8(Suppl 2):52-54
6. CamCare. Amsterdam, The Netherlands: CamCare BV. http://www.camcare.nl. 7. Smith CE, Cha JJ, Kleinbeck SVM, Clements FA, Cook D, Koehler J. Feasibility of in-home
telehealth for conducting nursing research. Clinical Nursing Research 2002;11(2):220-233 8. Kielhofner G (2002) Model of human occupation: Theory and application. Third edition.
Lippincott Williams & Wilkins, Baltimore, MD, USA 9. Kemppainen E, Abascal J, Allen B, Delaitre S, Giovannini C, Soede M (2007) Ethical and
legislative issues with regard to Ambient Intelligence. In: Roe PRW, editor. Towards an inclusive future. Impact and wider potential of information and communication technologies. COST, Brussels, Belgium. pp 188-205
10. van Berlo A. Ethics in domotics. Gerontechnology 2005;3(3):170
185
![Page 199: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/199.jpg)
11. Korhonen I, Pärkkä J, van Gils M. Health monitoring in the home of the Future. IEEE Engineering in Medicine and Biology Magazine 2003;22(3):66-73
12. Garfinkel S (2001) Database nation. The death of privacy in the 21st century. O'Reilly, Sebastopol, CA, USA
13. Soede M (2005) Ambient intelligence and disability: Where do they meet? Paper presented at the COST Action 219ter Cyprus Workshop ‘Accessibility for all to services and terminals for next generation networks’. 7 October 2005, Ayia Napa, Cyprus
14. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca M and for Alzheimer’s Disease International. Global prevalence of dementia: A Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
15. Hagen I, Holthe T, Gilliard J, Topo P, Cahill S, Begly E, Jones K, Duff P, Macijauskiene J, Budraitiene A, Bjørneby S, Engedal K. Development of a protocol for the assessment of assistive aids for people with dementia. Dementia 2004;3(3):281-296
16. Orpwood R, Bjørneby S, Hagen I, Mäki O, Faulkner R, Topo P. User involvement in dementia product development. Dementia 2004;3(3):263-279
17. Orpwood R, Gibbs C, Adlam T, Faulkner R, Meegahawatte D. The design of smart homes for people with dementia - user-interface aspects. Universal Access in the Information Society 2005;4(2):156-164
18. McShane R, Hope T, Wilkinson J. Tracking patients who wander: ethics and technology. The Lancet 1994;343(8908):1274
19. Hughes JC, Louw SJ. Electronic tagging of people with dementia who wander. British Medical Journal 2002;325(7369):847-848
20. Bjørneby S, Topo P, Holthe T, editors (1999) Technology, ethics and dementia: A guidebook on how to apply technology in dementia care. Sem, Norwegian Centre for Dementia Research, Oslo, Norway
21. World Wide Web Consortium (W3C). P3P Guiding Principles: W3C NOTE 21-July-1998. W3C; 1998. http://www.w3.org/TR/NOTE-P3P10-principles. Accessed 31 May 2007
22. Langheinrich M. Privacy by design - Principles of privacy-aware ubiquitous systems. In: Abowd GD, Brumitt B, Shafer SA, editors. Proceeding of Ubicomp 2001: Ubiquitous Computing, Third International Conference. Atlanta, GA, USA. Lecture Notes in Computer Science 2001;2201:273-291
23. van de Garde-Perik E, Markopoulos P, de Ruyter B (2006) On the relative importance of privacy guidelines for ambient health care. In: Mørch A, Morgan K, Bratteteig T, Ghosh G, Svanaes D, editors. Proceedings of the 4th Nordic Conference on Human-Computer Interaction: Changing Roles. Oslo, Norway. pp 377-380
24. Al Mahmud A, Moran O, Kaptein M, van de Garde-Perik E, Markopoulos P. Understanding compliance to privacy using text- and video-based scenarios. Lecture Notes in Computer Science 2007;4663(Part 2):156-168
25. OECD (1980) Guidelines on the protection of privacy and transborder flows of personal data. Recommendation 23 September 1980. OECD, Paris, France
26. Berendt B, Günther O, Spiekermann S. Privacy in e-commerce: Stated preferences vs. actual behavior. Communications of the ACM 2005;48(4):101-106
186
![Page 200: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/200.jpg)
9
Ageing-in-place and ambient intelligence van Hoof J, Kort HSM, Rutten PGS, Duijnstee MSH Ageing-in-place with the use of ambient intelligence technology: perspectives of older users. Chapter 9 evaluates Unattended Autonomous Surveillance (UAS) system: one of the first ambient intelligence technologies implemented in practice in The Netherlands. The study presents data from qualitative research using topic lists with a cohort of 18 older adults, who -based on a needs assessment- qualify for nursing home care at home. These respondents participate in the UAS-pilot as a means to support ageing-in-place by providing a sense of safety and security. The over-time change in expectations and needs of the clients and their relatives concerning technological solutions for ageing-in-place was investigated in combination with the need for architectural solutions and care support. The application domains of the UAS-system include housing and daily living, as well as health and self-esteem or autonomy. Moreover, the study includes aspects of ethics and privacy, which were identified in Chapter 8. The results of this study combine the perspective of the users in terms of technology and good design, as well as the adequate implementation thereof. Within the combined framework of ICF-MIBD, Chapter 9 deals with an analysis and evaluation, as well as design aspects, services and stuff in the MIBD in particular, in relation to indicators of the basic value, functional value and economic value and related performances.
187
![Page 201: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/201.jpg)
188
![Page 202: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/202.jpg)
Ambient intelligence technologies are a means to support ageing-in-place by monitoring clients in the home. In this study, monitoring is applied for the purpose of raising an alarm in an emergency situation, and thereby, providing an increased sense of safety and security. Apart from these technological solutions, there are numerous environmental interventions in the home environment that can support people to age-in-place. The aim of this study was to investigate the needs and motives of the respondents receiving ambient intelligence technologies, and the solutions offered by these technologies installed in the home environment, and to find out from the respondents if and how these two elements are complementary. This paper presents the results of a qualitative study comprised of interviews and observations of technology and environmental interventions in the home environment among 18 community-dwelling older adults with a complex demand for care. These respondents had a prototype of the Unattended Autonomous Surveillance system, an example of ambient intelligence technology, installed in their homes as a means to age-in-place. The UAS-system offers a large range of functionalities, including mobility monitoring, voice response, fire detection, as well as wandering detection and prevention, which can be installed in different configurations. First, the needs and motives of the respondents are described. This is followed by an analysis of architectural and technological solutions applied by respondents to support ageing-in-place. Thereafter, the fit between needs and solutions is discussed, which is supplemented by an overview of requirements to care(rs), technology and installers in relation to the implementation of ambient intelligence technologies. Findings are shown for the situation prior to and after installing the ambient intelligence technologies. There is a mix of positive and critical attitudes of the respondents and their relatives towards the technologies and their integration into daily living. This goes together with a discussion on ethical and privacy-related aspects. New technologies alone offer no allncompassing solution as home care and additional environmental interventions are still needed to support ageing-in-place. Results of the study will be used to further improve the ambient intelligence technologies and their implementation. 1. Introduction According to The Netherlands Institute for Social Research1 the vast majority of older adults in the Netherlands - 93% of 2.2 million – live in the community. Over the years, the demand for care has gradually been increasing due to the ageing of society and a growing number of chronically ill people. Although about 15% of older people in The Netherlands receive professional home care, family care makes up the largest portion of care2. Community-dwelling older people, who have acquired the right to receive nursing home care based on the Dutch Exceptional Medical Expenses Act (AWBZ; EMEA), ask for a substantial level of long-term care. Such care can be supplied by home care visits, which allows older persons to age-in-place. Apart from receiving family and professional care at home, there are two technology-related solutions to facilitate ageing-in-place, namely architectural and technological solutions3. On the level of the individual occupant, the desire to age-in-place leads to home modifications and retrofitting, moving, or simply living under less favourable conditions that might pose a hazard to certain domains of quality of life4. At the same time, only 0.5 million dwellings in The Netherlands are intended for habitation by older adults, and there is a shortage of 40% in the number of such dwellings to cope with the demand. This leads to enormous pressure on the existing housing stock1. Technology, home automation, telehealth services, and ambient intelligence are increasingly becoming tools to support and monitor older adults with or without cognitive impairments, by improving their sense of safety and security as a means to support ageing-in-place6-20. Moreover, such technologies form a welcome support for family carers and care
189
![Page 203: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/203.jpg)
professionals. In short, residential monitoring technologies aim to support frail people live more safely and securely, more capably, and longer in their location of choice21. 1.1. Ambient intelligence: the Unattended Autonomous Surveillance system One such technological solution is the Unattended Autonomous Surveillance (UAS) system. This system has been under development by TNO Defence, Security and Safety, The Netherlands, since 2001. The UAS-system aims to support ageing-in-place and delaying the demand for expensive institutional care by increasing the clients’ and family carers’ sense of safety and security through unobtrusive monitoring at home. Clients and, in turn family and professional carers, may benefit from the expected increase in self-care capabilities. 1.1.1. Functionalities The UAS-system offers a large range of functionalities, including mobility monitoring, voice response, fire detection, as well as wandering detection and prevention, which can be installed in different configurations (Table 1). The functionalities are described in more detail below. Mobility monitoring Movement sensors continuously monitor the whereabouts of a care client within his or her dwelling. The system registers how many people are present in the dwelling and in which room a person is located. The system responds when a client is inactive when he or she should be active; the duration of inactivity depends on the function of a space. For instance, this duration is shorter for the corridor than for the living room. In cases of emergency, a text message containing information on the alarm situation is sent to a mobile phone of a health care professional. This person can then check on the client via two cameras that are present in the dwelling. The operation is described in the following section. Voice response In case of an alarm, the system contacts non-psychogeriatric clients via telephone first (voice response) in order to minimise the number of false alarms. This functionality may also be omitted in somatic clients, who have lost the ability to speak. This voice response functionality sends out spoken messages to all telephones in the home of a client, before sending off an alarm to the central care centre. If the situation turns out be a false alarm, the client can block the alarm by pressing a button. If the button remains untouched, an alarm is again sent via SMS to a health care professional. Fire detection In every home, one or two smoke detectors have been installed. When one of the detectors triggers an alarm, the UAS-system automatically activates the second alarm. When the voice response functionality is installed, the client can indicate whether the alarm is true or false. In case, the client is not at home, the alarm can be sent directly to a care centre, or to a family carer via SMS. Wandering detection and prevention In case of psychogeriatric clients, the UAS-system offers a functionality for wandering detection. This functionality detects when a client leaves his or her dwelling unwanted. Magnetic contacts are applied to the doorframes of the front and hind doors. When these contacts send out a signal to the UAS-system that doors have been manipulated, the movement sensors inside the dwelling check for the presence of the client. This wandering detection functionality does not require the client to wear any technology. Whenever a client leaves his or her dwelling, a phone call is made to the client. This telephone is situated near the exit doors, in order for the client to be able to hear it. When the client turns around to answer this phone call, he or she gets a spoken warning. This functionality is called wandering prevention. In case the client leaves the home, and no one else is present, an alarm is sent to the central care centre, the care professional in charge, or a family carer. The wandering detection can be activated during the night only, or can be programmed with a certain delay, for instance, alarms are triggered only half an hour after an event if the person hasn’t returned. The UAS-systems counts the number of people present in the dwelling, and accounts for visitors and carers. Moreover, the wandering detection can also be used to monitor restlessness at night.
190
![Page 204: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/204.jpg)
Table 1. Functionalities and technologies installed for each configuration in the 16 homes of respondents. Functionality Configuration 1
(n = 8) Configuration 2 (n = 4)
Configuration 3 (n = 4)
UAS Mobility monitoring x x Voice Response x Fire detection x x x Wandering detection /
prevention x x
Other SCOTTY and Eye Catcher x x x Emergency response
system x x x
1.1.2. Hardware and operation The UAS-system is based on ZigBee, which is a low-power, low-cost but relatively long-range wireless network intended for applications such as home automation, toys, games, and personal health care applications22. A ZigBee network is made up of a master unit and many slaves that are designed so that they can remain in a powered-down sleep mode most of the time, periodically waking up to interrogate the master22. The UAS-system consists of more than ten wireless sensors placed in various parts of the home (living room, bedroom, kitchen) along with a black box containing hardware components located in the living room or meter cupboard (Figure 1). This allows the clients the freedom of not having to wear or carry system equipment themselves (for instance, a neck-worn pendant emergency response system). The black box is based on the TCP/IP protocol and XML, and is connected via the Internet to a call centre, which can be an external emergency room, a local manager, or a mobile team of professional carers. Newly developed software analyses the information that is collected from sensors in the dwelling and compiles it to obtain a complete picture of events. For instance, by monitoring the movements of a client the system can recognise a fall incident. For each room, a certain duration of inactivity is pre-determined, which is used to set the alarm. The alarm is turned off automatically when going to bed, and is activated when waking up, or when leaving/entering the home. When a smoke detector in the kitchen triggers an alarm, the UAS-system knows from the movements recorded in the kitchen that there are pans on the stove, and so its first response is to contact the resident. In case of an alarm, the system contacts non-psychogeriatric clients via telephone first (voice response) in order to minimise the number of false alarms. When the client does not respond within one minute, an alarm is given off to the call centre. Professionals then judge whether to send a care professional or to call the national emergency number. Also, two small cameras in the dwelling can be activated in cases of emergency for verification of the alarms (Figure 1). These cameras are installed in a dwelling in agreement with the client. This also means that from a privacy point of view, no cameras are placed in restrooms and bathrooms. If there is an alarm call from a room in which no camera has been installed, the care professional can still access the cameras and use the voice response. When the actual situation of the client is unclear of when a client is in need, the care professional visits the client at home. The response time is 20 minutes at most. Moreover, professionals in the call centre can have screen-to-screen contact with the clients via the television, or have contact via an audio system, for instance, to ask how people are doing. In short, the system analyses and interprets the actual situation at home on a continuous basis and draws conclusions from the data gathered. This makes the UAS-system an intelligent alarm system, which can check whether there are actual emergency situations at home or whether psychogeriatric clients are wandering. When longer periods of malfunctioning of the UAS-system are reported during the experiment, the system can be switched off, which leaves the client with an active emergency response system only. The UAS-system can also be switched onto the so-called idle mode, which means that only TNO Defence, Security and Safety receives alarm calls given off by the system, not the care organisation.
191
![Page 205: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/205.jpg)
Figure 1. Model of the UAS-system and its functionalities, based on the adapted Stefanov model by van Hoof et al.3,5. 1.1.3. Experimental set-up and configurations A prototype version of the new UAS-technology is being implemented among community-dwelling older adults in the towns of Baarn and Soest in The Netherlands, who participate in this study. The target group is entitled to receive nursing home care (at home) based on the EMEA. There are three configurations of the UAS-system that are being installed in the clients’ homes where this study was conducted: configuration 1, containing all functionalities for clients that are mobile and are able to answer the telephone; configuration 2, without speech interface for clients that are mobile but unable to answer the phone (mainly psychogeriatric clients); and configuration 3, without speech interface and without movement monitoring for clients that are unable to move (bed-ridden) and answer the phone. The choice
192
![Page 206: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/206.jpg)
for a certain configuration depends on the health and cognitive status of the client and her/his personal wishes/needs concerning the system, and is also made based on the professional judgment of a care professional from the care supplier involved in the project. In addition to the UAS-system, clients can make use of an additional set-top box for videotelephony via the television set (SCOTTY and Eye Catcher), as well the active emergency response systems (pendants) that are already in use by the clients. These response systems are technically not part of the UAS-system but are connected to it. When an alarm is raised in an emergency situation, the cameras of the UAS-system are activated, and the situation at home can be verified by a health care professional. The response systems were kept by the respondents in line with recommendations by the medical ethical committee. Clients do not distinguish between the separate technological solutions as they see the total set of technology as a single unit. Therefore all the technological solutions present in the home are included in this study. In the latest commercial version of the UAS-system, a response system will be part of the total system. 1.2. Aim of the study The UAS-system is installed to support ageing-in-place for community-dwelling older adults with a complex demand for care. The purpose of this project is to present a picture of the sense of safety and independence, and to identify indicators that contribute to ageing-in-place which are related to the use of the new ambient intelligence technologies. The aim of this study is to examine the needs and motives of the respondents (and their carers and other stakeholders) (demand), and the solutions offered by the ambient intelligence technologies (including the UAS-system) installed in the home environment (supply). Furthermore, to determine whether these two aspects of supply and demand match according to the respondents and, if so, how they complement each other. We therefore look at (i) the expectations of respondents in relation to ageing-in-place with the use of new ambient intelligence technologies (ii) within a framework of supply, demand and fit. We also study (iii) whether or not the new technologies and their implementation meet the expectations of the respondents, and (iv) if improvements or points of further development are required in order to meet the needs of the respondents. 2. Methodology In the following sections, the choice for the research methodology of the study is described, as well as how literature and interviews were used. Also, the origin and selection of respondents and their characteristics are described. Thereafter, a description of the interviewing techniques and analysis is provided, as well as a description of how results are presented. The outline and contents of this section follows from Kars et al.23. 2.1. Research methodology Based on the assumption that adequate support lies in the world of the client (i.e., the respondent), this study makes use of an interpretative research approach. A qualitative research methodology is chosen for this study because we investigate a new phenomenon; we want to gain insight into how persons view the ambient intelligence technology at home. Qualitative research allows for the interpretation of the process of giving meaning to events. In this study, we look for trends in the process of giving meaning to events, which are presented in the overview of results. Because these results can reflect a wide range of thoughts and experiences, we have chosen to present this diversity, as far as legibility allows. In general, qualitative research makes no claim to be representative of the population it is examining. The purpose of this methodology was to present a picture of the sense of safety and independence, and to identify indicators that contribute to ageing-in-place which are related to the use of the new ambient intelligence technologies. From the narratives comes a better understanding of the issues and complexities people deal with in maintaining ‘independence’ including the use of assistive technologies and the implementation of home modifications.
193
![Page 207: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/207.jpg)
2.2. Interviews Data acquisition took place through qualitative interviews. The reconstruction of the point of view of the interviewed person comes first, which requires ‘role-taking’. The interviewer needs to stand in the shoes of the person that is being interviewed. This resulted in an interview method in which respondents felt invited and comfortable to share their experiences with the interviewer. In this study, respondents were asked if the interviews could take place within their homes as the way of life and experiential world is expressed best at home and since observation of the living environment plays an important part in the interviewing. An exception was made for one of the respondents, who was interviewed at the day care centre due to circumstances. The interviewer looked for a connection to the meanings that the respondents gave to a certain situation or event. This means that no suggestive questions were asked and that no judgment was made about what the respondent expressed during the interview. Also, the interviewer, in an open and accepting fashion, tried to seek clarification and deeper meaning, for instance, through encouraging respondents to provide further explanation or to nuance or differentiate the topic of the conversation. One of the tools was to ask the respondent to provide examples from their own experience, which led to a combined view of all technologies at home, as respondents see the set of technologies as a whole instead of as the sum of separate technological solutions. In this way respondents shared their experience with all technological solutions used for ageing-in-place. The respondents showed a great willingness to participate in the study and to share their views and experiences. 2.3. Topic lists A topic list, an overview of research themes and accompanying questions, was used to investigate the experiences, needs, and attitudes of the respondents. The themes of the topic lists were based on a literature study including the work by Bijsterveld24, Pool et al.25, Demiris et al.26, and The Netherlands Centre for Ethics and Health (CEG)27. The themes were discussed and adjusted with the care supplier and with Vilans, a national centre for long-term care. The topic list was divided into a structured and a semi-structured section. First, background information, including questions on gender, date of birth, family status, pets, education, and type of domicile, on the respondents was collected to gain insight into variation within the study population. The topic list contained topics grouped around a number of main themes: (i) morbidity and use of assistive aids; (ii) demand for care, home care received, and satisfaction with care services; (iii) importance of ageing-in-place and accompanying challenges; (iv) views on independent functioning; (v) sense of safety and security; (vi) communication with carers and relatives; and (vii) concerns regarding technology and personal thoughts about the future. There were two rounds of qualitative interviews using the topic list, which was extended and adjusted during the course of the research based on the experiences shared by the respondents. The goal of the first round of interviewing was to map the experiences concerning independent functioning, the use of technology, as well as the quality of care. The second round of interviewing focused on over-time differences in the experiences concerning safety and security in relation to the installed ambient intelligence technologies, the integration of the ambient intelligence technologies into the home environment, and the organisation of care. 2.4. Origin and selection of respondents The respondents of the study were clients of the participating care supplier (Stichting Zorgpalet Baarn-Soest, SZBS). SZBS has been providing nursing care at home since 1989. The organisation’s mission is for their older clients to age-in-place for as long as possible. In some occasions, clients receive six to nine visits at home by a professional carer per day. Clients have access to an emergency response system/service system to indicate when they are in need of help or assistance as they do not receive so-called ‘24-hour care’. These systems were not sufficient to support the care processes, and an additional care support system was, therefore, needed. This need was emphasised by wandering behaviour of psychogeriatric clients and problems controlling the alarm system by severely somatically impaired clients. Also, clients used the alarm system for non-emergency situations that were related to the disablement process in general. In 2003, SZBS chose to implement the ambient
194
![Page 208: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/208.jpg)
intelligence technologies as the systems do not require the clients to actively wear and control components of the system, which is seen as a clear advantage over conventional alarm systems. Furthermore, the UAS-system can be relocated if a client moves to another dwelling or passes away (many clients have a short life expectancy). The respondents of the study were selected by the care coordinators of SZBS. Fortunately, this resulted in a large variety in respondents, which increases the chances in qualitative research to gain as broad an insight as possible in the phenomena studied. For the selection and inclusion of the respondents, a number of criteria were applied which focus on the target group of the UAS-system: The client is mobile and has the tendency to fall, or the client is bed-ridden and wants no
bedrails. In such situations, mobility monitoring in combination with cameras may be desirable to check whether a client is in need of assistance.
The client has a tendency to wander. There is a need for wandering detection/prevention.
The client activates the alarm once or twice a day via his/her emergency response system/service system. Professional carers want to have a method to check whether the alarm is false or valid, using a video connection.
The client has feelings of loneliness and needs social contacts. Via the so-called EyeCatcher technology, the client can contact care professionals and relatives.
The client feels unsafe/insecure at home, or professional/family carers have doubts about the safety situation at home.
2.5. Respondents The ambient intelligent system was installed in 16 dwellings (Table 1). A total of 18 older adults (including two married couples) participated in the study (Table 2). Based on assessments of the regional health care assessment centre (CIZ), the respondents chosen for the project are entitled by the EMEA to receive institutional nursing home care (not placement per se), i.e., they require 24-hour surveillance. Of these respondents, seven cope with mild to moderate psychogeriatric health problems, including dementia. The other respondents have (severe) somatic health problems. The majority of subjects deal with a variety of comorbidities. The respondents were living without pets, except for two female respondents, who cared for a cat (Mrs. N) and a bird (Mrs. K), respectively. Also, Mrs. K was the only respondent without children. One of the strengths of this study is that the sample contains both somatic and psychogeriatric respondents although the latter category of respondents is smaller in number. The variation in needs of the respondents led to the installing of three configurations of the UAS-system, which enabled us to study more than one variety of the system. During the study, six of the respondents passed away, were institutionalised, or were not able to participate and, therefore, left the study. Thus, of the 18 initial respondents of the first round of interviews, only 12 participated in the second round. The region, in which the towns of Baarn and Soest are situated, is populated by persons with a high social economic standard. Many of the respondents have had professional education. Well-educated people tend to reside in their own (modified) homes longer than less-educated people due to better access to home care services and better financial resources, although many eventually end up in institutional settings as well1.
195
![Page 209: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/209.jpg)
Tab
le 2
. Lis
t of i
nter
view
ed r
espo
nden
ts,
arra
nged
by
age,
gen
der,
hea
lth s
tatu
s, U
AS
-con
figur
atio
n, a
nd li
ving
con
ditio
ns. T
he h
ealth
sta
tus
of th
e re
spon
dent
s in
fluen
ces
the
need
for
assi
stan
ce a
nd e
nviro
nmen
tal i
nter
vent
ions
. The
hou
sing
sta
tus
influ
ence
s th
e ne
ed fo
r en
viro
nmen
tal
inte
rven
tions
incl
udin
g ho
me
mod
ifica
tions
, and
the
poss
ibili
ty to
car
ry o
ut s
uch
inte
rven
tions
with
out t
he p
erm
issi
on o
f a th
ird p
arty
. Respondent
Gender
Age at time of first interview
Age at time of second interview
Somatic / psychogeriatric health condition
Disease / disorder
Physical and sensory limitations
UAS-configuration*
Type of housing**
Ownership
A
fem
ale
65
so
(be
d-rid
den)
R
heum
atoi
d a
rth
ritis
, bro
nchi
tis
Mob
ility
, vis
ion,
bre
athi
ng
3 T
erra
ced
hous
ing
own
hom
e
B
fem
ale
82
84
so
Hig
h bl
ood
pres
sure
, lun
g di
seas
e M
obili
ty, v
isio
n 1
ALF
re
nt
C
mal
e 87
pg
Cat
arac
t, tr
ansi
ent i
sche
amic
atta
ck
Hea
ring,
mob
ility
1
Apa
rtm
ent
own
hom
e
D
fem
ale
84
86
so
Chr
onic
bac
k pr
obl
ems,
lung
em
bolis
m, o
steo
poro
sis
Mob
ility
, vis
ion,
equ
ilibr
ium
1
Ter
race
d ho
usin
g re
nt
E
mal
e 82
so
Bra
in h
aem
orrh
age
M
obili
ty
2 A
LF
own
hom
e
F
fem
ale
77
79
pg
Car
diac
arr
hyth
mia
, sur
gery
to
kne
e,
cata
ract
M
ob
ility
, vis
ion
3
A
LF
re
nt
G
fem
ale
85
87
pg
Par
kins
on’s
dis
ease
, tra
nsie
nt is
chea
mic
atta
ck,
cata
ract
S
peec
h, m
obili
ty
3 A
LF
own
hom
e
H
fem
ale
80
so
(be
d-rid
den)
D
epre
ssiv
e fe
elin
gs, s
urge
ry to
the
hip
plus
co
mpl
icat
ions
due
to M
RS
A in
fect
ion
Mo
bili
ty
3
AL
F
ren
t
J fe
mal
e 63
64
so
M
ultip
le s
cler
osis
M
obili
ty, v
isio
n 1
Ter
race
d ho
usin
g (c
orne
r)
rent
K
fem
ale
81
82
so+
psyc
hiat
ric
heal
th p
robl
ems
Par
kins
on’s
dis
ease
, R
enau
lt’s
dise
ase
Mob
ility
, equ
ilibr
ium
, vis
ion
1 T
erra
ced
hous
ing
rent
L/ M
fem
ale
76
77
so
His
tory
of l
aryn
gea
l can
cer,
hea
rt fa
ilure
, dia
bete
s ♂
; re
tiniti
s pi
gmen
tosa
♀
Hea
ring
(♂),
mo
bili
ty,
visi
on
(♀
) 1
Apa
rtm
ent,
gro
und
le
vel
rent
m
ale
84
85
so
N
fem
ale
81
82
pg
Sur
gery
to h
ips,
hig
h bl
ood
pres
sure
, str
oke
H
earin
g, s
hort
-te
rm
me
mo
ry
2+W
D
Sem
idet
ache
d h
ome
own
hom
e
O
fem
ale
80
pg
D
emen
tia
Cog
nitio
n, m
obili
ty
2 A
part
men
t ow
n ho
me
P
fe
mal
e 85
pg
Dia
bete
s, d
epre
ssiv
e fe
elin
gs, s
urge
ry t
o hi
p- a
nd
knee
s H
earin
g, v
isio
n, m
obili
ty,
cogn
ition
2+
WD
A
LF
rent
Q/
R
fem
ale
75
76
so
Ear
ly d
emen
tia, h
eart
failu
re♂
; ast
hma,
dus
t mite
al
lerg
y, r
heu
mat
ism
, hea
rt fa
ilure♀
C
ogni
tion
(♂),
vis
ion
1 A
part
men
t ow
n ho
me
m
ale
76
77
pg
S
fem
ale
83
84
so
Par
kins
on’s
dis
ease
M
obili
ty, e
quili
briu
m
1 A
LF
rent
*W
D (
Wan
derin
g d
etec
tion)
. **
AL
F (
Ass
iste
d-liv
ing
faci
lity)
196
![Page 210: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/210.jpg)
2.6. Privacy, anonymity and ethics The relatively small sample and the use of quotations make the respondent of qualitative research relatively vulnerable. In the presentation of results, respondents are indicated by letters, not names. In order to maximise the legibility of the quotes, they have been edited and translated as closely as possible to the original. At the same time, some of the quotes have been adapted where appropriate to maximise anonymity and privacy of the respondents. From all respondents informed consent was obtained. The research set-up has been approved by the medical ethical committee of iRv, Hoensbroek, The Netherlands, which became a part of Vilans during the project. Even though all respondents in this study (or their legal representatives) signed informed consent, there might be some ethical considerations according to Demiris and Hensel15. Full disclosure may be hindered because the risks associated with smart home technologies in general are not always known a priori or fully studied. Moreover, the possible lack of technical familiarity among the respondents, their relatives and carers can “hinder this process because the discussion of security and privacy concerns or issues of accuracy and reliability of sensor systems or other computing applications often require basic understanding of networking and data transfer”15, p.110. Rauhalaa and Topo28 point out that there are problems concerning informed consent, such as, the lack of information and the inappropriate ways this information is provided to subjects of studies. This lack of information may affect the validity of informed consent. When subjects deal with cognitive deficits, the issues concerning informed consent become even more problematic. According to Demiris and Hensel15 it is not easy to determine whether subjects have been informed fully in the context of smart homes, and, therefore, informed consent should be viewed as a process and not an event as “the decision involves new processes of care and a paradigm shift in health monitoring”15, p.110 . In order to maximise the availability of information on the new technologies, ZPBS has provided respondents and relatives with information during special gatherings and via written material. In addition, ZPBS has made it possible for respondents, professional carers, and informal carers to visit a demonstration home where the UAS-system is installed so that they can see how the system functions. Mahoney et al.21 described a number of ethical principles and guidelines for gerontechnology research and development for persons with Alzheimer’s disease and their carers. One of the principles was ‘justice and distributional fairness’, and one of the indicators of this principle was ‘conducting small pilot feasibility studies initially rather than large scale RCTs to reduce economic waste from buying expensive technologies that do not work in a setting’. The current study fulfils this specific criterion. Another issue during the study was to guarantee a minimum level of ‘safety and security’. In order to protect the respondents during the study period, the active emergency response systems (pendants) that were already in use by the respondents were maintained during the study period on advice of the medical ethical committee. As the current response system is not part of the ambient intelligence technologies, the voice response system was not applied in case of false alarms. Instead, respondents had to use a reset button of the separate alarm equipment. In case no response was given by a respondent during an alarm situation, care professionals could monitor the home via the cameras to check on their status. 2.7. Interviewing and analysis The first part of the study, performed between December 2006 and September 2007, included 18 subjects (Tables 2 and 3). The interviews were carried out within a range of 3 weeks prior to or directly after the installing of the ambient intelligence technologies. The subjects were aware that they were getting the UAS-system. The second part of the study was conducted between October 2008 and May 2009 and included 12 respondents (Table 3). The duration of the interval between the two interviews was 8 to 23 months. These differences in between-interview duration allow for the identification of varieties in experiences that may come into existence over time. One of the results could be the identification of new experiences or the different importance give to a specific item. At the same time, there is the disadvantage of respondents leaving the study, for instance, because of passing away.
197
![Page 211: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/211.jpg)
During the interviews, conversations were audiotaped. Some of the respondents were assisted during the two rounds of interviews by their (family) carers, mainly daughters and sons (in-law). The presence of relatives was not only appreciated (partly because their views were included in the study), but in the case of psychogeriatric respondents, such a relative can serve as the spokesperson. These conversations were later transcribed. Audiotaping and the transcriptions contributed to the reliability of the study. Another advantage is that the contents of the data and the way these data are obtained (via interviewing techniques) are made verifiable and the interviewing techniques used can be modified if necessary. Moreover, in order to minimise systematic distortion, various methods were applied to obtain and analyse data (triangulation). The subjective experiences are of course individual, but the underlying objective events can be verified by interviewing more than one person as differences in vision and experiences can be clarified through asking secondary questions. The participation of both the respondent and a family carer enables the interviewer to study the same event from more than one perspective. The transcripts were analysed using the MAXQDA 2 program, in line with an earlier study by Braudy Harris29. First, each transcript was read in its entirety. Then, they were read a second time to develop codes that were grouped into themes, which emerged from the narratives and the topic lists, consistent with the interviews, To be considered a major theme, the code had to have appeared in more than a quarter of the narratives and more than once in each of the narratives. Third, quotes that summarised the essence of each person’s subjective experience were recorded. Researcher triangulation was applied during the entire process, for example, separate analyses of the interviews were conducted by two of the authors. This guarantees that the data are approached independently and from different perspectives. Method triangulation was applied as observations in the home environment of modifications and assistive devices were also part of the study. Table 3. Overview of dates of interviews and duration of interval. Respondent Date of baseline
interview [yyyymmd] Date of second interview [yyyymmdd]
Duration of period between interviews [months]
A 20061207 B 20061207 20081105 23 C 20061207 D 20070124 20081114 21 E 20070124 F 20070405 20081031 19 G 20070405 20081114 19 H 20070912 J 20070912 20081105 14 K 20070912 20081031 14 L/M 20071024 20081031 12 N 20071024 20081114 13 O 20071024 P 20080313 Q/R 20080313 20090520 14 S 20080313 20081105 8
2.8. Presentation of results Dewsbury et al.30, p.191 state that “designing ‘smart homes’ or homes that contain elements of ‘smart home’ technology for disabled or older people is not different from designing the home for people without any form of impairment on the one hand. On the other hand, there is a perceptual shift that is required in order to ensure needs are met from all stakeholders. There is a need to determine the needs of the occupant(s) and reflect these needs within the overall design.” The presentation of the results focuses on these needs and experiences of the various stakeholders involved in this study (respondents and their direct carers) in an interdisciplinary manner. Van Hoof et al.31,32 have presented a novel combination of two existing frameworks, which includes the stakeholder-approach.
198
![Page 212: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/212.jpg)
Figure 2. Interactions between the components of ICF by the World Health Organization33, and the integration of the Model of Integrated Building Design by Rutten34 by van Hoof et al. 31,32. The framework by van Hoof et al. (Figure 2) combines: (i) the International Classification of Functioning, Disability and Health (ICF)33 with its basis in health sciences; and (ii) the Model of Integrated Building Design (MIBD) by Rutten34, which has its origins in building sciences. The combined use of ICF and MIBD allows for an analysis of the current scientific problems that matches the mindsets of both scientific domains31,32 (Figure 2). Such a combined framework brings together demand and supply, namely the needs of the respondents, their carers and other stakeholders, and the solutions offered in the field of building and technology. The connection between the two frames is as follows. ICF characterises environmental factors, which may hinder or support activities or participation of a person with a (chronic) disease or impairment. The MIBD has the tools to analyse which environmental factor causes hindrance or support for a person with a chronic disease/impairment. The ICF has a specific connection to three of the values of the MIBD when looking at ageing-in-place (basic, functional and economic values), of which two are relevant for this study: the basic value and economic value. With the basic value of the MIBD the individual needs of the stakeholders as classified in ICF terms can be described. Also, hindrance or support from environmental factors on the level of the individual can be identified. As the basic value deals with the home environment, it is the most important value domain in this study. The economic value of the MIBD deals with the fit between demand and supply (cost-benefit analysis), and in this way hindrance or support for individuals on a macroeconomic level is described. From a practical point of view, the novel approach allows for a problem analysis from the viewpoint of the care recipient, which forms the basis of ICF, and to integrate the building process in such a way that it leads to more fitting and appropriate outcomes for the respondents and other stakeholders. The combined model puts the human being (occupant or stakeholder) and his/her needs in the centre, not the building or technology itself. The building or home itself is made up of several systems or components, the six S’s: stuff, space-plan, services, skin, structure, and site35. These components can be further divided into sub-system
199
![Page 213: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/213.jpg)
components, including systems for the delivery of telehealth services, home modifications, and assistive devices. Each system has a specific set of functions that contributes to the achievement of a certain value. 3. Results The results of this study are presented in three domains. First, the individual needs of the respondents are described as basic value indicators, followed by an analysis of building-related solutions applied by respondents to support ageing-in-place (architectural and technological solutions). Thereafter, the fit between needs and solutions is discussed, which is supplemented by an overview of requirements for care(rs), technology and installers in relation to the implementation of ambient intelligence technologies. When applicable, findings are shown for the situation prior to and after installing the ambient intelligence technologies. 3.1. Individual needs of respondents The basic value is determined from a building’s relationship with individual occupants and their sense of psychological and physical well-being. Aspects of safety and security are also included. The client (respondent) is the most important stakeholder in this section, followed by relatives and professional carers. Within the domain of the basic value, the study focuses on the incentives for ageing-in-place and the acceptance of technology, as well as the sense of safety and security as experienced before and after installing the new ambient intelligence technologies. Also, aspects of privacy and ethics as experienced by the respondents are described. 3.1.1. The importance of ageing-in-place: initial motives for accepting technology and the sense of safety and security at home before installing technology The respondents spoke of a number of reasons why they want to age-in-place. Each of the respondents had a different view on their level of independence, despite their need for assistance and care at home. This section discusses the motives of the respondents’ participation in the pilot study of new ambient intelligence technologies. Aversion against institutionalisation In general, there was a strong aversion against institutionalisation. One of the concerns was the supposed lack of privacy in an institutional setting. There was also a strong need to be able to have visitors when residents themselves wanted. Mrs. D: “I have no need for [a] ‘compelled’ living room [in a nursing home] where you sit down with all residents chitchatting and where everybody speaks for him/herself.” For couples, institutionalisation could mean an end to living together after a long period of marriage and being together. Attachment to and quality of current home and neighbourhood All the respondents in this study want to stay in their current dwelling because of attachment to the own home, memories of the past, and their possessions in the home, as well as the quality of the neighbourhood. Some of the respondents even moved to their current home in anticipation of a worsening health status. Mrs. J was offered a small home in the direct vicinity of a nursing home. “I’m happy I didn’t accept. It was too small to bring all my stuff. I’m happy to stay in my own home so I cannot only keep my things, but also walk into the garden […] when the weather is fine. I couldn’t do all these things in the new home.” The value of independence Independence is valued by all respondents in this study. Mr. M has multiple somatic health problems and still lives together with his wife: “We try to do everything ourselves as much as possible, and we don’t want to be a burden to others. […] We really don’t! […] We just don’t want to just give up this independence.” The gradual diminution of the health status is not a real hindrance or continuing ageing-in-place for most respondents for the time being. Technology was seen as a way to support the wish to age-in-place and, therefore, embraced, accepted or tolerated as a support tool. The sense of safety and security at home is a multifaceted phenomenon, which is one of the prerequisites for ageing-in-place. Apart from a fear of burglars and intruders and the risk of
200
![Page 214: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/214.jpg)
power outages (in the case of electrical assistive devices), falling, as well as the risk of fires, were items of great concern. The majority of respondents in this study have emergency response systems. There were a number of safety and security issues mentioned during the interviews which were seen as a threat to the respondents’ sense of safety and security. Burglary Most respondents are, due to their age and health status, worried about burglary. In order to keep burglars out, extra locks and catches have been installed, and windows have been barred. Fire and gas Fire and gas are a source of concern for frail persons as they may not notice this type of hazard before it is too late to get out of the home. Nine respondents already had fire alarms installed prior to the installation of the new technology. Mrs. B has the tendency to fall asleep early in the evening while watching television and then wakes up after midnight. The majority of respondents no longer have gas cooker tops installed. They no longer use the kitchen because they receive meals from meals-on-wheels. The gas in Mrs. N’s home has been shut off because she forgets to turn it off due to her impaired short-term memory. According to Fernie and Femnie36, fire alarms can be particularly valuable sensors for households with persons with dementia as they may create cooking fires as a result of their forgetfulness. Power outages Some frail persons are heavily dependent on modern technologies. Mrs. A, for example, worries about power outages as her automated inflatable mattress deflates and as the telephone is her only means of contacting the outside world and sending alarms. She recounted her experience of not being able to open her electric door and on another occasion of being struck by telephone failure for two and a half days. Falls Some of the subjects have a higher risk of falling because of disturbances of equilibrium. Mrs. D indicates that she’s fallen in the bathroom once, and also near the toilet a couple of weeks before. Mrs. D: “When I dropped in the bathroom, it was really unexpected. I had just drunk some water, and turned around to go to the toilet. And suddenly I was lying on the floor. At the same time, I fell against the door of the washing machine, which closed with a bang.” Despite these incidents, she is not afraid to fall. This illustrates how the majority of respondents perceive falling. Emergency response systems All but three subjects have emergency response systems: neck-worn pendants, wrist bands, and audio/voice alarm systems. These alarms give people a great sense of security. At the same time, the speed at which professional carers can reach the respondents in cases of emergency (which should be 20 minutes at maximum) worries many of the respondents. Mrs. D does not have a lot of confidence in the emergency response system/service system (neck-worn pendant) as her husband wore one when he passed away after having a heart attack. Mrs. D: “Well, [when I press the alarm], help does not arrive immediately.” Daughter: “Yes, it is not like they are ready to go. I mean, it is not like they are waiting with the engines started until someone presses the alarm button.” 3.1.2. The importance of ageing-in-place and sense of safety and security at home after installing technology After installing technology, respondents spoke of the same reasons why they wanted to continue living in their current dwellings. These largely matched with the statements made during the interviews that took place prior to the placement of technology. Despite the large differences in independence and the type of care respondents received, motives for ageing-in-place were similar for most respondents. Installing technology did not change these motives. As a sense of safety and security at home can contribute to ageing-in-place, the improvement of this phenomenon was one of the main goals of the technology installed. The majority of respondents are satisfied with the new ambient intelligence systems in relation to their sense
201
![Page 215: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/215.jpg)
of safety and security. The new technology is seen as a welcome addition to safety and security because the majority of respondents do not continuously wear the emergency response systems, or because of the fear of not being able to use the emergency response system in cases of emergency. Their children, especially, are very satisfied with the new technology. Only one of the respondents had the new technologies removed upon her personal request. In addition, two of the respondents (Mrs. J and Mrs. K) are not very content with the system due to false alarms but want to keep it out of health concerns. Overall, there seems to be a supplementary value of the new technologies in terms of improving the sense of safety and security among the respondents. 24-hour availability of care Mrs. L and Mr. M are very satisfied with the UAS-system, because it provides them with a real sense of safety and security. The couple makes use of a shared emergency response system. The UAS-system even makes the couple sleep better. The couple states that they do not want to have to miss out on the UAS-system as they feel like they cannot reach help via the telephone in cases of emergency, whereas the UAS-system operates satisfactorily in such times. Mrs. D has the impression that she can reach for help and assistance 24 hours a day through the use of her emergency response system. In most cases, though, she simply calls her daughter. Mrs. D says she is getting a sense of peace and safety from the UAS-system. She does not have the system installed on the top floors of her home as she never goes there unattended. Her initial reserves against the system are now gone. Mrs. S indicates that the UAS-system gives her a sense of safety and security. She once had been lying on the floor from 03:30 a.m. and no one came to her rescue. “And I have been there on the floor until 08:30 in the morning. I was so cold. It took me fourteen days to get warm again. And you are just by yourself. And then you’re getting cold. […] And there is no way to escape.” Mrs. S has already used the UAS-system in a falling incident. Everything went automatically. Mrs. S, therefore, has great confidence that the system will work the next time she finds herself in an emergency situation. She does regret that the system does not work on her balcony. When asked how she feels about having the UAS-system in her home, Mrs. S answers: “Oh, I love it. I have a sense of being cared for!” Operation of technology There are some issues concerning the operation of the technology, which may impact the safety and security of the respondents. Prior to the interview, Mrs. N placed a large flower pot right in front of the camera of the SCOTTY-system, which, as a result, could not transmit images. The flower pot incident matches concerns expressed during a focus group study with dementia family carers, in which questions were raised whether persons with dementia might attempt to tinker with and/or remove sensors and cameras37. In homes with balconies, respondents remarked that the systems are not yet working on their balcony. Impact on relatives In general, because the systems monitor their parents and, therefore, remove some of the concern, the children see the technologies as being supportive. Mrs. F says the UAS-system provides her with a sense of safety and security. The system is a great help for night-time unrest. Though there had been no previous emergency situations, the family has been trying out the system to see if it works. The son of Mrs. N indicates that the system is much appreciated by the children. ”Whether the system really works remains to be seen. At least it is [better] than nothing.” Mrs. N’s son also mentions that his mother sometimes falls asleep without having the door locked. The UAS-system does not yet provide a solution for this problem. The son is also pleased with the installation of sensors in the kitchen area and upstairs. Side-effects of technology: false alarms and sounds The UAS-system does not give Mrs. J an increased sense of safety and security. A reason for this may be found in the number of false alarms that were generated after the initial period
202
![Page 216: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/216.jpg)
during which the system operated without malfunctioning. Mrs. J mentions that the UAS-system is very sensitive. “It was so strong. I was just sleeping in a chair for only ten minutes and then the telephone rang. People didn’t detect any movement in the home.” Mrs. J does, however, have a general feeling that help is present when needed in cases of emergency. Once, when the home of Mrs. L and Mr. M was being cleaned with a steaming device, the fire alarm went off by mistake. They both regarded this incident as a sign that the UAS-system was working. Mrs. B was the only respondent who had all the new technologies, which did not give her a sense of safety and security at all, removed from her home. These technologies even made her feel uneasy and restless. Mrs. B joined the project at an early phase, which means that she had to deal with the initial problems concerning the system. Mrs. B stated that the technology functioned satisfactorily during the first year, but that there was a turning point around the end of 2007 and the start of 2008. She started to feel uneasy, then started to panic, and developed a ‘fear’ of the equipment. A large amount of her criticism pertains to features of the SCOTTY-technology and the number of false alarms that occurred. Mrs. B had a tendency to go to the hallway in her home and remain there for some time which generated an alarm as the allowed duration of inactivity in the home was exceeded38. 3.1.3. Privacy at home after installing technology Privacy does not seem to be a major issue in relation to the new ambient intelligence technologies. Only one of the respondents was worried about privacy. Only Mrs. B, who had the technology removed from her home, expressed serious criticism in terms of her privacy as she felt watched. In general, the new technologies did not pose any breeches of privacy. In the case of Mr. R, the new technologies provided an additional sense of privacy. Mr R experiences unrest and arousal when having visitors and then leaves the home to feel comfortable. Mr. R says that the system does not give him any sense of invasiveness whatsoever. This means that the system is incorporated into daily living and that the technology is not perceived as a hindrance. His wife, Mrs. Q, says that the system often goes unnoticed in their dwelling. Mrs. Q: “Sometimes, visitors say: ‘What do you people have installed over here? […] Do you have an alarm system?’ Yes, it is for our health.” Mrs. N does not give much thought to all the technology installed in her dwelling. This vision is shared by most of the respondents, who see the technology with all its implications as a part of the home or as a part of the interior design. The remarks made in regard to the privacy issue relate to the infrared movement sensors of the UAS-system and the television-mounted camera of the SCOTTY-system. When asked for objections against modern technology, the daughter of Mrs. D says: “The consequence [of the UAS-system] will be [that you can stay in your own home longer]. You don’t want to go to a care or nursing home, and then you have to make some concessions of course. […] And as long as you are not spied on by anyone, […] it is not like Big Brother, it is just a sort of assistive device to stay here for longer, just like a chamber pot underneath your bed. They can only watch you through the camera in case of an alarm. It’s not like ‘let’s have a look how Mrs. [D] is doing tonight’, and that they turn on a camera. It doesn’t even work like that.” Mrs. D summarises her thoughts as follows “If they want to watch me, they should just go ahead!” However, this idea does not reflect the actual operation of the system, which requires an emergency situation before professionals can use the cameras for observation. Mrs. D’s daughter is aware of this essential precondition. The respondents with psychogeriatric health problems, in particular, express no privacy-related issues. Respondents do not feel watched or monitored, and some are even not fully aware of the presence of the UAS-system at home. 3.2. Solutions taken by respondents to assist with ageing-in-place Apart from the ambient intelligence technologies evaluated in this study, respondents need more in order to age-in-place successfully. Ambient intelligence technologies alone are not sufficient. As the new technologies are connected to the home environment, the actual home environment and its relevant features are included in this study. Besides receiving family and professional care, there are two technology-related solutions to facilitate ageing-in-place,
203
![Page 217: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/217.jpg)
namely, architectural and technological solutions3. Supportive living environments and home modifications are increasingly acknowledged as ways of removing barriers to function and increasing independence for older people39. As Hutchings et al.40, p.303 state it: “The aging process cannot be stopped and life-long disabilities cannot be reversed. However, the physical environmental can be adapted to support [clients’] existing abilities rather than limit them”. The following sections focus on the solutions taken by respondents and their family and professional carers before and after installing the new technologies. The respondents make use of a range of assistive devices, technologies, and home modifications to support ageing-in-place and facilitate care (Table 4). The number and intensity of use of these architectural and technological solutions differ per household, but have not changed notably over time. 3.2.1. Architectural solutions Many respondents lived in homes with home modifications already existing before moving in or had these modifications carried out themselves. These modifications mainly relate to mobility. Some of the homes were spacious and single-floor dwellings, while other respondents dealt with the limited opportunities to enlarge a shower. Showers and stairs were the most problematic and challenging areas in the home. Assistance with IADL Most of the toilets and showers have grab bars and handles. A number of respondents had shower seats to assist during showering. There are no grips in Mrs. J’s shower as she receives help showering. “Installing grips and bars may even make the shower smaller. Some of these bars are rather large.” During the testing period, Mrs. J also had a new toilet bowl installed, which includes technological features as a built-in bidet. Particularly those who are bed-ridden or severely mobility-impaired have had few modifications to their homes. Mrs. L: “We have a very spacious bathroom, […] and the door openings are wide too. It is a big advantage that the moment you get a problem with your health you can stay living [in this house].” Mobility All respondents with severe mobility problems and respondents in assisted-living have electronic devices to open the front door. Some of the control buttons are placed near the bed for the bed-ridden subjects. Stairs provide great challenges. Mrs. D is actually living on the ground floor. Her shower cabin is on the first floor, and there is no stair elevator to help her get upstairs. The shower had been moved to the kitchen by her son, so that Mrs. D did not have to climb the stairs to get to the shower. The newly installed shower was too small and failed expectations, and was hence no longer used. It has now been removed. At present, Mrs. D goes upstairs once a week to have a shower with the aid of home care assistance. Mrs. J’s home is equipped with a stair elevator, which she uses on a daily basis. “I have to save energy. I’m afraid to climb the stairs. [I’m afraid to fall] and I have to climb with both hands and feet.” The respondents had other issues of concern regarding modifications to their home environments. Mrs. J does not want the thresholds to be removed because she does not want to end up with gaps in the sailcloth floor covering. Mrs. K had a special threshold installed at the corridor door for protection against draughts. In case of a fall, she would not experience a cooling sensation as much with the new threshold. Mrs. Q and Mr. R reside in a single-floor apartment, which has wide doors. Their daughter had an accident and is in a wheelchair. The special features of her parents’ home enable her to keep visiting her parents. 3.2.2. Technological solutions All but two respondents have some form of mobility aids, including wheeled walkers and wheelchairs. Other items regularly found in the homes are (home-like) hospital beds, lifter chairs, and large-button telephones. A number of respondents have patient lifts to assist during showering. Apart from the emergency response systems, most technological solutions are low-tech devices. The majority of needs expressed by the respondents can be solved by
204
![Page 218: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/218.jpg)
low-tech solutions and do not require the immediate installation of high-tech solutions, which are regarded as a supplement to the technologies and devices respondents already use. Some of the respondents have a mobile phone that is used for communication and raising an alarm. Respondents mention that they have no need for modern devices to communicate. Only Mrs. S has a personal computer, which she uses for a whole range of purposes such as chatting and study. Mrs. S has a very positive attitude towards new technologies; whereas, the other respondents are worried about the use of new technologies or no longer wish to use them. 3.3. Fit between basic needs and new technologies The following sections describe the fit between the (technology-related) care requirements of the respondents and the way the new ambient intelligence technologies supplement these requirements. There are three categories of requirements, namely, requirements to the organisation of care and carers in relation to technology, requirements to technology in terms of operation and design, and requirements to installers of new technologies. 3.3.1. Requirements to the organisation of care and carers in relation to technology according to respondents The respondents highly appreciated the professional care and assistance they receive and are grateful. Mrs. D about receiving care: “It is very unpleasant [that I am dependent], but at the same time you have to be glad that there is help.” Her daughter stresses that installing the UAS-system was a necessity in order for her mother to stay at home, and not have to be institutionalised. Mrs. S states that people should not be controlled too much by home visits from health care professionals, and she thinks the UAS-system can help in regard to this matter. She compliments the care organisation for the integration of the system within the care that is being supplied. Although Mrs. G’s son acknowledges the potential benefits of the technological systems, he adds that it does not work for his mother as his mother has personal assistance at home. Respondents are generally very satisfied with the care they receive. Still, they would like to have care professionals be able to answer basic questions about the UAS-technology. Prior to the introduction of the technologies, professional carers received extensive information about how the system works. Although the professional carers were able to visit the demonstration dwelling to get acquainted with the technology, respondents indicate that not all of the professional carers fully understand the fundamentals of the UAS-system. The new technology apparently has not been fully integrated within the provision of care. Martin et al.41 maintains that organisations should educate and empower their staff for the responsibilities of using technology and think of how it is to function in the care model. In order to optimise the implementation of new ambient intelligence technologies, a good integration in the provision of health care is indispensable, not only on the level of the management but also on the level of health care professionals in the field. In a parallel study, the UAS-system was shown to supplement the care provided by ZPBS. A professional carer can see what is going on in a dwelling when an alarm is transmitted and then reach the care client by telephone or go to the client’s home38. In practice, it is difficult to make adaptations to the home environment or stop with using technology without proper communication with care clients. Dahlin-Ivanoff et al.42 stated that when occupational therapists prescribe assistive devices or recommend changes in the home environment, they must be very well aware of and reflect on what home means to their clients and base their measures on that. This is illustrated by Mrs. K’s experience with an occupational therapist. This care professional sawed off the legs of her chair and added small wheels to make her get in and out of the chair more easily. Mrs. K feels like the chair is now broken. Also, carpets were removed for safety without her consent, even though she understands it was done to increase her safety.
205
![Page 219: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/219.jpg)
Tab
le 4
. Ove
rvie
w o
f res
pond
ents
and
the
assi
stiv
e de
vice
s an
d ho
me
mod
ifica
tions
pre
sent
at h
ome.
R
esp
on
den
tA
rch
itec
tura
l so
luti
on
s T
ech
no
log
ical
so
luti
on
s
IAD
L M
obili
ty
Oth
ers
Ass
istiv
e de
vice
s A
Aut
omat
ed fr
ont
doo
r Lo
cks
agai
nst
burg
lars
G
lass
es fo
r w
atc
hing
TV
, tou
ch s
tick,
em
erge
ncy
resp
ons
e sy
stem
, in
flata
ble
bed
B
Bar
s in
the
sho
we
r, g
rips
and
ba
rs in
toile
t spa
ce a
nd
bath
room
Whe
eled
wa
lke
r, r
eadi
ng
glas
ses,
em
erge
ncy
resp
onse
sy
stem
. Mrs
. B u
sed
to h
ave
an a
larm
pul
l cor
d in
the
bath
room
C
B
ars
and
grip
s in
bat
hroo
m
Sin
gle
floo
r ap
artm
ent
with
ou
t th
resh
old
s, r
am
p ne
ar b
alco
ny
door
and
fr
ont d
oor
W
heel
ed w
alk
er,
rea
din
g gl
asse
s, w
hee
lcha
ir, e
lect
ric
wh
eel
chai
r, v
ideo
pho
ne, h
osp
ital b
ed,
sm
oke
det
ecto
rs,
emer
gen
cy r
espo
nse
syst
em
D
Rai
sed
toile
t sea
t H
ome
is fr
ee o
f th
resh
olds
(e
xcep
t for
to
ilet s
pace
). M
rs. D
onl
y ha
s ac
cess
to
the
grou
nd fl
oo
r of
her
hom
e
C
omm
ode,
em
erge
ncy
resp
ons
e sy
stem
E
Sho
wer
cha
ir, g
rips
in to
ilet
spac
e a
nd b
athr
oom
. The
ba
thro
om d
oor
has
be
en
rem
ove
d fo
r ex
tra
spac
e
Ram
p n
ear
balc
ony
door
Whe
elch
air,
re
adin
g gl
asse
s, w
he
ele
d w
alke
r, p
atie
nt li
ft (in
cid
enta
l), e
mer
genc
y re
spon
se s
yste
m
F
Sho
we
r ch
air
Win
dow
-sill
with
rou
nde
d co
rner
(p
rote
ctio
n). H
ome
larg
ely
with
out
thre
sho
lds.
Sta
ble
hea
vy n
on-t
ippa
ble
tabl
es (
in r
elat
ion
to g
ettin
g in
and
out
of
chai
rs)
W
heel
ed w
alk
er,
whe
elch
air,
com
mod
e, h
osp
ital b
ed,
em
erg
ency
res
pons
e sy
stem
, m
obile
sta
nd-u
p ho
ist,
glas
ses,
tele
ph
one
syst
em n
ext
to b
ed fo
r ni
ght-
time
unre
st
G
Sho
we
r ch
air.
Bar
s an
d gr
ips
in b
athr
oom
S
moo
th c
arp
et in
be
droo
m (
for
patie
nt
lift)
. Lo
we
red
thre
shol
ds
Bar
red
kitc
hen
w
ind
ow
(b
urgl
ars)
Whe
eled
wa
lke
r, h
ospi
tal b
ed w
ith tr
apez
e ba
r, w
heel
chai
r,
lifte
r ch
air,
em
erge
ncy
resp
ons
e sy
stem
, gra
spin
g st
ick
H
Add
ition
al l
ocks
on
do
ors
(bur
glar
s)
Rea
din
g gl
asse
s, h
eari
ng a
ids,
wh
eelc
hair,
wri
st p
rote
ctor
, em
erg
ency
res
pons
e sy
stem
. T
he h
ome
care
org
anis
atio
n is
w
ork
ing
on a
spe
cial
cha
ir fo
r M
rs. H
. tha
t cou
ld b
e us
ed
for
sho
we
ring,
as
Mrs
. H is
alw
ays
bei
ng
was
hed
in b
ed
J
Sho
wer
sea
t, to
ilet
with
bui
lt-in
bi
det,
grip
s ne
ar t
oile
t. M
rs J
w
oul
d lik
e to
hav
e a
larg
er
sho
wer
cab
in
Sta
ir el
evat
or
Ant
i-bur
glar
ba
rs
Mob
ility
sco
ote
r, tr
ipod
, ela
stic
sto
ckin
gs, l
ifte
r ch
air,
em
erg
ency
res
pons
e sy
stem
, pe
dal
exe
rcis
er
K
Sho
we
r se
at, g
rab
bars
in
corr
idor
C
arp
ets
and
rugs
hav
e b
een
rem
ove
d.
Ant
i-dra
ught
thre
sho
ld n
ear
cor
ridor
(m
ore
‘com
fort
’ in
case
of f
alls
)
R
eadi
ng
glas
ses,
mag
nify
ing
glas
s, w
hee
lch
air,
wh
eel
ed
wa
lker
, aut
oma
ted
med
icat
ion
disp
ensi
ng s
yste
m, h
ospi
tal
bed
do
wn
stai
rs, p
atie
nt li
ft (in
cide
ntal
use
), e
mer
genc
y re
spo
nse
syst
em
, mod
ified
arm
cha
ir
206
![Page 220: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/220.jpg)
L/M
A
dditi
ona
l lig
htin
g, w
hite
pai
nt
on a
dja
cent
bal
con
y fo
r in
crea
sed
dayl
ight
acc
ess,
la
rge
bath
room
, w
ide
door
s
A
nti-b
urgl
ar b
ars
H
eari
ng a
ids,
wh
ite c
ane
. The
cou
ple
wis
h fo
r a
vide
opho
ne
for
the
fron
t do
or
N
Sm
all s
ho
wer
sea
t R
ugs
hav
e b
een
rem
ove
d fo
r sa
fety
C
lasp
s fr
om d
oor
ha
ve b
een
rem
oved
for
safe
ty
Lifte
r ch
air,
em
erge
ncy
resp
ons
e sy
stem
, lar
ge-b
utto
n te
lep
hone
O
Min
or a
dapt
atio
ns to
the
sani
tary
fitt
ings
W
heel
ed w
alk
er,
em
erge
ncy
resp
ons
e sy
ste
m
P
W
heel
ed w
alk
er,
hea
ring
aids
, rea
ding
gla
sse
s, e
mer
genc
y re
spo
nse
syst
em
, lar
ge-b
utto
n te
leph
one,
lifte
r ch
air
Q/R
G
rab
bars
ne
ar b
ath
M
agn
ifyin
g g
lass
, ele
ctric
al b
icyc
le, h
ome
tra
iner
, vi
deot
ele
phon
e fo
r th
e fr
ont d
oor
with
a b
uilt
-in c
amer
a
S
Grip
s in
toile
t spa
ce
Ram
p p
lace
d o
n to
p of
thre
shol
d
R
eadi
ng
glas
ses,
em
erge
ncy
resp
onse
sys
tem
, gra
spin
g st
ick,
per
sona
l com
pute
r fo
r ch
attin
g, h
obb
ies
and
stud
y
207
![Page 221: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/221.jpg)
Mrs. L is worried that the UAS-system is to be removed when the initial period of testing is over. “And then there is the chance that you can only benefit [from the system] for just over a year. […] And then everything is uninstalled again. And I don’t know in regard to such a system - it is a good project- how long it stays, whether I like it, and how’s the financing taken care of?….” The continuation of the trial is partly related to financing. Rauhalaa and Topo28,
p.210 have discussed what happens to the technology that has been tested after the trial is over. “The subjective meaning […] a technology for a person who has become used to and dependent on it during the trial can be significant for the well-being of that person.” This correlates with relevant ethical questions, such as, whether technology should be removed and subjects return to the original state, especially if these subjects have already felt possible advantages of the technology tested. 3.3.2. Requirements to technology as indicated by respondents According to Mort et al.43, the introduction of monitoring technologies at home assumes an image of a client who is frail (or copes with dementia and may be restless or wandering), who requires greater physical surveillance than was previously necessary, but also who can be discharged earlier from hospital. This means that the technology installed has to fulfil a number of specifications in order to be useful. There are two types of requirements to technology which are described in the following sections: (i) requirements to the operation, and (ii) requirements to the design. 3.3.2.1. Operation of technology Almost all respondents have made remarks about the operation of the technologies, in particular the amount of false alarms during the initial phases of the project and the sounds and light flashes coming from the SCOTTY technology. These flaws are experienced in different ways. These incidents and thoughts of the respondents are reflected in the following paragraphs and can be used to improve both the design and operation of the technology and its integration within the provision of health care. False alarms Mrs. S had been dealing with a large number of false alarms (2 to 3 per week), which has led to an upgrade of the system and the sensors. Most of these alarms were related to the movement detectors. She accepts these technological flaws as a part of a learning and development curve. Mrs. K says she curses the technology installed in her home. She wants the technology to be removed immediately as she is somewhat annoyed by false alarms. Mrs. G’s son has written on a sheet of paper ‘FALSE ALARM’. “That is for the times that the emergency response system/service system activates the camera by mistake. […] The camera signals that there is no one in the main chair. To prevent unnecessary worrying the ‘false alarm sign’ was introduced.” During the study, there were respondents that did not regard false alarm as something negative. They even consider a false alarm to be a positive sign that the UAS-system responds to the home environment, whether it is justified or not. Data supplied by TNO Defence, Security and Safety show that the recorded amount of false alarms was one alarm per two weeks, which matches the design goals of the UAS-system as defined by ZPBS. A further decrease in this number could coincide with emergency situations going unnoticed38. These false alarms and the number of alarms generated by the UAS-system, in general, (1 to 3 per week per respondent) make it difficult to draw a final conclusion on the acceptance and efficacy of the technology at this moment. Because of the experimental character of the technology, the respondents still wore their old emergency response systems (pendants). Sound effects Mrs. D has specific comments in relation to the SCOTTY-technology, which produces sounds that are perceived as nasty and which give an uneasy feeling. During the night, these sounds woke her up. Mrs. J says that the SCOTTY-technology and the camera placed on top of the television have been switched off. “Those have been switched off too, because during the night it turned on. You are on your bed, and suddenly the thing starts to wail. […] They just pulled out the
208
![Page 222: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/222.jpg)
cables. I told them: ‘I don’t want this to happen again during the night’ ” The sound was so loud that even the neighbours could hear it. Mrs. K says that she wakes up at night from the humming sound produced by the SCOTTY-technology. This makes her upset and leaves her annoyed. All she sees are green dots of the LEDs found in the appliances. She then simply pulls out the plugs. But when the alarm next goes off, the telephone doesn’t work either. The son of Mrs. G has a nickname for the technology that is part of the SCOTTY-system. A blue piece of equipment is nicknamed ‘toaster’ as it resembles this piece of common kitchen equipment in terms of appearance. “The system itself is well thought through, but it has no additional value or my mother. So it is only a source of entertainment for the grandchildren, or [a source] of technical malfunctions, in particular the jingling and flashing ‘toaster’.” Interference with other technology at home Some of the new technologies interfered with the old technologies. The UAS-system in the home of Mrs. D interacted with the telephone during the first period after installation, that is, it took a long time before a connection could be made. These problems, however, have now been resolved. Mrs. G and her son have a large connection of DVDs and watch television together. The SCOTTY-technology often interfered with the TV set. “Then, an exciting finale of an episode of a television series is pushed away as a turning square cross stating ‘ care station 140’ appears, which is sometimes preceded by sounds and flashes of light which come from the apparatus I call ‘toaster’. […] Only the TV screen changes, and after frantic attempts to stop it with the control panel […] the current solution is to use the remote control of the television and to switch it back from the AV1 channel to the TV screen. But well, about then the end of the whodunit is over and you find yourself in the middle of the commercial break.” Other comments regarding the operation of technology The large number of technological devices in the home becomes too much to handle for some of the respondents. Mrs. B could no longer handle the technology in her home, as she had the impression that the sensors were turned on all of the time. From her bed, she had a clear view of all the technology. During the study, respondents hardly used the videotelephony function of the SCOTTY-technology as respondents find it difficult to operate the technology. Videotelephony did not lead to an improvement in social contacts or the loneliness some of the respondents experienced. Two of the respondents were institutionalised during the trial partly because of loneliness38. Mrs. N has a cat, and the UAS-system’s software has had to be amended to deal with the pet. Mrs. N can now let the cat out of the home in the morning, and the infrared movement detectors no longer register her pet. The SCOTTY-technology requires the television set to be on stand-by day and night. The children of Mrs. N have taped off the infrared portal of the television and have tied together the doors of the television cabinet so that their mother cannot turn off the television or close the cabinet doors as she used to do. There is also a piece of text put in place saying that the cabinet doors need to remain open. These examples show that persons with cognitive impairments require specific approaches to the use of technologies. Given the fact that there are three configurations of the UAS-system, and that the choice for a certain configuration depends on a variety of indicators, it should be questioned if the system is applicable for people with dementia or cognitive impairments. This study shows that for people with impaired mobility, there are few problems regarding the operation of the UAS-system in all three configurations. The challenge for people with dementia is that they do not fully understand the system or know why it is installed in the first place. People with dementia cannot simply work around problems whenever they occur. In addition, people with moderate to advanced dementia require intensive forms of care at home and are prone to early institutionalisation. Relatives that are often supporters of having technology installed to assist their loved-ones should be aware of the challenges related to new technologies. As the
209
![Page 223: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/223.jpg)
choice of configuration is mainly dependent on the degree of physical mobility, true acceptance of the system relies more on psychology and cognition. 3.3.2.2. Design of technology There are some comments regarding the use of technology at home, which illustrate the importance of good design of technology for frail persons. Mrs. L has problems with electrical appliances at home due to her impaired vision. Special equipment that is ordered is often no longer available in the market place. A ‘talking’ microwave oven only spoke English, whereas Mrs. L does not. Mrs. L has no idea where to turn to for the provision of home modifications. Mrs. L states that she knows how to operate current technology in her dwelling, but that she has problems inserting plugs in sockets as she cannot see the holes. The daughter of Mrs. F: “From the perspective of technology, my mom has stood still from the days of the gramophone. […] I once gave her a portable phone, and she got completely confused. Every [piece of technology invented] afterwards won’t work.” Respondents made numerous remarks concerning the design, appearance, and implementation of the ambient intelligence technologies installed in the dwelling. The majority of respondents had no complaints about the design or implementation and mentioned that the system went unnoticed or blended in with the interior design. Complaints and comments pertain to the amount of cables used and the placement of the black box of the UAS-system in the living room. Mrs. S even compares the appearance of the sensors to an anti-burglary system she used to have in a former home. It should be mentioned that the system evaluated in this study is a prototype that deviates from the UAS-system, in terms of design and appearance, which will be put on the market. 3.3.3. Requirements to installers of new technologies according to respondents The respondents have made remarks about their contact moments with the installers and service professionals. These contact moments were experienced in various ways. Such experiences are a valuable source of information for installers to improve their services and the way the organisations operate. The majority of respondents were satisfied with the way the technicians carried out their work. Home visits from these professionals are considered as unavoidable and necessary. Some consider the presence of installers as pleasant occasions, being able to have a little chat, and even serve the installers coffee and tea. At the same time, there are also issues that should be taken into consideration when working with and in the homes of frail older people. Mrs. F’s daughter mentions that the doorbell can make her mother go panic. When the installers called, her mother got “completely upset, because she cannot open the door by herself. She then does not know what to do.” Some respondents experience the presence of strangers in the home as a matter of concern. Mrs. J experienced the installation of the UAS-system with four installers in her home as a crowded event As mentioned before, Mr. P has problems with the presence of strangers in his home, including installers and the cleaning lady. During visits from these professionals, Mr. P leaves his home to go cycling. Mrs. B, who joined the project in the earliest phase, has specific comments that are relevant. During the installation of the UAS-system in the home of Mrs. B, seven men were at work in her home. “So I kept sitting in the kitchen because there was nowhere else to go.” Mrs. B felt overwhelmed and started to panic. The technology has been removed from Mrs. B’s dwelling upon her request. About de-installing the technology, Mrs. B has other comments. “When de-installing the [systems], I thought [the installers] were very impolite. […] One climbed on top of my white table. […] They even left the holes open.” The way in which the de-installation took place was not how Mrs. B had hoped it would be. The plug holes in the ceiling, where the sensors once used to be, were still present. She is not pleased with the way her home was left after de-installation. Her son-in-law has tried to fix some the holes with instant plaster. The old cover lid in the ceiling, where later the fire alarm was installed, is gone, and the hole was left in place. The installers had promised to send such a cover lid, but she has never received one. Moreover, Mrs. B thinks that all respondents should be thanked for their cooperation.
210
![Page 224: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/224.jpg)
She also thought that the technological aspects of the project were too vast to comprehend. Lessons were, consequently, drawn from this specific case. The preparation and placement of the technology should be talked through thoroughly with the respondents, given that some of them were upset. During the trial period, the interaction between installers and respondents improved, possibly due to an iterative learning process. As in the early days, the new technology interacted with the telephones in some of the dwellings; therefore, installers should tell respondents about possible interactions. Respondents should not be surprised, and sufficient information can benefit the acceptance of new technologies. 3.4. Summary of results The respondents have a different view on their level of independence, despite their need for assistance and care at home. The motives to use ambient intelligence technologies to support ageing-in-place are as follows: In general, there was a strong aversion against institutionalisation. One of the concerns
was the supposed lack of privacy in an institutional setting. All the respondents in this study want to stay in their current dwelling because of
attachment to the own home, memories of the past, and their possessions in the home, as well as the quality of the neighbourhood.
Independence is valued by all respondents in this study. The majority of respondents are, due to their age and health status, worried about
burglary. Fire and leakage of gas are a source of concern for frail persons as they may not notice
this type of hazard before it is too late to get out of the home safely. Some frail persons are heavily dependent on modern technologies. Some worry about
possible power outages. Some of the respondents have a higher risk of falling because of disturbances of
equilibrium. All but three subjects have emergency response systems: neck-worn pendants, wrist
bands, and audio/voice alarm systems. In order to optimise the implementation of new ambient intelligence technologies, a good integration in the provision of health care is indispensable, not only on the level of the management but also on the level of health care professionals in the field. Some of the respondents are worried that the UAS-system will be removed when the initial period of testing is over. The technology installed has to fulfil a number of specifications in terms of the operation and the design in order to be useful: Care professionals should be able to answer basic questions about the ambient
intelligence technologies. False alarms are seen by some respondents as a sign that the ambient intelligence
technology is working, and are not necessarily a bad thing. Humming sand buzzing sounds produced by additional technologies should be reduced
to an acceptable level. Ambient intelligence technologies should not interfere with technologies that were
already found at home, such as telephones and televisions. The number of devices used when installing ambient intelligence technologies should be
minimised. Ambient intelligence technologies should be easy to operate. Persons with cognitive impairments require specific approaches to the use of
technologies. Ambient intelligence technologies should be designed and installed in such as way that
they can also be used by persons with a cognitive impairment or sensory deficits. The amount of cables used should be limited. The installation of ambient intelligence technologies should be done in an acceptable
and unobtrusive manner. The placement of the technology should be thoroughly talked through with care clients. Removal of technologies should not cause any damage to the dwelling.
211
![Page 225: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/225.jpg)
4. Discussion The discussion section deals with a section on the discussion of issues on the basic value level. This section is followed by a discussion on architectural and technological solutions that are implemented to assist with ageing-in-place. Finally, the fit between the (technology-related) care requirements of the respondents and the way the new ambient intelligence technologies supplement these requirements are discussed in terms of the ICF-MIBD’s economic value and requirements to installers in case of care clients with dementia. 4.1. Individual needs of respondents: basic value In the following sections, motives for ageing-in-place and the related use of technology, the sense of safety and security, and ethics and privacy-related issues are discussed. 4.1.1. Motives for ageing-in-place and use of technology The motives of respondents wanting to age-in-place are very similar to those found in two studies from Sweden by Dahlin-Ivanoff et al.42 and Haak et al.44 dealing with 40 single-living people aged between 80 and 89 years. The home seems to have a central place in the lives of these people as this is where they live and spend much time. According to Dahlin-Ivanoff et al.42, home means security and home means freedom. Haak et al.44 showed that home is strongly linked to independence, and being independent is much valued. Also, the ageing process was found to influence people’s perception of themselves as independent persons; from being independent in activity performance to experiencing independence in being able to make autonomous decisions concerning daily life at home44. In a study by Lewis45, respondents placed great value on independence and not “being a burden” to anyone. This matches statements made by Mr. M, who also does not want be a burden to others. According to Mahmood et al.46, there are four major themes that are important for older adults to age-in-place: safety and independence, social interaction, use of technology in the past, and the desire for support. Among the respondents in this study, technology was not found to increase social interaction. The familiarity with technology seems to be an issue in this study, too. Respondents who have a positive attitude towards technology and have used a wide array of technologies during their lives are more accepting of the UAS-system and other technologies as tools to support ageing-in-place. Steele et al.47 conducted a qualitative exploratory study through focus group sessions of the perceptions, attitudes, and concerns of older adults towards wireless sensor network technologies in relation to their use in health care. These attitudes were generally positive, and match the outcomes of this study, for instance, the negative views of institutional care settings and the significance of independence. 4.1.2. Sense of safety and security The sense of safety and security examined in this study does not only include the effects of ambient intelligence technologies, but rather the sense of safety and security in general, including how respondents think about the possibilities of burglary and intrusion, the risk of power outages, fires, and falls. Safety and security issues in the latter categories are related to the health status of the respondents, who are frail and are afraid they are more vulnerable in cases of emergency. All respondents have taken architectural or technological solutions to decrease the risks. Moreover, the majority of respondents in this study wear an emergency response system although some of the respondents have serious doubts whether the system will work in cases of emergency. Some of these doubts are related to previous emergency situations in which the system did not provide a solution. The dependence of some respondents on modern technologies makes them worry about the risks of power outages. These worries are also shared in relation to the new ambient intelligence technologies. There might be an over-reliance on new technologies in relation to care and ageing-in-place, which makes frail persons prone to system failures5 or power outages. After the installation of the new ambient intelligence technologies, the majority of respondents have experienced an increase in their sense of safety and security. This sense of safety and security does, to a small extent, address issues such as intrusion, burglary and fires (the
212
![Page 226: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/226.jpg)
UAS-system includes smoke detectors). As stated before, many respondents do not wear the emergency response systems or fear that they may not be able to use the systems in cases of emergency. The new ambient intelligence systems are, therefore, considered a welcome addition; the 24-hour monitoring functionality increases the sense of safety and security. In practice, the UAS-system has been activated in cases of emergency and proved its additional value to the respondent in question. However, safety and security in practice may be influenced in a negative way if respondents do not fully understand the systems’ operation. The case in which a flower pot was placed in front of one of the cameras is an example of misunderstanding in relation to the operation of technology. In practice, you see respondents and relatives ‘try out’ the systems at home to see if they really work. If alarms are generated, this gives the persons involved a sense of confidence in this system. False alarms, however, are found to be perceived in two ways. On the one hand, some respondents are annoyed. On the other hand, other respondents see them as a sign that the technology is actually functioning. 4.1.3. Privacy and ethics The personal integrity of respondents in relation to their surroundings and technology and the accompanying ethical aspects and privacy form an important aspect, which is gaining importance as a field of discussion and study5. The respondents in this study, apart from Mrs. B, did not experience any problems in terms of privacy and did not encounter any obvious situation with dubious ethical implications. 4.1.3.1. Interference of technology with daily life In a study concerning the installation of smart home technology in the home of nine residents, Demiris et al.48 found that the residents expressed overall positive perceptions of the sensor technologies and did not feel that these interfered with their daily activities. The process of adoption and acceptance of the sensors included three phases: familiarisation, adjustment and curiosity, and full integration. Perhaps, the dissatisfied respondents involved in the current study were not adequately familiarised in relation to the technologies installed in their homes. Also, some of the respondents lost track or awareness of the presence of the technologies that were installed over time. This reaction could have an impact on ethical and privacy-related issues in similar projects. 4.1.3.2. Privacy Van Hoof et al.5 and Demiris and Hensel15 have addressed issues of privacy and confidentiality, such as, the right to control the access to and the use and dissemination of information gathered by the smart home technologies, as well as a secure means of the transmission and processing of data. Just as in the present study, residents in the study by Demiris et al.48 did not express privacy concerns. In the aforementioned study by Steele et al.47, participants stated that the incorporation of a camera into a monitoring system would be too intrusive, while monitoring 24/7 would not be a problem. In this study, views are somewhat different as cameras can only be switched on in cases of emergency. Mrs. D - a critical respondent in the early days of the study – was not opposed to being watched, and the same is true for other respondents. However, there are some fundamental concerns related to the privacy issue and older adults with disabilities. Do they fully understand what the technologies installed in their homes offer? Do they comprehend how valuable privacy is even though they are so easily willing to give it up in exchange for safety and security? At the same time, in the context of these issues, one could question the validity of the informed consent signed by the respondents. 4.1.3.3. Ethical considerations Mahoney et al.21 have raised a number of questions relating to home monitoring technologies that are relevant to the current study. These include questions on how much surveillance is helpful; when technology starts to infringe upon personal dignity; and whether home automation can maintain or improve human functioning without frustrating the user. They state that if a technology is dehumanising and takes away personal control, it is because of the way that humans envisioned and developed the application21. Rauhalaa and Topo28 point out possible side effects of the testing of alarm systems and automatic personal health or safety systems at home. Trial participation may cause distress and anxiety, which should be recognised by parties involved in these studies. Van Hoof et al.5 have summed up a number
213
![Page 227: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/227.jpg)
of ethical considerations that a system should fulfil for people with dementia. The technologies used in the current study meet these criteria, since they serve the well-being of the residents in the first place. Nevertheless, it is of the utmost importance that the subjects remain monitored to see whether the system keeps meeting expectations and preferences and that the desired quality of care is kept. Demiris and Hensel15 raise some ethical consideration in relation to technology at home, such as the potential over-reliance on automation, and the ‘medicalisation’ of the home environment (home as an intensive care unit). This over-reliance is illustrated by Mrs. A and power outage, during which her bed deflated and communication with the outer world was hampered. Demiris and Hensel15 further claim that the installation of sensors or other technologies that become integral to the residential infrastructure introduces a medicalisation of the home setting. When asked about this idea of medicalisation of the home, none of the respondents in this study agreed with such a notion. Demiris and Hensel15 also state that smart home technologies also affect the circle of family members and friends who enter the home. This was illustrated by remarks, however innocent they may seem, from Mrs. Q, whose friends commented on the UAS-system and its sensors. New technologies may even threaten the home as a ‘safe harbour’, especially in relation to the installation, maintenance, and operation of these technologies15. Relevant professionals should not violate the personal space of the occupants or alter their daily routines. The present study provides examples of this notion of violation of personal space with the experiences of Mrs B and Mr. R. These two respondents have experienced violation of the personal space. This is why awareness of such phenomena is needed among professionals from both the fields of technology and health care. Demiris and Hensel15 also mention the risk of stigmatisation due to the visible presence of devices or sensors and mention aspects of obtrusiveness. “Technology that one person perceives as obtrusive may not be perceived as such by another”15, p.112. This is also seen in the current study, in which some said that the technology blended in with the dwelling (Mrs. Q), whereas Mrs. B was very outspoken in the other direction, and Mrs. J and Mrs. K were somewhere in the middle. There are also issues that apply to the organisational level. The use of technology to support people with dementia should be informed by an ethical framework that is translated into explicit organisational policies and procedures, and informed by legislation and national policy41. 4.2. Architectural and technological solutions As stated earlier, stand-alone ambient intelligence technologies do not provide an all-embracing solution. Such technologies can only function within the context of other solutions. In the following sections, architectural and technological solutions that are implemented to assist with ageing-in-place are discussed. 4.2.1. Architectural solutions The majority of modifications identified in the homes of the respondents seems to have been carried out by previous home owners or tenants, and are occasionally used by the current residents. Also, the provision of home modifications is unclear to some of the respondents, and this might be a reason why many of them have not carried out many home modifications. As the majority of people prefer to continue living in their own home in the face of disability and ageing, homes should be designed to be adaptable to disability. According to Lansley et al.49,50, the adaptability of properties varies according to many design features and the needs of occupants, including the needs that stem from impairments and morbidities. Most adaptable are ground floor flats and bungalows, a type of housing found among the respondents living in assisted-living and in apartments. At the same time, having access to home modifications is essential in being able to age-in-place, for example, getting a stair elevator for those living in a multi-storey house. Sufficient care and monitoring technology alone are not solutions to all problems faced in relation to ageing-in-place.
214
![Page 228: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/228.jpg)
In this study, the respondents with psychogeriatric health problems had a number of environmental interventions carried out, although none of these interventions specifically targeted dementia51. Tanner et al.39 examined the experience of older people living in the community who were recipients of a home modification service. Home modifications were found to have the potential to enhance the experience of home as a place of significant and unique personal and social meaning. At the same time, however, an awareness of the meaning of home should be embedded in the policy and practices surrounding the provision of home modifications. Tanner et al.39, p.204 further found that “reducing the demand of the environment through modifications strengthens the personal home as a place of security, safety, comfort, and control rather than one of risk, dependence, struggle, or even imprisonment”. 4.2.2. Interaction between architectural and technological solutions In contrast to the amount of home modifications, every respondent used some type of assistive device or supportive technology to help with activities of daily living. In order to use these devices, small home modifications were carried out, for instance, to allow for wheelchair access. Also McCreadie and Tinker52 write about home modifications that are carried out to facilitate the use of assistive technology. They also state that acceptability is greater if new objects are familiar to persons even though in practice new technologies are often unfamiliar in appearance and implementation. According to Dewsbury et al.30, there is little point in putting the latest technology into a home where both care clients and carers are unable to benefit from it because the design of the home is not supportive, or where the external spaces are inaccessible (for example, see Mrs. J and Mrs. S). Dewsbury et al.30 further state that technology should be considered as an augmentation to the overall design of a home. “Although technology can be empowering it can also be disempowering to the user if it is not suitable, not reliable, or does not perform the functions it was intended to perform”30. 4.2.3. Technological solutions Technology is designed primarily to serve the ‘person’ as the consumer of this service. By contrast, many home telemedicine technologies view the clinician as the consumer of the service and the person at home as his or her ‘patient’21. Therefore, it was important to investigate whether the introduction of the new technologies in this study was not just the next product of a technology push by mapping the needs and experiences of the respondents. Also, one may ask whether it is good for very care-intensive persons to remain living at home with the use of technologies. Mahoney et al.21, p.218 quote an anonymous grant reviewer: “In an institutional setting, many factors are taken care of (medical administration, hygiene, daily activities, etc.). [Ageing-in-place] presumably places the patient at risk for these not occurring. This is not mentioned at all as a patient safety concern and shows a lack of understanding of the [medical] domain.” The UAS-system is not the only means of providing daily care to the respondents as they continue to receive care from professional and family carers for personal or domestic care as usual. This study shows that it is a system that provides people with safety and security. At the same time, it provides extra eyes and ears for the care professionals in cases of emergency. Therefore, the UAS-system is intended to reduce the number of care professionals needed to provide complex long-term care or during night shifts. 4.2.3.1. Technological solutions for users with dementia Technology for older people should be designed in such a way that they are useful for all types of care clients. People with early and moderate dementia are explicitly included in the target group of the technologies in this study. There are of course many specific challenges regarding the respondents with dementia, due to their frailty and cognitive impairment. These challenges relate to the design and implementation of technology and the understanding thereof5, the installing of the technology, and also to the family carers of people with dementia. Selecting the appropriate assistive technology can be challenging. People with dementia may react differently to different assistive technologies53. According to Cahill et al.53, there are no quick fix solutions in dementia care, nor do solutions necessarily have to be highly technical. Molin et al.54 have postulated two general principles for the choice of technology for psychogeriatric respondents in order to age-in-place. These principles are that the problem addressed by technology should correspond to a real need of the individual, and that
215
![Page 229: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/229.jpg)
participants must have the required abilities for the proper use of the technology or the installations. A focus group study with dementia family carers by Kinney et al.37 showed this group did not think of themselves as being particularly savvy about technology. At the same time, and seemingly paradoxically, carers used a range of technologies in everyday life, mainly low-tech technologies and personal computers. Some had devices to monitor, communicate with, and maintain the safety of their relative with dementia. There were also perceived limitations of technology: some challenges in caring cannot be addressed by technological solutions. As an example, scratching during bathing a loved-one is addressed. The technologies offered in this study are not solutions to all problems encountered by the respondents (both with and without dementia), but a mere tool for support. Other carers, in the study by Kinney et al.37, mention that monitoring is not a panacea for all persons with dementia, and that it should not be considered as a substitute for the presence of family carers. Perceived difficulty in using everyday technology increases in people with mild cognitive impairment and is accentuated in mild-stage dementia55. Nygård and Starkhammar56 made a taxonomy consisting of four domains describing hindrances and difficulties in the use of everyday technologies by people with dementia. The first are conditions that interfere as hindrances in technology use may be conditions related to the person or conditions related to the context (stress, orientation, and design). The second are limitations in the person’s knowledge of the technology and its potential, and third are communication difficulties in the use of technology related to interpretation, understanding, handling and manoeuvring of technology. The fourth is related to instructions for use. Technology that is to be used with people with dementia should, therefore, meet certain design qualifications that are specific for this group of older people. The nature of dementia may make people cautious and suspicious of trying out new devices53. Orpwood et al.57 and Cahill et al.53 came up with a number of guidelines for technology so as to be appropriate for people with dementia. Smart home technologies should keep interaction with users to a minimum, be familiar in appearance, should not require new learning on the part of the person with dementia, and incorporate verbal prompts and reminders. 4.3. Fit between needs and new technologies The next section discusses the fit between the (technology-related) care requirements of the respondents and the way the new ambient intelligence technologies supplement these requirements in terms of the ICF-MIBD’s economic value. This section is followed by a discussion of the requirements to installers in the case of care clients with dementia. 4.3.1. Fit between needs and solutions offered: economic value Within the domain of the economic value, the study focuses on a cost-benefit analysis and policy. New initiatives in the field supportive housing may offer opportunities for delaying the need for institutional care, which has economic consequences for both society as a whole and on an individual level. Supportive home environments, in combination with adequate professional care, services, and telehealth, are not only much wanted by people who reside in the community but also a necessity from an economic point of view. One should keep in mind that what is available on the marketplace is not the same as what is or may be possible in practice. For the current trial, a total of 20 UAS-systems (prototypes) were produced by TNO Defence, Security and Safety. Not of all these systems were used for the study. Some homes were very large and required the application of more sensors. The UAS-system exists in three different configurations depending on the health status of the care client and her/his personal wishes/needs concerning the system. A consequence of the configuration-based system is that care clients do not get more technology installed than needed, which creates a possibility for a good fit between needs and technology, and thereby saving resources and energy. Because of the limited average life expectancy of many of the care clients, the system is designed in such a way that it can be moved out of the home and installed in another dwelling. Also, if persons move to another place, the UAS-system can be brought along easily without having to install complex infrastructure including numerous cables. Some of the benefits of the current system have been described in relation to a different project by Skubic
216
![Page 230: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/230.jpg)
et al.58. They describe a system that could be installed in any home with minimal time and effort and especially with minimal wires and cables. Apart from the obvious economic motives, people receiving such systems care about the looks of their homes, and they do not want extraneous sensors, wires, and computers cluttering up their space. These views are shared by some of the respondents in this study. Moreover, Skubic et al.58 raise the questions of how many sensors to use, where to place them, how to mount them securely, and how to maintain them. Such issues as replacement of batteries by professionals were also encountered in this study. As in the project described by Skubic et al.58 most of the sensors used in this study were small, wireless, and lightweight enough to be mounted on the wall or ceiling with double-sided foam adhesive or with screws if needed. Despite the reduction in costs for installing, some of the sensors that were attached using Velcro or that were attached to an uneven wall (Mrs. D, Mrs. N) became loose. Also, as in the case of Skubic et al.58, sensors falling down caused a gap in the transmission of data. In this study, two systems (configuration 3) were used for spare parts to enlarge the other 18 systems. During the project, 16 UAS-systems were (re-)used. Some of the respondents were unable to use the voice response of the system to alarm carers. Other respondents were not mobile and therefore, did not use the mobility monitoring function. For these reasons, not all respondents used configurations 1 or 2 of the UAS-system (Tables 1 and 2). Assistive technologies and smart home technologies for age-in-place have a number of economic impacts in terms of costs and benefits. The costs per UAS-system are relatively high, as the scale of production is still small as long as the system is not launched commercially. The most elaborate configuration of the system (number 1) costs approximately € 13.500. During the pilot project, a number of respondents quit the project for various reasons: death, institutionalisation, or in one case wanting to stop with the project because of objections to the technology. With five respondents, the UAS-system was not been found to delay the moment of institutionalisation38, because the respondents only made use of the UAS-system for a very short period of time, or because the respondents did not have a health care assessment required for institutionalisation. For three of the psychogeriatric respondents, such a delay has occurred, and in one of these three cases, institutionalisation (nursing home placement) has been prevented. With six respondents, the UAS-system serves as a tool to support ageing-in-place. If the UAS-system had not been available, these respondents would have looked for other means to age-in-place. Respondents and their relatives perceive the current living conditions with the UAS-system as safer and more secure than without the technology. The social network around the respondents also contributes to being able to age-in-place38. For The Netherlands, € 6,000 to € 16,000 (2004 price level) could be saved per person if people aged-in-place instead of being institutionalised. These figures are contingent on the health status of the individual59. Mann et al.60 showed, in a randomised controlled trial among 104 community-dwelling older adults in western New York (18-month intervention period), that home environmental interventions and assistive technology can reduce institutional and certain in-home personnel costs. The control group in this study had significantly greater expenditures for nurse visits and case manager visits. According to Lansley et al.50, who measured the feasibility and cost of adaptations and assistive technology, appropriately selected adaptations and assistive technology can both substitute for traditional formal care services and supplement these services in a cost-effective way. Another indication about the costs and benefits of telehealth systems comes from Canada. Vincent et al.61 investigated a nurse-staffed telesurveillance system for community-dwelling frail older people (n=38) over a 9-month period. Only 5% of the calls were found to be health-related (6-month period). Similar outcomes were found in this current study, where some of the respondents used their emergency response system to complain about the meals-on-wheels services. In the Canadian study, family carers’ psychological burden decreased substantially. The length of hospital stays dropped from 13 to 4 days, and home care services decreased from 18 to 10 visits/client (3-month period). The total cost of health and social public services used per client dropped by 17% after the first 3 months and by 39% in the second 3 months. To these costs has to be added a small fee for the call centre service.
217
![Page 231: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/231.jpg)
The Koala project is a pilot experiment in telecare from the Netherlands, where the client is able to call for contact with a nurse in a medical service centre via video interaction. In a cost-benefit analysis of the project, Wortmann et al.62 concluded that for care purposes the benefits lie with the clients as well as with the providers of care and cure services. They concluded that video-based telecare does not easily pay off, although labour hours can be saved and the clients’ well-being improves. Moreover, Wortmann et al.62 found that about 40% of the clients’ calls are leading to a reduction of medical services. As the vast majority of clients only used Koala infrequently, the investment could not be justified. Telecare can be made economically feasible as long as the project covers a substantial region of clients, in the order of magnitude of ten thousands. Wortmann et al.62 further concluded that for cure clients, the savings in economic terms (shorter hospital stays, reduction in medical consults) are limited. 4.3.2. Fit: requirements to installers of new technologies The case of Mrs. F’s daughter, who mentioned that her mother was upset by the installation of the technologies, is an important indicator that persons with dementia may require a special approach to installation. The literature offers information on how to work with older persons with dementia in relation to installing technology. As this group of care clients is most sensitive to changes, it is important to adjust the way of working with such persons as compared to persons from the same age group. When working with a person with dementia, he or she may not remember why an installer is working in a home, or who this installer is. This, therefore may be a cause of distress. Installers should preferably work in pairs, as this allows one of the two to leave the site without loss of access upon return63. When equipment is installed, installers should answer user questions repeatedly, listen, and be sensitive to the state of mind of the person with dementia63. Some persons with dementia are curious about new equipment and are often uninhibited about dismantling it to “find out how it works”63. Moreover, people with dementia need rapid responses to perceived difficulties as they are often unable to understand the reason for a fault occurring or work around it63. Gitlin and Kyung Chee64 have come up with guidelines for introducing adaptive equipment, which include (i) making an observation of the home to determine needs, installation considerations, and use of space, and (ii) involvement of family members in the evaluation and decision-making process. Installers should proceed only with equipment that has been agreed upon by the family64. 5. Conclusions The wish to age-in-place is one of the most explicit desires of community-dwelling older adults, even if this goal seems to be difficult to achieve. In this study, new technologies were considered to be welcome additive tools to support ageing-in-place by the vast majority of respondents. Also, these new technologies were believed to support respondents when traditional emergency response systems could not be used to send out an alarm call. After a long trial, the new ambient intelligence technologies have contributed to a greater sense of safety and security at home, which is an important indicator for the continuation of living in the community. These feelings are shared by relatives, who were present during the interviews. Relatives form an important link to a successful implementation of new monitoring technologies. Despite the large differences in independence and the type of care respondents received, motives for wanting to age-in-place were similar for most respondents. Installing technology did not change these motives. The respondents are well aware of the safety/security-related functionalities the installed technologies have to offer, but, at the same time, they are not exactly aware of which technology is installed. Also, the quality of care is increased by the use of new technologies as critical aspects of daily care are being monitored and as professional carers are assisted through a video connection in cases of emergency. New technologies may contribute to the separation of or distinction between acute (real) alarm situations and non-acute alarms. Technological applications should take into account that taking care of someone is a combination of ‘head, hand and heart tasks’ and should be designed based on this combination. Improvements to existing and future ambient intelligence technologies and their implementation may be based on results of the study. In general,
218
![Page 232: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/232.jpg)
respondents are not worried about privacy-related issues in relation to the new technology. Moreover, they are aware that the care organisation involved in the project cannot use the cameras to monitor one’s home without first having received an alarm call. The design of the technology or the way this technology was installed were a main source of concern. Installing technology alone, however, is not the only solution. Apart from the introduction of new monitoring technologies, respondents have a continuous need for adequate care, home modifications, and assistive technologies for which an ambient intelligence system offers no replacement or substitute. Acknowledgements All participants, family, and staff of Stichting Zorgpalet Baarn-Soest, The Netherlands, are thanked for their cooperation in this study. Mirjam van Blanken, Jacintha Engelhart, Froukje van Dijken, Tjitse Mandemaker, Annegreet Blokland-Jans, Tessa Overmars-Marx, Johan van der Leeuw, and Irek Karkowski are thanked for their input. References 1. de Boer AH (ed.) (2006) Rapportage ouderen 2006. Veranderingen in de leefsituatie en
levensloop. The Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch]
2. Schuurmans MJ, Duijnstee MSH. De zorg voor chronisch zieke ouderen. Tijdschrift voor Verpleegkundigen 2003;113(7):46-51 [in Dutch]
3. Stefanov DH, Bien Z, Bang W-C. The smart house for older persons and persons with physical disabilities: Structure, technology arrangements, and perspectives. IEEE Transactions on Neural Systems and Rehabilitation Engineering 2004;12(2):228-250.
4. van Vliet AAM (2004) Zelfredzaam wonen. Bouwtechnische maatregelen voor de systematische aanpassing van de woning aan veranderende woonbehoeften. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
5. van Hoof J, Kort HSM, Markopoulos P, Soede M. Ambient intelligence, ethics and privacy. Gerontechnology 2007;6(3):155-163.
6. Tang P, Venables T. ‘Smart’ homes and telecare for independent living. Journal of Telemedicine and Telecare 2000;6(1):8-14.
7. Sixsmith AJ. An evaluation of an intelligent home monitoring system. Journal of Telemedicine and Telecare 2000;6(2):63-72.
8. Rialle V, Duchene F, Noury N, Bajolle L, Demongeot J. Health “smart” home: Information technology for patients at home. Telemedicine Journal and e-Health 2002;8(4):395-409.
9. Mihailidis A, Carmichael B, Boger J. The use of computer vision in an intelligent environment to support aging-in-place, safety, and independence in the home. IEEE Transactions on Information in Biomedicine 2004;8(3):238-247.
10. Perry M, Dowdall A, Lines L, Hone K. Multimodal and ubiquitous computing systems: Supporting independent-living older users. IEEE Transactions on Information in Biomedicine 2004;8(3):258-270.
11. Lin C-C, Lin P-Y, Lu P-K, Hsieh G-Y, Lee W-L, Lee R-G. A healthcare integration system for disease assessment and safety monitoring of dementia patients. IEEE Transactions on Information in Biomedicine 2008;12(5):579-586.
12. Wherton JP, Monk AF. Technological opportunities for supporting people with dementia who are living at home. International Journal of Human-Computer Studies 2008;66(8):571-586.
13. Corte Franco G, Gallay F, Berenguer M, Mourrain C, Coulturier P. Non-invasive monitoring of the activities of daily living of elderly people at home – a pilot study of the usage of domestic appliances. Journal Telemedicine and Telecare 2008;14(5):231-235.
14. Topo P. Technology studies to meet the needs of people with dementia and their caregivers. A literature review. Journal of Applied Gerontology 2009;28(1):5-37.
15. Demiris G, Hensel B. “Smart homes” for patients at the end of life. Journal of Housing for the Elderly 2009;23(1):106-115.
16. Chan M, Estève D, Escriba C, Campo E. A review of smart homes – Present state and future challenges. Computer Methods and Programs in Biomedicine 2008;91(1):55-81.
17. Koch S, Hägglund M. Health informatics and the delivery of care to older people. Maturitas 2009;63(3):195-199.
18. Reder S, Ambler G, Philipose M, Hedrick S. Technology and Long-term Care (TLC): A pilot evaluation of remote monitoring of elders. Gerontechnology 2010;9(1):18-31.
219
![Page 233: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/233.jpg)
19. Riikonen M, Mäkelä K, Perälä S. Safety and monitoring technologies for the homes of people with dementia. Gerontechnology 2010;9(1):32-45.
20. Schikhof Y, Mulder I, Choenni S. Who will watch (over) me? Humane monitoring in dementia care, International Journal of Human-Computer Studies 2010,68(6):410-422.
21. Mahoney DF, Purtilo RB, Webbe FM, Alwan M, Bharucha AJ, Adlam TD, Jimison HB, Turner B, Becker SA for the Working Group on Technology of the Alzheimer’s Association. In-home monitoring of persons with dementia: Ethical guidelines for technology research and development. Alzheimer’s & Dementia 2007;3(3):217-226.
22. Bird N (2003) Pervasive wireless. In: Aarts E, Marzano S (eds.) The new everyday - Views on ambient intelligence. 010 Publishers, Rotterdam, The Netherlands: 010 Publishers. pp. 146-151.
23. Kars M, Duijnstee M, Grypdonck M (2005) Leren laveren. Het begeleiden van ouders van kinderen met een chronische ziekte: een handreiking voor verpleegkundigen. Elsevier gezondheidszorg, Maarssen, The Netherlands [in Dutch]
24. Bijsterveld HJ (2001) Het ouderenperspectief op thuiszorg – Wensen en behoeften van ouderen ten aanzien van de thuis(zorg)situatie in Friesland. Dissertation, Rijksuniversiteit Groningen, Groningen, The Netherlands [in Dutch]
25. Pool A, Mostert H, Schumacher J (2003) De kunst van het afstemmen. Belevingsgerichte zorg: theorie en praktijk van een nieuw zorgconcept. NIZW, Utrecht, The Netherlands [in Dutch]
26. Demiris G, Rantz MJ, Aud MA, Marek KD, Tyrer HW, Skubic M, Hussam AA. Older adults’ attitudes towards and perceptions of ‘smart home’ technologies: a pilot study. Medical Informatics and the Internet in Medicine 2004;29(2):87-94.
27. The Netherlands Centre for Ethics and Health (CEG) (2004) Signalering ethiek en gezondheid. The Netherlands Centre for Ethics and Health, Zoetermeer, The Netherlands [in Dutch]
28. Rauhalaa M, Topo P. Independent living, technology and ethics. Technology and Disability 2003;15(3):205-214.
29. Braudy Harris P. The experience of living alone with early stage Alzheimer's disease: What are the person's concerns? Alzheimer’s Care Quarterly 2006;7(2):84-94.
30. Dewsbury G, Clarke K, Rouncefield M, Sommerville I, Taylor B, Edge M. Designing acceptable ‘smart’ home technology to support people in the home. Technology and Disability 2003;15(3):191-199.
31. van Hoof J, Kort HSM, Hensen JLM, Duijnstee MSH, Rutten PGS. Thermal comfort and integrated building design for older people with dementia. Building and Environment 2010;45(2):358-370.
32. van Hoof J, Kort HSM, Duijnstee MSH, Rutten PGS, Hensen JLM. The indoor environment and the integrated building design of homes for older people with dementia. Building and Environment 2010;45(5):1244-1261.
33. WHO (2001) International classification of functioning, disability and health. Resolution WHA54.21 of the fifty-fourth World Health Assembly, ninth plenary meeting, agenda item 13.9, 22 May 2001, A54/VR/9, Geneva, Switzerland, World Health Organization
34. Rutten PGS (1996) Strategisch bouwen. Inaugural speech. Eindhoven University of Technology, Eindhoven, The Netherlands [in Dutch]
35. Brand S (1994) How buildings learn - What happens after they’re built. Viking-Penguin. New York, NY, USA
36. Fernie G, Femnie B. Technological innovations for individuals with Alzheimer’s disease. The American Journal of Alzheimer’s Care and Related Disorders & Research 1990;5(3):9-14.
37. Kinney JM, Kart CS, Murdoch LD, Ziemba TF. Challenges in caregiving and creative solutions: Using technology to facilitate caring for a relative with dementia. Ageing International 2003;28(3):295-314.
38. Jans A, Overmars-Marx T, van Hoof J, Kort HSM (2009) Evaluatieonderzoek van het UAS-project van Zorgpalet Baarn-Soest, Zorg aan huis. Eindrapportage. Vilans, Utrecht, The Netherlands [in Dutch]
39. Tanner B, Tilse C, de Jonge D. Restoring and sustaining home: The impact of home modifications on the meaning of home for older people. Journal of Housing for the Elderly 2008;22(3):195-215.
40. Hutchings BL, Olsen RV, Moulton HJ. Environmental evaluation and modifications to support aging at home with a developmental disability. Journal of Housing for the Elderly 2008;22(4):286-310.
41. Martin S, Cunningham C, Nugent C. Ethical considerations for integrating technology into community-based service models for adults with dementia. Alzheimer’s Care Today 2007;8(3):251-258.
42. Dahlin-Ivanoff S, Haak M, Fänge A, Iwarsson S. The multiple meaning of home as experienced by very old Swedish people. Scandinavian Journal of Occupational Therapy 2007;14(1):25-32.
43. Mort M, Finch T, May C. Making and unmaking telepatients: Identity and governance in new health technologies. Science, Technology & Human Values 2009;34(1):9-33.
44. Haak M, Fänge A, Iwarsson S, Dahlin-Ivanoff S. Home as a signification of independence and autonomy: Experiences among very old Swedish people. Scandinavian Journal of Occupational Therapy 2007;14(1):16-24.
220
![Page 234: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/234.jpg)
45. Lewis JS. Housing and social support needs of elderly persons: a needs assessment in an independent living facility. Evaluation and Program Planning 1997;20(3):269-277.
46. Mahmood A, Yamamoto T, Lee M, Steggell C. Perceptions and use of gerontechnology: Implications for aging in place. Journal of Housing for the Elderly 2008;22(1):104-126.
47. Steele R, Lo A, Secombe C, Wong YK. Elderly persons’ perception and acceptance of using wireless sensor networks to assist healthcare. International Journal of Medical Informatics 2009;78(12):788-801.
48. Demiris G, Parker Oliver D, Dickey G, Skubic M, Rantz M. Findings from a participatory evaluation of a smart home application for older adults. Technology and Health Care 2008;16(2):111-118.
49. Lansley P, Flanagan S, Goodacre K, Turner-Smith A, Cowan D. Assessing the adaptability of the existing homes of older people. Building and Environment 2005;40(7):949-963.
50. Lansley P, McCreadie C, Tinker A. Can adapting the homes of older people and providing assistive technology pay its way? Age and Ageing 2004;33(6):571-576.
51. van Hoof J, Kort HSM, van Waarde H, Blom MM. Environmental interventions and the design of homes for older adults with dementia: an overview. American Journal of Alzheimer’s Disease and Other Dementias 2010;25(3):202-232.
52. McCreadie C, Tinker A. The acceptability of assistance technology to older people. Ageing & Society 2005;25(1):91-110.
53. Cahill S, Macijauskiene J, Nygård A-S, Faulkner J-P, Hagen I. Technology in dementia care. Technology and Disability 2007;19(2-3):55-60.
54. Molin G, Pettersson C, Jonsson O, Keijer U. Living at home with acquired cognitive impairment – Can assistive technology help? Technology and Disability 2007;19(2-3):91-101.
55. Rosenberg L, Kottorp A, Winblad B, Nygård L. Perceived difficulty in everyday technology use among older adults with or without cognitive deficits. Scandinavian Journal of Occupational Therapy 2009;16(4):216-226.
56. Nygård L, Starkhammar S. The use of everyday technology by people with dementia living alone: Mapping out the difficulties. Aging & Mental Health 2007;11(2):144-155.
57. Orpwood R, Gibbs C, Adlam T, Faulkner R, Meegahawatte D. The design of smart homes for people with dementia - user-interface aspects. Universal Access in the Information Society 2005;4(2):156-164
58. Skubic M, Alexander G, Popescu M, Rantz M, Keller J. A smart home application to eldercare: Current status and lessons learned. Technology and Health Care 2009;17(3):183-201.
59. Kok LM, Brouwer NM, Sadiraj K, Stevens J, van Gameren E, Woittiez I (2004) Kosten en baten van extramuralisering. SCP-werkdocument 109. The Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch]
60. Mann WC, Ottenbacher KJ, Fraas L, Tomita M, Granger CV. Effectiveness of assistive technology and environmental interventions in maintaining independence and reducing home care costs for the frail elderly. A randomized controlled trial. Archives of Family Medicine 1999;8(3):210-217.
61. Vincent C, Reinharz D, Deaudelin I, Garceau M, Talbot LR. Public telesurveillance service for frail elderly living at home, outcomes and cost evolution: a quasi experimental design with two follow-ups. Health and Quality of Life Outcomes 2006;4:41.
62. Wortmann JC, Boonstra A, Broekhuis H, van Meurs J, van Offenbeek M, Westerman J, Wijngaard J. Is telecare feasible? Lessons from an in-depth case study. In: Proceedings of the 18th IEEE International Workshops on Enabling Technologies: Infrastructures for Collaborative Enterprises, 2009. WETICE ’09. pp. 246-251.
63. Adlam T, Faulkner R, Orpwood R, Jones K, Macijauskiene J, Budraitiene A. The installation and support of internationally distributed equipment for people with dementia. IEEE Transactions on Information Technology in Biomedicine 2004;8(3):253-257
64. Gitlin LN, Kyung Chee Y. Use of adaptive equipment in caring for persons with dementia at home. Alzheimer’s Care Quarterly 2006;7(1):32-40.
221
![Page 235: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/235.jpg)
222
![Page 236: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/236.jpg)
10
Integrated design of a conceptual home for people with dementia van Hoof J, Kort HSM Supportive living environments: a first concept of a dwelling designed for older adults with dementia. Dementia 2009;8(2):293-316 The preceding chapters have dealt with the evaluation of various aspects of housing facilities, namely architectural and technological solutions, for people with dementia. Chapter 10 deals with the development and design process of a conceptual home for this group of people. The environmental interventions, aspects of the indoor environment, and aspects of technology are used in this design study. The study shows how - in relation to the needs of people with dementia - a conceptual home environment can be designed based on literature and focus group sessions, by integrating all the solutions identified in the preceding chapters. Chapter 10 contains graphical material of how the conceptual dwelling appears when built. This conceptual design combines solutions that are available in theory. In practice, only a selection of solutions is available for implementation in existing homes. The conceptual design of the home presented in this chapter includes a number of features that are considered to be of great importance in literature, such as an open character of the home, uncluttered spaces, wheelchair accessibility, attention for safety and security, the use of familiar furniture and items, attention for thermal conditions and light, and the use of supportive technologies. Within the combined framework of ICF-MIBD, Chapter 10 deals with a design study concerning the home’s total design and building systems, in relation to indicators of the basic value and functional value.
223
![Page 237: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/237.jpg)
van Hoof J, Kort HSM. Supportive living environments: a first concept of a dwelling designed for older adults with dementia. Dementia 2009;8(2):293-316
224
![Page 238: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/238.jpg)
The vast majority of older adults want to remain living independently at home, with or without a sufficient amount of professional home care, even when overall health is starting to decline. The ageing of society and the increase in the number of very old elders goes together with an increase in the number of people with dementia. About two thirds of the diagnosed persons in The Netherlands live at home. Dementia has severe implications to the quality of daily life, in particular to independent functioning. This sets extra demands to living environments. Older adults with dementia and their partners ask for living environments that support independence, compensate for declining and vitality, and lower the burden of family care. For this purpose, a first concept for a design for a dementia dwelling is presented in this paper, which incorporates modifications in terms of architecture, interior design, the indoor environment, and technological solutions. These design features were derived from literature search and panel discussions. Current design guidelines are frequently based on practical experience only, and therefore, more systematic field research should be carried out to find evidence for the various design modifications. Also, it needs to be studied how the design features of the dementia dwelling can be incorporated into the existing housing stock. 1. Introduction In today’s ageing society, which sees new visions on health care and the emancipation of older adults, ageing-in-place in combination with a sufficient amount of professional home care is commonly promoted as a strategy for maintaining autonomy, independence, sense of identity, and well-being, as well as for maximising financial resources. Research shows that living at home supports personal notions of normalcy and continuity in self-identity in view of the disruptive effects of age-related declines, chronic illness, and multiple personal losses1. The wish to remain living independently, regardless of the condition of housing, neighbourhood, and health, is often a personal choice of older adults themselves2, but is influenced by someone’s health status or that of a partner, as well as the ability of the partner to cope with the burden of care posed upon him or her. On the individual level, this desire leads to home modifications, moving, or simply living under less favourable conditions. Older adults do not comprise a homogeneous population, particularly in terms of lifestyle and health status. Health problems vary in severity and mix, and tend to increase with ageing. These have a great impact on the type of living environment that suits one best. This is also the case for an estimated and ever increasing group of 24.3 million people with dementia syndrome worldwide3. Symptoms can be divided into three kinds: (i) impairment in activities of daily living (ADL), (ii) abnormal behaviour, and (iii) loss of cognitive functions4. Older adults with dementia pose great challenges in terms of creating appropriate, healthy and supportive living environments in which they can perform optimally and are being compensated for decreasing vitality and overall health status. The current design of - mainly institutionalised - home-like or ‘deinstitutionalised’ housing for older adults with dementia is regarded as a therapeutic resource to promote well-being and functionality among the residents5. Given that in a country as The Netherlands about two thirds of the diagnosed early to mildly demented people live at home, where they are largely dependent on care from a spouse or family6,7, it is strange that the private home is a largely ignored territory. Most emphasis is placed on the architecture of special care units (SCUs) and small-scale group settings that provide housing for residents in later stages of dementia and, and who are often in need of intensive forms of care due to additional somatic health problems (for examples, see van der Voordt8). The exclusion of the private home environment in government policies and studies also means that problems concerning current housing are not faced. Standard housing concepts for older adults are, to a certain extent not appropriate for habitation by people with dementia9, and contribute to stress among carers, and early long-term institutional placement. Non-pharmacologic interventions can play an important role in managing behavioural problems seen in people with dementia10-13. The foundation of non-pharmacologic
225
![Page 239: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/239.jpg)
management is recognising that the person with dementia is no longer able to adapt, and that instead the environment must be adapted to the person’s specific needs12. Adapting living environments, for instance, the private home, to specific user needs in terms of architecture, interior design and technological solutions - in a balanced combination with pharmacologic, behavioural and occupational approaches - is likely to be most effective in improving the health, behaviour, and well-being of people with dementia14. The limited capacity of acquiring new knowledge and skills sets limits on the type of environment that is useful to people with dementia. A good living environment can reduce confusion and agitation, improve way-finding and encourage social interaction among older adults with dementia. On the other hand, poor environments increase confusion and problem behaviours15, and limitations in the layout of apartments can lead to mental health problems such as anxiety and insomnia, social dysfunction or depressive feelings16. At present, numerous pilot projects of supportive dwellings for older adults are being constructed worldwide. Most of these pilots aim exclusively at architecture solutions or technological solutions for a ‘homogeneous’ population of older adults. Since older adults form a very diverse group in terms of health status, financial resources and life styles, it is of the utmost importance to account, for instance, for the impairments that arise from specific diseases related to biological ageing17. The programme Technology@Home (Technologie Thuis Nu!) aims to investigate integrated home modification solutions in terms of effectiveness, usability, user preference and implementation by building services’ installers17. One of the projects within the programme was the development of a concept for a private home designed to house older couple, of which one of the partners copes with dementia, who wish to age-in-place with assistance of home modifications and technological support, and that takes into account the course of dementia and accompanying changes in cognition and behaviour, as well as care burden posed to family carers. This dwelling can be used to investigate the many aspects of supportive living environments for older adults with dementia, and as an educational and training setting for professionals from the field of nursing, construction, and building services engineering. The own home discussed in this paper is the dwelling live in during the first stages of dementia (if not diagnosed when already residing in a nursing home for somatic reasons), and where technology particularly serves as everyday items to the residents and to a lesser degree for specific care purposes. This paper deals with the development and design process of this conceptual dementia dwelling, and addresses the following –non-pharmacologic- aspects of the home environment: (i) architectural and interior design, (ii) the physical indoor environment, and (iii) technological solutions connected to the dwelling. 2. Design of a ‘dementia home’: methodology The development of the dementia dwelling was based on three pillars (i) general knowledge of construction and architecture, (ii) literature research, and (iii) focus sessions with representatives of client groups. The literature study was conducted as a supplement and support to the general knowledge of construction and architecture that existed with the authors. Based on the literature study, a preliminary, first concept of a dwelling was designed. This design was later presented in two workshop rounds with the focus group, in which it was discussed. The literature study included both books and peer-reviewed articles on architectural and technology modifications of all types of housing for older people with dementia. The search included databases as PubMed and databases of technological papers, without a limitation to the age of papers. All volumes of the journals ‘Dementia’, ‘The American Journal of Alzheimer’s Care and Related Disorders & Research / American Journal of Alzheimer’s Disease and Other Dementias’, and ‘Alzheimer’s Care Quarterly / Alzheimer’s Care Today’, known for publishing on housing and technology in relation to dementia, were searched manually for relevant papers. Conference proceedings and books available in libraries in The
226
![Page 240: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/240.jpg)
Netherlands on dementia and design were also consulted. Also, the study included multiple sources from The Netherlands, to provide a counterweight for the large amount of Anglo-Saxon literature, since housing and architecture, as well as the preferences of occupants, are known to differ per country due to climatologic and cultural differences. The search covered architectural modifications, technological solutions as ICT, assistive technologies and ergonomics, building services including heating and lighting, and the interior design, furniture and utensils. Literature included in this study does not only cover the home environment, but also institutional types of housing, such as nursing homes, small-scale group settings, and SCUs. Literature on SCUs is elaborate, and the knowledge is often also applicable to the home situation. This means that the modification are to the benefit of people with early and moderate stages of dementia, aiming at keeping people at home for as long as possible. The literature search was complicated by the large differences in writing style between nursing/occupational therapy, and technological sciences. For instance, a different meaning is given to the term physical environment; the first meaning the indoor environment as a whole, the second as the whole of the thermal, visual, and acoustical environment and indoor air quality. Also, there are significant differences in the way professionals from both fields approach and perceive dementia syndrome and related health problems and challenges, as well as in the level of conceptual thinking when dealing with these challenges. Moreover, the literature search not exclusively included solutions for older people with dementia, but also for younger adults with dementia (younger than 65 years). The first draft of the dementia dwelling, that resembles the initial design, is shown in Figures 1 and 2. This home has a surface area of approximately 72 square metres, a medium-sized home for older people that is dwelled by two people. Normally, apartments in The Netherlands are around 50 to 60 square metres, with more luxury assisted-living facilities offering apartments of well over 100 square metres. The design is such that the home can be attached to a similar building volume on the right and left and located along a corridor, for instance, in a larger apartment block, with a minimum of changes like to the size of the windows. The design shown is the version that is located on the ground floor of an apartment block in order to create an accessible garden. In short, the home is characterised by a couple of remarkable features, which are described in more detail later. The living room is open and is characterised by a closet wall for storage of items and the heating and electrotechnical systems. Occupants can observe all parts of the dwelling from practically all positions in the home, and thus watch each other. The wide sliding doors in the centre of the home can be easily operated and allow a view to the toilet from the living room. A corridor is omitted from the design. The bathroom is wheelchair-accessible and is equipped with modified sanitary equipment. A corner of the bedroom offers room for the caring partner to retreat. Between the bedroom and the bathroom, there is a shortcut sliding door. The kitchen is positioned next to the living room and designed for extra safety. The demented partner can take a seat and participate in easy food preparation tasks. The garden offers a possibility to go outside and walk around safely.
227
![Page 241: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/241.jpg)
Figure 1. Layout of a dwelling for people with dementia and their partner. Another method applied to gain information were two rounds of consulting by focus groups, consisting of representatives of various patient organisations and organisations for the aged with expertise from the field of care and home modifications. The members of the focus groups have extensive knowledge of home modifications and user needs, and have long-standing experience with specific diseases and the ageing process. The members were selected based in compliance with the aims of the Technology@Home programme that covered the design of three dwellings: (i) a home that offers extra comfort and safety, (i) a home for dementia, and (iii) a home for people with COPD. The members were invited to provide feedback on the aforementioned preliminary home design and its programme (design features), and to bring various notions concerning the home environment and related design solutions together. Apart from providing feedback on the design, the members came up with additional design principles they knew from daily practice. Problems indicated by the focus group were studied and new design solutions were sought to address these problems. They present additional data applicable to the Dutch situation and countries with similar building traditions. Actual people with dementia or their relatives were consulted indirectly via a representative of the Dutch Alzheimer Society. This representative discussed the design during a number of ‘Alzheimer Café’ sessions in The Netherlands with people with dementia and their partners, and brought the feedback to the focus group sessions as input for the design process.
228
![Page 242: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/242.jpg)
Figure 2. Bird’s eye view of the dwelling and garden.
Figure 3. View from the living room towards the kitchen and bedroom. The open character of the house is maintained even with the sliding door between the living room and bedroom half open.
229
![Page 243: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/243.jpg)
3. Architectural and interior design for dementia The following paragraphs describe the design of the dementia dwelling based on a specific health-related problem for which a certain design or adaptation has been made. These design solutions cover the openness of the home and interior design. 3.1. Open and accessible floor plans In order to deal with clinging behaviour, both residents (and carers) should have an overview of spaces to keep in contact with one another. Therefore, the dementia dwelling has an open floor plan, which is obtained by reducing the number of walls. It is known from institutional settings that corridors can make people with dementia restless18. The dementia home has no corridor but an American-style entrance that directly leads to the central living room. The open character of the home is enlarged by the 1.6 metres wide sliding doors, which can be opened and shut in compliance with openness and privacy wishes. This is particularly true for the sanitary rooms, which are visible from the kitchen and from the sofa area when the sliding doors are fully opened (Figures 3 and 4). Some residents with dementia may face difficulty in locating the toilet when needing to visit this facility. It is assumed that toilets are easier found (and thus used) when clearly marked or visible from the living room. Since the amplitude of the daily rhythm of urine production also decreases in older adults, sleep at night is more likely to be disturbed by the need to go to the toilet19,p.100. This need is of course also influenced by the intake of certain types of medication. To make going to the toilet easier during the night, there is a sliding door between the bedroom and the bathroom that serves as a shortcut. One of the persons in the focus groups recalled a story on a couple with dementia that went camping but made sure they were close to the sanitary facilities to minimise walking distances. Another problem in older people with dementia is the risk of fall incidents, which is even larger at night, for instance, when people have to walk long distances to reach the toilet. The shortcut may therefore also limit the risks of night-time accidents including falls. The open character of the home is further enhanced by the large windows that allow people to look outside. Bowlby Sifton20 states that windows can help in offering reality reassurance by providing outdoors views that help with orientation to the season and time of day. Building physical aspects related to these windows are treated later. Spouses and relatives may feel the need for privacy. Therefore, not every part of the home should be open and accessible. In the bedroom, there is a special section for the partner or carer to withdraw or carry out activities in privacy. In other designs that offer more surface area, this could be a separate room that can be locked. The need for such a room that could also be used by a professional carer is one of the most important desires from the focus groups. Gitlin21 also mentions the need for setting up a so-called quiet room with comfortable furniture for rest breaks in case of extreme agitation. In order to maintain safety at home, the amount of clutter needs to be kept at a minimum, and dangerous items should be safely stored when needed. For this purpose, a closet wall is built in the dwelling for storage of (dangerous) items. It also contains the home’s heating and ventilation system, and the meter cupboard. A part of the closets can be locked. The focus groups have indicated that in order to guarantee resident autonomy and empowerment, not all closets should be equipped with locks, although child-proof locks should be a good alternative. Many older adults cope with diminishing mobility and start to use assistive devices. Nearly all homes in The Netherlands do not provide enough space to store the larger devices, not inside the home or outdoors on an institutional corridor. Near the front door of the dementia dwelling, there is enough storage space for mobility aids, such as walkers, wheelchairs and mobility scooters.
230
![Page 244: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/244.jpg)
Figure 4. View from the kitchen towards the bathroom. While cooking, one could still watch over the safety of the other one while bathing.
Figure 5. View of the bathroom, with position of the roll-in shower with shower seat, additional hand-held shower, laundry machine (top-loader), and heating panel for warming towels.
231
![Page 245: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/245.jpg)
3.2. Interior design One way to account for the decline in cognition is to ensure that all features of the environment, including furniture, would have been familiar to persons with dementia in their early adulthood15. Apart from this need for familiarity, there is also a need for safety given the risks and dangers of wandering, (kitchen) fires, medical aids-related injuries, and falls. In terms of interior design, one could improve the home environment by a number of interventions. It is hypothesised that reflections and repetitive patterns, for instance, wall paper prints, can be experienced as depth, which can cause fear, restlessness and confusion18. Based on this hypothesis, the dementia home is decorated with pastel colours22 without patterns and prints. In order to minimise confusion and possibly reduce the number of fall incidents, doorsteps and colour accents on floors are avoided too. In order to reduce the risk of falls, walkways are kept free of clutter, and all furniture that might be grabbed for support while walking or during a fall should be stable. Moreover, floor covering is secured. The focus groups indicated that the table and chairs in the kitchen section should be robust but light-weight in order to be able to move them when needed. The table should be high enough for use by persons in a wheelchair. In order to minimise the space taken by the table, one should choose a fold-up version. In order to minimise risks of confusion and to increase safety at home, floral decorations in the home should always be non-poisonous plants and flowers. Plastic plants get dusty over time and are difficult to clean. These should therefore not be used as a substitute. In order to further reduce the risk of falling, all loose cables in the home should be covered. This also prevents the collection of dust and lessens the need for intensive cleaning and hovering. A solution to this problem is the installing of a cable plinth along the walls. There is sufficient space to store away dangerous goods, clutter, cleaning chemicals and kitchen utensils safely by the creation of a closet wall in the kitchen and living room. Some of these closets, as well as some of the kitchen drawers, can be locked if the person with dementia is at immediate danger of injury, or poisoning. In the initial stages, all closets and drawers are accessible to preserve dignity. In order to accommodate any problems concerning temporal orientation the rooms are equipped with clocks and calendars. A board can be used for leaving messages as a reminder of events. Other decorations on walls may include a photo wall that can be used for reminiscing and gives the residents a sense of home. In order to enable independent or assisted use of sanitation, the bathroom and toilet space are equipped with grab bars and handles. If for any reason residents need to use wheelchairs, one should be able to adapt kitchen blades, toilet seats and wash-hand basins in height. In order to allow for wheelchair accessibility, the bathroom is not only equipped with a bath tub but also with a roll-in shower that allows maximum freedom of movement for a carer when assisting the other (Figure 5). The focus groups have indicated that mirrors should be mounted to the movable systems, and that one should be able to tilt the mirrors to allow people in wheelchairs and smaller people to watch themselves. In order to prevent burns to, for instance, the knees of people in wheelchairs, drainage pipes are insulated. For the same purpose, the kitchen’s cooker top is equipped with a ‘crash barrier’ for securing pans, as can be found in many sailing boat galleys. The focus groups advised to place two separate beds in the bedroom (Figure 1). This should enable helping people to get in and out of bed. Also, many partners do not longer want to share one bed when people are slowly becoming incontinent.
232
![Page 246: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/246.jpg)
4. The physical indoor environment The physical indoor environment (odours, the thermal climate, lighting and sound) plays an important role in creating a fitting domestic environment for people with dementia, since this group loses mental and physical capabilities faster than their senses23. Olfactory sense activation, for instance, by exposing people to cooking smells from the adjacent kitchen, improves appetite and food intake by stimulating the salivary glands24, and hence can result in weight gains. The focus groups stated that it can also remind people not to forget to eat. Therefore, the dementia home has an open kitchen and a table is placed near the cooker top for carrying out small kitchen activities. On the other hand, over-stimulation is also possible through unpleasant smells, glare or excessive noise. Adequate ventilation is important to get rid of pollutants in the indoor air, but mechanical ventilation systems should be silent not to upset some of the persons with dementia23. The two most important aspects of the indoor environment dealt with in the dementia home are lighting and thermal comfort. 4.1. Lighting Of all indoor environmental factors in the homes of older adults with dementia lighting is the most important and promising. Light is essential for vision, and plays a role in regulating important biochemical processes in older adults25, as well as in a balanced circadian rhythm, which is orchestrated by the suprachiasmatic nuclei (SCN) in the human brain. The SCN of people with Alzheimer’s affected by the disease leading to nocturnal restlessness and wandering. These behaviours form a great burden for carers and are among the main reasons for institutionalisation26. High intensity light (particularly bluish light), operating through both the visual system and the circadian system, influences the abilities and behaviour of people with Alzheimer’s, improves sleep quality and reduces depression23,26,27. The establishment of ambient bright light, for instance, via ceiling-mounted luminaires, is an effective and non-obtrusive way of exposure. The dementia dwelling is equipped with special lights that emit light with a correlated colour temperature of 6,500 K (cool bluish light), as well as big windows to allow for the access of daylight. Current illumination systems are not often suitable, or user-friendly, for exposure to high levels of lighting in order to stimulate the biological clock. Many residents in institutional settings were found to be living in (too) dark conditions26,28. Therefore, it is still important that older adults frequently go outdoors for exposure to daylight, for instance, in accessible gardens that also allow people to get in contact with nature, and breathe fresh air. For this purpose, the home is equipped with a garden, or, when no garden is available, a decorated corridor or a balcony can serve this purpose as well. Apart from the biological lighting, additional light sources are put in closets and cupboards for increasing visibility. Moreover, higher lighting levels are needed on kitchen blades and in bathrooms for increased safety, and to compensate for decreasing vision. 4.2. Thermal comfort Many people with dementia express any discomfort through certain behaviour like fleeing the conditions, or even partially undressing in the later stages of dementia syndrome. Fortunately, a lot can be done to create a comfortable environment. Thermal comfort, described as ‘the state of mind, which expresses satisfaction with the thermal environment’ is one of the parameters important in building design for which extensive modelling and standardisation exist. People with dementia may have special needs regarding thermal comfort and the design and implementation of heating, ventilation and air-conditioning (HVAC) systems, since older adults with dementia have a different perception of their thermal environment due to the atrophy of parts of the brain that are responsible for the perception of thermal sensation23,29. To provide occupants with a sense of comfort with the thermal environment, temperature differences within the home should not be too large. Floor heating systems are very suitable, since one does not get hurt by wall panels in case of falls. Moreover, such systems collect dust and thus require regular cleaning. The only panels in the home are located in the bathroom for heating towels, and a small version in the kitchen as was requested by the focus groups for drying towels. Guaranteeing optimal thermal comfort is particularly important in bathrooms and bedrooms, where people have to (un)dress. Infrared lights installed in the ceiling can be an additional solution for providing a sense of thermal comfort in the bathroom. Dangerous temperature rises in summer should be avoided by passive architectural solutions such as thermal mass and the installation of solar blinds30. The latter also reduce glare. Air-
233
![Page 247: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/247.jpg)
conditioning units form an additional technological means to provide comfort and to help people fall asleep, as is indicated by the focus groups. When implementing systems one should however consider aspects like user-technology-interaction, and minimizing negative behavioural reactions as fears and draughts due to suboptimal positioning of outlets. 5. Supportive technology The complexity of the technology around people with dementia plays a role in their loss of abilities, and carers often emphasise the disabling of contemporary technology31. Older adults with cognitive impairments use the least number of assistive devices among all impaired seniors32. Devices for physical disabilities tended to be more readily accepted and used, than devices for cognitive impairments. The actual needs and abilities of people may vary considerably depending on the stage of dementia and earlier experiences with technology and equipment. Some studies on utility and usability of technology at home33,34 have resulted into a series of general guidelines and design recommendations for technology for people with early to mild dementia. Technology and equipment should (i) not require any learning, (ii) look familiar, (iii) not remove control from the user, (iv) require a minimum of user interaction, and (v) reassure the user34. Some people with dementia are curious about new equipment and are often uninhibited about dismantling it to “find out how it works”35, and technology should therefore be robust. Moreover, this group of older adults needs rapid responses to perceived difficulties, as they are often unable to understand the reason for a fault occurring, or work around it35. These statements and requirements have led to a very conservative introduction of technology in the dementia dwelling. 5.1. Applications A wide range of applications, of which most claim to increase safety, are already in the marketplace to (in)directly support people with dementia and their partners. Although many applications can be used by both residents, one should make a distinction between technological applications that serve or benefit the person with dementia or the partner. The applications in the dementia dwelling are such that they can be used by a person with dementia. Complicated systems, such as the meter cupboard, can be locked, also for reasons for safety and thoughts expressed by Adlam et al.35. Concerns about the dangers of electricity and electrical appliances in the dwelling have been solved in the following ways. The cable plinth is put in place to limit the length of cables that collect dust and form a risk of falling. The meter cupboard is placed in the closet wall, and leaves room for installing additional home automation services or control of the indoor environment. All outlets are ground fault interrupted for extra safety. Plug sockets are quipped with childproof locks that require a twisting movement. In the bathroom, the use of electrical appliances is limited. The hair dryer is installed, but is screwed to the wall like those found in many hotels. The mirrors in the bathroom are heated so that moisture from the air does not condensate on them and make reflections impossible. All electric switches in the home are equipped with prints of light bulbs and text to indicate what they are for. Additional switches, for instance, for controlling shades, can be applied to along with manual control levers. To cope with the problems accompanying the potentially lethal wandering, movement detectors and door contacts are installed. Such systems do not put an unethical restraint on people as does, for instance, locking them up. The alarm can be set to only alarm during the hours of darkness, or to alarm if a person has left their dwelling for a longer than usual length of time/time of day, and some systems can even discourage people with dementia from leaving or send a warning message to a carer or service provider. In early dementia, online route planning software can help people to find their way around town and to provide a sense of security. For this purpose, stressed by the focus groups, a computer is placed in the home. Various services available on the personal computer can moreover help support both the person with dementia as the partner36. Braudy Harris37 also found that some older adults with dementia used computers, for instance, to keep in touch with family members, and to keep track of their appointments. The opposite of the aforementioned online route planners are
234
![Page 248: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/248.jpg)
GPS-based tools that allow carers to track people when wandering and bring them back home safely. The home is equipped with a personal alarm system that is in direct contact with a control post, in analogy with the modified model of Stefanov38. This personal alarms system not only warns care professionals at this centre, but also affects the electrical systems in the home. For instance, when the alarm goes off, all lights are switched on, while at the same time all other appliances are turned off (except for the refrigerator, telephone, and environmental systems). This also means that pans on the cooker top are no longer heated, which minimises the risk for kitchen fires. This was also an explicit desire from the focus groups. The types of alarm systems chosen have a minimal impact on privacy, and ethical issues of such systems are discussed in various publications (for examples, see van Hoof et al.38, Bjørneby et al.39, van Berlo40). Moreover, the dwelling is equipped with fire and smoke detectors. When alarms go off, a warning signal is sent to a central control post. At the same time, all light in the home are turned on and doors unlock. The control post then seeks contact with the home via telephone or via a camera to check on the residents. When people want to go to the toilet at night, red night orientation lights, placed above the cable plinth, are turned on via infrared sensors. These lights should provide minimise the risk of falls. In order to protect against burning hot water, thermostat taps are built in underneath the washbasins and bath tub for safety. According to the focus groups, people with dementia are unfamiliar with thermostat taps, and some are known to break them by overturning. In the bathroom, the faucet is equipped with a long handle that allows a carer to grasp over the tub without the risk of falling into the water. For the same reasons, the focus groups have recommended to install a bathtub with enough space below to put your feet when having to bend over. At the same time, the panel has asked for the hand-held shower hose not to be too long, so that it cannot hang over the rim of the tub to prevent the floor from flooding. The refrigerator door is equipped with a sensor that monitors how often the door has been opened and closed41, as well as a sensor than monitors the weight of the refrigerator. These sensors provide carers to estimate how often and how much is being eaten, or hoarded, hidden or thrown away, and may be a simple and unobtrusive means of health monitoring. A new trend in technology for care are inexpensive support systems for older adults staying alone at home, allowing care and health centres to remotely observe and help them, for instance, with the intake of medication. For this purpose, the television set can be used, for instance, for broadcasting wake-up video messages from children or loved-ones. The television can also be used for watching photos or reminiscing. At the same time, it can also be digitally locked against adult content and violence, to prevent unwanted negative feelings. 6. Discussion This paper presented the first notions of how a dementia dwelling could be designed, taking into account all aspects of the built environment. Based on the results of the literature search in this paper and the outcomes of the focus group meetings, a systematic review is to be carried out by the authors. This study showed once more what has previously been stated by Day et al.5, which is that current design guide(line)s for housing older adults with dementia typically offer hypotheses on spatial organisation and appointment of the physical environment. They are frequently based on practical experience of designers or facility administrators; although in some cases findings from clinical research are applied in the form of design ‘solutions’5. Even though compelling arguments are made for the therapeutic efficacy of an appropriate living environment, which can be regarded as non-pharmacologic intervention, little research has been carried out to date to determine whether the special design features are, in fact, effective in reducing symptoms, and to quantify to which extent they contribute to self care, well-being, and vitality12,14. This paper provides items for further study to find evidence of the efficacy of the design recommendations. More research is also needed when recommended design solutions conflict with each other, or when such measures have major or controversial impacts for cost or well-being5.
235
![Page 249: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/249.jpg)
Although some design data exist for institutionalised housing, the own dwelling is a largely ignored territory. Little research has been done on day care and assisted living facilities too. These places often have different resident populations, care practices and philosophies, physical environments, and regulatory realities5. Because of the newness of the field, the limited research, and the small number of significant demonstration projects, the existing guidelines are best viewed not as inflexible directives, but as an effort to expand and stimulate thinking on the relationships between dementia and design. They are hypotheses amenable to, and requiring, implementation and validation42. Measures to improve home safety may need periodical re-evaluation by spouses or carers when memory loss progresses43. This is also a point that deserves further study in relation to the different stages of dementia. The dementia dwelling was designed in a holistic manner. This holistic vision does not refer to holistic approaches known in health care, but rather to holism as viewing any entity as a whole that is more than the sum of its parts44, including all aspects of a built environment. Such holistic approaches have not been focus of study to date in case of housing for dementia. Because in dementia, all aspects of the home environment need to be in harmony with each other, the design of such buildings calls for a ‘Gesamtkunstwerk’ approach, in which all disciplines work and design together to come to a single end-product. The word ‘Kunst’, meaning art, should be combined with evidence-based practice derived from scientific research to come to an end-product that does not only possesses certain aesthetic qualities, but also functions as a supportive entity. By studying the home environment in a holistic way, situations in which conflicting design recommendations are offered can be resolved more adequately. An issue raised by the focus groups was on the profile of the residents of the dementia dwelling. The dwelling was designed as a residential unit within larger residential building or assisted-living facility for housing a couple. The design is explicitly based on such a type of living together, and does not pose a direct solution for older people living in with adult children. Apart from the people living with a spouse or offspring, there are many people living alone. Braudy Harris37 distinguishes three types: (i) those, who live alone but have family carers locally, (ii) those, who have long-distance carers, and (iii) those, who have no close family members providing care. Among these people, some are managing well because of their independent spirit, coping skills, and acceptance of assistance from social support networks, while others face difficulties of remaining their independence and risk imminent institutionalisation. People living alone may benefit from the dementia dwelling’s design solutions, but do not form the initial target group. Even though many people want to stay in their own and known home for as long as possible, there often comes a time that living together, non-institutionally, comes under pressure. In the Dutch situation, one of the partners remains living at home, while the other is institutionalised. The dementia dwelling could be an intermediary type of housing option in one’s sequential living career, close to numerous facilities and a professional care centre, in which both partners can remain living together in a supportive environment. The dementia dwelling can also be a solution when people with early dementia choose to move to a smaller housing unit. People with an early diagnosis of dementia that experience co-morbidities, or in case the partner is coping with a certain degree of impairment, people may move to the dementia dwelling as a temporary solution. The sooner one moves, preferably in an early dementia stage, the less stressful and confusing moving may be. Bowlby Sifton20 states that if moving, the new rooms should best be set up in the same style with familiar items as in the old home. This can lead to the type of environment that people are used to and desire. We see no conflict with the need for safety and hygiene and the desire to have a comfortable, familiar and cosy home. Interior design should always be based on personal preferences. Upon the death of one of the partners, he or she has to decide whether one wants to continue living in the dementia dwelling. There is also some concern about the privacy within the dwelling in relation to the sliding doors, which needs further study. In practice, couples choose to move to a certain dwelling and in the process of moving choose what extent of privacy is acceptable to them. Issues of resident empowerment are very important, as was also indicated by the focus groups. For this matter, the design explicitly includes a personal computer to be used for various purposes, including online route planning and maintaining social contacts.
236
![Page 250: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/250.jpg)
Technology does not take over control, and every piece of technology can be controlled manually as well, for instance, solar blinds. Also, seemingly dangerous equipment and kitchen materials are not stored in locked cupboards and drawers; a solution that is mentioned in various articles and books. The home with its sliding doors is actually a way to increase empowerment and support independence. By locating the dwelling in a larger building complex, social contacts can be enhanced, for instance, by allowing for contact with neighbours. Also, partners can get mental support from others in the premises. Within the programme Technology@Home, the dwelling can be used to further examine the design features in relation to user acceptance and efficacy. Also, the dementia dwelling can be used as a model to analyse current housing of each individual and to map needs for changes or home modifications. Moreover, the dementia dwelling is an addition to the existing research and demonstration homes, such as the Gloucester Smart House (Bath Institute of Medical Engineering Ltd, UK), the Unattended Autonomous Surveillance demonstration dwelling (Stichting Zorgpalet Baarn-Soest, Soest, The Netherlands), the Georgia Institute of Technology’s Aware Home Research Initiative (Atlanta, Georgia, USA), and the four demonstration laboratories of In-HAM vzw (Gits, Belgium). Furthermore, it should be determined how to implement the design features in existing dwellings that are housed by people with dementia. It is very unlikely that one day everyone dealing with dementia lives in a specially designed dementia home. Also in The Netherlands, there is an enormous pressure on the existing housing stock, given the fact that the amount of specialised senior housing can hardly keep up with the demand45. Therefore, the number of dwellings that can facilitate care and compensate the effects of ageing needs to increase dramatically anyway. Moreover, the need for accessible dwellings is much larger than the need for living arrangements with care services. Features of the design of the dementia dwelling can also be used for other target groups, such as parents with a handicapped child, although claims of efficacy need to be researched in more depth. People with dementia may find it difficult to utilise equipment due to apraxia, tremors, muscle weakness, and vision problems7,34. These problems mainly stem from both physical ageing and illnesses, and of course the inappropriateness and ‘confusing’ nature of certain technology for this group of users. The overall supply of suitable technology to support both the person with dementia and the carer is insufficient. Areas that need special attention are IADL, time spending, orientation, communication and safety46. The emergence of home automation, smart home technologies, and intelligent equipment in the home environment can lead to confusion and anxiety, especially when things (seem to) happen automatically (lights turning on and off, curtains moving) that are not understood and cannot be controlled by the people with dementia themselves, especially in the more advanced stages of dementia. This can lead to anxiety or frustration, and therefore such systems should be installed with caution. Some intelligent systems, however, might be suitable to monitor and control less visible and invasive aspects of the dwelling, such as the indoor climate, when systems are supplemented by a manual thermostat to allow user control. Such solutions are suitable to serve many, including people with early dementia. Also, technology in the living environment too, should have an appearance, and require the same user interaction, as things familiar from early adulthood15. All new technology should to be explored in terms of usability by older adults with dementia living at home, particularly in early and moderate dementia. 7. Conclusions The design of the dementia dwelling as presented in this paper can be seen as a non-pharmacologic strategy to support living independently, improve self care capabilities, and increase well-being of older adults with dementia. Besides these benefits for the care recipient, informal or family carers are supported in care through the home’s infrastructure and technology installed, and the improved behaviour of their impaired partners. Professional
237
![Page 251: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/251.jpg)
carers can benefit from the same features, as well as the increased self care capabilities of the care recipient. In order to create appropriate dwellings for older adults with dementia, all aspects of the living environment should be addressed in a holistic manner. Moreover, continuing to live independently delays the demand for expensive institutional care – a form of care that is under pressure due to the ageing and hazing of society with respect to capacity. Given the importance of good housing in relation to dementia, the Dutch Alzheimer Society recommends our initial design for the dwelling for people with dementia, and supports further research in this field. Further research should be executed with persons with early and mild dementia and their partners to examine how home modifications and technological solutions can meet the needs of the end-users, how the progress of dementia influences abilities, and if the design conditions proposed are indeed correct. Acknowlegdements Froukje van Dijken, Martijn Janssen (both Hogeschool Utrecht), Hugo van Waarde (Stichting Alzheimer Nederland), and members of the focus groups are kindly acknowledged for their contribution. Niels Buijtenhuis, Jos Faber, Niels van Midden, Kay van Rijswijk, Thomas Südkamp, and Arthur van der Wal, Mediatechnology students (Hogeschool Utrecht) are thanked for their assistance in making the visualisations. References 1. Rubinstein RL. The home environments of older people: a description of the psychosocial
processes linking person to place. Journal of Gerontology 1989;44(2):S45-53 2. Gitlin LN (2003) Next steps in home modification and assistive technology research. In:
Charness N, Schaie KW, editors. Impact of technology on successful aging. Edited proceedings of a conference held at Pennsylvania State University, October 8-9, 2001. Springer, New York, NY, USA. pp 188-202
3. Ferri CP, Prince M, Brayne C, Brodaty H, Fratiglioni L, Ganguli M, Hall K, Hasegawa K, Hendrie H, Huang Y, Jorm A, Mathers C, Menezes PR, Rimmer E, Scazufca M and for Alzheimer’s Disease International. Global prevalence of dementia: A Delphi consensus study. The Lancet 2005-2006;366(9503):2112-2117
4. Ebersole P, Hess P, Schmidt-Luggen A, editors (2004) Toward healthy aging. Sixth edition. Mosby, St. Louis, MO, USA
5. Day K, Carreon D, Stump C. The therapeutic design of environments for people with dementia, A review of the empirical research. The Gerontologist 2000;40(4):397-416
6. Duijnstee MSH (1992) De belasting van familieleden van dementerenden. Dissertation. Katholieke Universiteit Nijmegen, Nijmegen, The Netherlands [in Dutch].
7. Health Council of the Netherlands. Dementia (2002) Publication no. 2002/04. Health Council of the Netherlands, The Hague, The Netherlands [in Dutch]
8. van der Voordt TJM. Housing and care variants for older people with dementia: Current trends in the Netherlands. American Journal of Alzheimer's Disease 1997;12(2):84-92
9. van Hoof J, Kort HSM (2006) Healthy living environments for older adults with dementia. In: de Oliveira Fernandes E, Gameiro da Silva M, Rosado Pinto J, editors. HB2006: Proceedings of the 8th International Conference Healthy Buildings, Volume III. Lisbon, Portugal. pp 89-93
10. Knopman DS, Sawyer-DeMaris S. Practical approach to managing behavioral problems in dementia patients. Geriatrics 1990;45(4):27-30,35
11. Blom M, Tjadens F, Withagen P (2000). Weten van vergeten. NIZW, Utrecht, The Netherlands [in Dutch]
12. Desai AK, Grossberg GT. Recognition and management of behavioral disturbances in dementia. Primary Care Companion to the Journal of Clinical Psychiatry 2001;3(3):93-109
13. Ritchie K, Lovestone S. The dementias. The Lancet 2002;360(9347):1759-1766 14. Zeisel J, Silverstein NM, Hyde J, Levkoff S, Lawton MP, Holmes W. Environmental correlates to
behavioral health outcomes in Alzheimer's special care units. The Gerontologist 2003;43(5):697-711
15. Fleming R, Forbes I, Bennett K (2003) Adapting the ward - for people with dementia. NSW Department of Health, Sydney, Australia
238
![Page 252: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/252.jpg)
16. Migita R, Yanagi H, Tomura S. Factors affecting the mental health of residents in a communal-housing project for seniors in Japan. Archives of Gerontology and Geriatrics 2005;41(1):1-14
17. van Dijken F, van Hoof J, Kort HSM (2006) Healthy buildings for older adults. In: de Oliveira Fernandes E, Gameiro da Silva M, Rosado Pinto J, editors. HB2006: Proceedings of the 8th International Conference Healthy Buildings, Volume III. Lisbon, Portugal. pp 127-130
18. Cohen-Mansfield J, Werner P, Marx MS. The spatial distribution of agitation in agitated nursing home residents. Environment and Behavior 1990;22(3):408-419
19. Waterhouse JM, Minors DS, Waterhouse ME, Reilly T, Atkinson G (2002) Keeping in time with your body clock. Oxford University Press, Oxford, United Kingdom
20. Bowlby Sifton C. Setting up surroundings for success and safety. Alzheimer’s Care Today 2007;8(3):286
21. Gitlin L. Guidelines for environmental adaptations and safety at home. Alzheimer’s Care Today 2007;8(3):278-281
22. Marx L, Haschka B, Schnur P. Mehr Lux – mehr Wohlbefinden. Die richtige Beleuchtung hat positiven Einfluss auf demente Bewohner. Altenheim 2002;41(5):57-58,60-61
23. van Hoof J, Kort HSM, Duijnstee MSH, Schoutens AMC, Hensen JLM, Begemann SHA (2008) The indoor environment in relation to people with dementia. In: Strøm-Tejsen P, Olesen BW, Wargocki P, Zukowska D, Toftum J, editors. Indoor Air 2008: Proceedings of the 11th International Conference on Indoor Air Quality and Climate. Copenhagen, Denmark. paper ID: 64
24. Calkins MP. Environments for late-stage dementia. Alzheimer's Care Quarterly 2005;6(1):71-75 25. Hughes PC, Neer RM. Lighting for the elderly: a psychobiological approach to lighting. Human
Factors 1981;23(1):65-85 26. Abbott A. Restless nights, listless days. Nature 2003;245(6961):896-898 27. van Hoof J, Aarts MPJ, Rense CG, Schoutens AMC. Ambient bright light in dementia: effects on
behaviour and circadian rhythmicity. Building and Environment 2009;44(1):146-155 28. Aarts MPJ, Westerlaken AC. Field study of visual and biological light conditions of
independently-living elderly people. Gerontechnology 2005;4(3):141-152 29. van Hoof J. Forty years of Fanger’s model of thermal comfort: comfort for all? Indoor Air
2008;18(3):182-201 30. van Hoof J, Hensen JLM. Thermal comfort and older adults. Gerontechnology 2006;4(4):223-
228 31. Hagen I, Holthe T, Gilliard J, Topo P, Cahill S, Begly E, Jones K, Duff P, Macijauskiene J,
Budraitiene A, Bjørneby S, Engedal K. Development of a protocol for the assessment of assistive aids for people with dementia. Dementia 2004;3(3):281-296
32. Mann WC (2003) Assistive technology. In: Charness N, Schaie KW, editors. Impact of technology on successful aging. Springer Publishing Company, New York, NY, USA. pp 177-187
33. Bjørneby S, Topo P, Cahill S, Begley E, Jones K, Hagen I, Macijauskiene J, Holthe T. Ethical considerations in the ENABLE Project. Dementia 2004;3(3):297-312
34. Orpwood R, Bjørneby S, Hagen I, Mäki O, Faulkner R, Topo P. User Involvement in Dementia Product Development. Dementia 2004;3(3):263-279
35. Adlam T, Faulkner R, Orpwood R, Jones K, Macijauskiene J, Budraitiene A. The installation and support of internationally distributed equipment for people with dementia. IEEE Transactions on Information Technology in Biomedicine 2004;8(3):253-257
36. Lauriks S, Reinersmann A, van der Roest HG, Meiland FJM, Davies RJ, Moelaert F, Mulvenna MD, Nugent CD, Dröes RM. Review of ICT-based services for identified unmet needs in people with dementia. Ageing Research Reviews, 2007;6(3):223-246
37. Braudy Harris P. The experience of living alone with early stage Alzheimer’s disease. What are the person’s concerns? Alzheimer’s Care Quarterly 2006;7(2):84-94
38. van Hoof J, Kort HSM, Markopoulos P, Soede M. Ambient intelligence, ethics and privacy. Gerontechnology 2007;6(3):155-163
39. Bjørneby S, Topo P, Holthe T, editors (1999) Technology, ethics and dementia: A guidebook on how to apply technology in dementia care. Norwegian Centre for Dementia Research, Oslo, Norway
40. van Berlo A. Ethics in domotics. Gerontechnology 2005;3(3):170 41. Leikas J, Salo J, Poramo R (1998) Security alarm system supports independent living of
demented persons. In: Graafmans J, Taipale V, Charness N, editors. Gerontechnology; A sustainable investment in the future. IOS Press, Amsterdam, The Netherlands. pp 402-405
42. Cohen U, Day K (1993) Contemporary environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
43. Gitlin LN, Corcoran M. Making homes safer: Environmental adaptations for people with dementia. Alzheimer's Care Quarterly 2000;1(1):50-58
44. Diaz Moore K, Geboy LD, Weisman GD (2006) Designing a Better Day. Guidelines for adults and dementia day services centres. The Johns Hopkins University Press, Baltimore, MD, USA
239
![Page 253: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/253.jpg)
45. de Boer AH, editor (2006) Rapportage ouderen 2006. Veranderingen in de leefsituatie en levensloop. Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch]
46. Sweep M, van Berlo A, Stoop H (1998) Technology for dementing persons: A relief for informal carers? In: Graafmans J, Taipale V, Charness N, editors. Gerontechnology; A sustainable investment in the future. IOS Press, Amsterdam, The Netherlands. pp 331-336
240
![Page 254: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/254.jpg)
11
General discussion
241
![Page 255: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/255.jpg)
242
![Page 256: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/256.jpg)
General discussion 1. Introduction In this dissertation, the contribution of various components of supportive housing facilities to the ageing-in-place of people with dementia was investigated in a number of ways. Successive chapters dealt with policy and practice in the domain of housing and family care, environmental interventions, aspects of the indoor environment and relevant building systems, as well as such technological solutions as home automation and ambient intelligence. These studies were followed up with a study describing the integration of the aforementioned components into a conceptual design of a home for people with dementia. In the following sections, we look at the benefits of integrated design of housing facilities for people with dementia in relation to goals set by society and individuals, namely, that a person with dementia should be able to age-in-place for as long as possible. 2. Reflection on findings The following sections deal with a discussion of (i) policy and practice; (ii) architectural solutions, including environmental interventions, the indoor environment, and building services; (iii) technological solutions, including ambient intelligence technologies; (v) the conceptual design of a home for people with dementia; and (v) issues concerning the implementation of solutions. These sections also include a discussion of future areas of research. 2.1. Policy and practice of housing and dementia care Chapter 2 examined the type of housing facilities in which people with dementia live in the various countries of the European Union and how family care is facilitated in, and related to, the type of housing facilities for older adults and for people with dementia, in particular. Contrary to popular belief, most people with dementia live at home instead of in institutional settings such as nursing homes. People with dementia are mainly cared for by relatives and not care professionals per se. As mentioned in the General Introduction (Chapter 1), adequate housing facilities for community-dwelling people with dementia and their carers are practically nonexistent. At the same time, new building-related developments seem only to be taking place in the field of small-scale group accommodation. The creation of homes that are supportive to people with dementia and their family carers demands new approaches and paradigm shifts within the domains of policy and practice. In the following sections, we examine more closely the state-of-the-art of policy practice in The Netherlands and in an international context. 2.1.1. The Netherlands In general, Dutch policies aim at creating a housing stock that allows for improved accessibility for people with impaired mobility1. In addition, policies stimulate the creation of small-scale group accommodation for older people with dementia2. The current provision of building-related environmental interventions, via the municipalities people live in, is insufficient for most people with dementia as the solutions offered mainly address impaired mobility or low vision. The own home environment of people with dementia is not extensively mentioned in policies although a supportive home is recognised to be of value to family carers3. This implies that there is room for improvement of services at the level of municipalities. Some of these improvements are outlined in §5.4. Another topic that receives a lot of attention from research institutes and, to a lesser degree, governments world-wide is health care technology and home automation for dementia care4,5. Here again, the main areas of application are small-scale group accommodation. Examples of how attention is created for technology and dementia on a national, provincial, and municipal level in The Netherlands are reflected by documents published by the Province of
243
![Page 257: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/257.jpg)
Gelderland6, Vilans7, the Municipal Health Service (Gemeentelijke Gezondheidsdienst, GGD) of Amsterdam in cooperation with the Vrije Universiteit of Amsterdam8, and the municipality of Amsterdam9, to name a few. The Dutch Healthcare Authority (Nederlandse Zorgautoriteit, NZa), the supervisory body for all the healthcare providers and insurers in The Netherlands, has formulated legislation for the use of technology in small-scale care for people with dementia (beleidsregel kleinschalig zorg voor dementerenden (CA-409)). In addition, The Netherlands Ministry of Health, Welfare and Sport (Ministerie van VWS) enables funding of the application of ICT and home automation technologies in small-scale care settings within the stimulation program for small-scale care. This funding consists of a reserve of 0.5 million for the years 2010 and 2011, respectively. Apart from NZa legislation, there is no structural legislation dealing with the application of technology in dementia care. At the same time, there are only a very small number of documents on home modifications, including Blom et al.10 and factsheets that can be downloaded from the website of the Dutch Alzheimer Society. The focus on technology means that environmental interventions, including home modifications, are not part of the solutions offered to people with dementia and their family carers, despite their importance to ageing-in-place. The role of the indoor environment and related building systems is not addressed at all by government policies. When receiving a needs assessment for care support or nursing home placement by a regional health care assessment centre (Centrum Indicatiestelling Zorg, CIZ‡‡‡), some centres include one’s ability to operate heating systems and thermostats. There is no structural approach to the indoor environment and building services to date. Nevertheless, the impact of lighting does get increased attention within the scientific domain in The Netherlands. When this knowledge gets transferred to society, this would be a first step to raising awareness in the community about the importance of lighting. The overall problem is again a matter of demand and supply. The exact demand of people with dementia and their family carers in relation to housing facilities, including architectural and technological solutions, has not been studied in great detail before, and to our knowledge, not in an integrated manner. As long as the demand is unknown, policy makers do not have adequate information to adjust or fine-tune the provision of services on the supply side. In addition, the supply of housing facilities is inadequately adjusted for habitation by people with dementia although initiatives as the mantelzorgwoning§§§ may provide some relief. Some of the gaps in what we know today may be solved when conducting new research in this field. Chapter 2 described the relation between dementia stages and housing conditions11,12. A re-evaluation of these findings may be desirable as they are about a quarter of a century old. In today’s society, persons are increasingly stimulated to age-in-place by national governments and receive support through dedicated assistive technologies and home automation services. In the near future there will be a shortage of professional carers as well as an increasing shortage of family carers, who have tended to become older themselves. Perhaps, new techniques, care support services, and environmental interventions have led to subtle shifts in the housing-related needs and actual housing conditions of people with dementia. Also, differences in adaptability and housing conditions between countries are an unexplored area, but may have serious implications to the implementation of research findings in practice. New homes may be more adaptable and thus flexible than older homes, which may have an impact on ageing-in-place in terms of costs of refurbishment and preparation time.
‡‡‡CIZ is a Dutch government institution, which determines the type of care people are entitled to within the framework of the Exceptional Medical Expenses Act. Municipalities can choose to have health care assessments and social-medical advice carried out by CIZ in relation to the Social Support Act. §§§The mantelzorgwoning or ‘informal care dwelling’ is a prefab dwelling that can be placed adjacent to the home of a person with special needs or of a family carer, and which is to be occupied by a person with special needs. Municipalities issue permits for placement, or buy the dwelling and rent it out to the person in need. These dwellings are not specifically designed for people with dementia. Family carers can have the person they care for nearby and at the same time have the privacy of the own home. Further investigation is needed in terms of the efficacy of such dwellings and the needs of the occupiers.
244
![Page 258: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/258.jpg)
2.1.2. International context The current policies and practices in The Netherlands are not in line with the recommendations by the United Nations13. The United Nations recognises the need for programmes to help people with dementia to live at home for as long as possible. Accessible and safe housing and living environments are among these services. Older persons are provided, where possible, with an adequate choice of where they live; a factor that needs to be built into policies and programmes. As long as the own home is not targeted more specifically by governments in policies and legislation pertaining to dementia care, adequate forms of housing cannot be offered to people with dementia. At the same time, this means that family carers are not supported in their care tasks through architectural and technological solutions. Directions to improve this situation are given in §5.4. A report issued by the Organisation for Economic Co-operation and Development (OECD) has pointed out a complicating factor to the successful policy and practice of aging-in-place for people with dementia. This OECD report on dementia14,p.20 states that “[d]ementia is a relatively new area of policy focus compared to many other of the diseases and conditions which impose a large burden on society. Few OECD countries have specific policies for the condition, [which are] frequently encompassed in wider policies and statements. In addition, discussions of policy issues are relatively rare in the research literature”. The omission of dementia from policies that deal with ageing-in-place or care support, may have serious consequences to the provision of adequate support and architectural and technological solutions in practice. In comparison to neighbouring countries, the policies in The Netherlands, at the national, provincial, and municipal levels are favourable. Policies already aim at supporting family carers and people with dementia in order to alleviate the burden of care and to allow older people with dementia to live in their own home longer. There is, however, room for improvement in the support of ageing-in-place. More should be done to develop the supply of architectural and technological solutions, which is still in its infancy stage, and, at the same time, to have a more accurtate picture of the demand for such solutions. When dementia progresses to moderate or severe dementia the role of family carers in The Netherlands is not as self-evident as in Mediterranean countries, where there is a large institutional sector offering nursing home care to people with dementia with a high demand for care. This can lead to certain expectations among relatives in relation to the type and quantity of support they wish to receive, which cannot be delivered from public means. 2.2. Architectural solutions This dissertation has identified and studied the contribution of various architectural solutions to support ageing-in-place for people with dementia. Chapter 3 identified a large number of environmental interventions, along with design principles, that can be adopted and implemented to assist people with dementia in supporting activities of daily living and functions. Moreover, environmental interventions, including widened doors and roll-in showers, contribute to care support at home. However, there are issues concerning the effectiveness of these design principles and environmental interventions. These issues focus on the evidence supporting the principles and the interventions. A special role in creating supportive housing facilities is played by the indoor environment as is shown in Chapter 4 to 7. A good indoor environment provides people with dementia with a sense of comfort and well-being, reduces the occurrence of behavioural problems, and offers support to family carers. All the indoor environmental parameters are dependent on both indoor and outdoor parameters, as well as interactions with the building structure. When taking a closer look at the indoor climate and light, building services (technologies that are treated as architectural solutions in this dissertation) contribute actively to controlling these phenomena. Due to their underlying pathology, people with dementia may have a different perception of the indoor environment compared to other older adults. Moreover, dementia puts constraints on the design of environmental controls such as thermostats. It is important to provide comfortable housing to older adults with dementia as they are known to spend so much time indoors. Chapter 6 and 7 studied the application of lighting systems to improve behaviour and circadian rhythmicity. We will take a closer look at what the possibilities of such systems are for future health care applications.
245
![Page 259: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/259.jpg)
2.2.1. Support by evidence-based solutions As mentioned before in this dissertation, Cohen and Day15,pp.8-9 state that guidelines for the planning and design of environments for people with dementia “are best viewed not as inflexible directives, but as an attempt to expand and stimulate thinking on the relationships between dementia and design”. Guidelines, in their view, “are hypotheses amenable to, and requiring, implementation and validation”. Weisman16,p.168 states that the guidelines by Cohen and Weisman17 “might best be viewed as broad hypotheses or notions of best practice […] regarding what ought to make a difference in environments for people with dementia, at the same time, these guidelines were never viewed as universally applicable, in the way that traditional models of positivist science were directed toward the formulation of ultimately generalizable principles. The guidelines were meant to be precisely that – broad principles the application of which must be tempered by circumstances specific to individual dementia-care settings.” This dissertation has contributed to the identification of a large number of potentially supportive environmental interventions, including object modifications, task simplifications, home modifications, or assistive devices. These environmental interventions may contribute to the support of people with dementia and their family carers, although the precise effectiveness has not been studied in great detail before. In practice, family carers try out a large array of environmental interventions in order to facilitate their care of loved-ones or to assist the person with dementia with activities of daily living or certain functions as orientation and safety and security. Most of these interventions are low-tech and low in cost and can be implemented into the private home environment without much difficulty. Implementation by family carers can be based on two reasons. An environmental intervention may, in fact, be working, or a family carer adopts the intervention as a last resort without knowing whether an intervention is effective or not. A structural approach as suggested by Kort18 for allergen avoidance may be a helpful strategy to see whether this is the case. For a large-scale and evidence-based implementation of environmental interventions, which may go together with reimbursement by the state or insurers, we are merely at the start of a long process.The results of this dissertation can be the starting point for further research in order to strengthen the evidence base supporting the implementation of environmental interventions. It would be an interesting undertaking to make a nation-wide inventory amongst dementia family carers, as well as home care professionals, of personal interventions and strategies applied to adapt the home environment. This collection of solutions could be a valuable source of effective interventions and a way to gather practice-based evidence for large-scale implementation. The most promising interventions could then be tested for precise efficacy in a controlled study setting. 2.2.2. Specific interventions In relation to the findings in Chapter 3, it would be an interesting field of research to take a second look at the non-pharmacological Alzheimer’s treatment matrix (Table 1)19,20. This matrix shows treatment approaches related to the specific parts of the brain that are differentially affected by Alzheimer’s disease. These treatment approaches, in turn, require treatment actions. For instance, according to the matrix, the naturally mapped physical environment can promote safety and security and may reduce fear by directing cognition even without the person’s awareness. Even though the treatment approaches are not all connected to the home environment, one should examine per functional loss which environmental intervention may be helpful.
246
![Page 260: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/260.jpg)
Table 1. Non-pharmacological Alzheimer’s treatment matrix19,20. Treatment domain
Brain dysfunction
Functional loss Treatment approach
Naturally mapped environment
Parietal and occipital lobes
Lack of cognitive map and vision
How environment communicates to residents by speaking for itself/cueing.
Accepting residents’ frame of reference
Hippocampal complex
Being in the present, with no past or future
How we communicate to residents by participating in their definition of the situation.
ADL success assistance
Frontal lobe Loss of executive function –ability to sequence tasks– and motor function
How we approach ADLs to create independence and enhance mood. The way they are done is as important as getting them accomplished.
Therapeutic activities
Frontal lobe Loss of impulse control and social norms
How we therapeutically structure activities to increase relationships, belonging to the group and individuation.
Multiple communication modalities
Anterior and medial temporal lobes
Loss of language and detailed memory
How we link into the way residents perceive, feel, and process information to enhance whatever types of memory are preserved.
Self-control behaviours
Frontal lobe Loss of ability to place meaning and reality –no ability to soothe themselves
Strategies to avoid negative behaviours (agitation, confusion, hallucination), to react positively to negative behaviours and to support positive behaviours.
As mentioned in the General Introduction (Chapter 1), van der Flier21 states that the term Alzheimer’s disease suggests an unjust specificity regarding the cause of dementia. In the majority of people with dementia, various underlying causes of dementia can be found per individual, including atrophy of various areas of the brain. Early detection of dementia using brain scans and other biomarker data is possible21,22. When dementia is detected in an early phase, as well as the specific areas of the brain that are damaged, it may be possible to implement a variety of environmental interventions to compensate for losses which are focused on the very specific health status of the person in question. Moreover, it may be possible to anticipate future changes in health. Also, environmental interventions and technologies can be implemented with full consent of the person in question in case of an early diagnosis. This is a positive development in terms of empowerment. The new approach would, however, require a great deal of new research that links building-related and technology-related solutions to specific areas of the brain that are damaged by a variety of causes of dementia. 2.2.3. The most promising aspects of the indoor environment The solutions in the domain of the indoor environment and related building systems described in Chapter 4 and 5 may be a first step towards evidence-based and integrated design of housing facilities for people with dementia. Of the four indoor environmental domains treated in this dissertation, light(ing) is the best understood and the most promising for future large-scale applications. As mentioned in Chapter 5, novel lighting applications are developed and applied to improve cognition, mood and behaviour, sleep, and vision. Vision can be improved by raising general illuminance levels and glare control. The economic benefits are thus visible for the relevant stakeholders although in practice not all older people with dementia have access to adequate lighting systems, nor are they sufficiently exposed to daylight. As the lighting community learns about fundamental research into the effects of light on biology, behaviour, and health, interest in potential lighting applications is growing23. There is a need for lighting applications that can be used at home. In practice, the luminaires tested in Chapters 6 and 7 are an
247
![Page 261: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/261.jpg)
example of expensive equipment used only in group settings. For this reason, it is likely that future research focussing on community-dwelling older adults will still be carried out in institutional group settings or assisted-living facilities, which may introduce a bias in research due to group effects and atmosphere. There is a need for ways to translate research results from institutional settings to the own home environment. Moreover, there is a need to study how to design lighting systems for application in both institutional settings and the own home environment. At present, there are no ready-made lighting solutions that can be installed and which expose older adults to adequate levels of lighting in an unobtrusive manner. Apart from the abovementioned challenges, there are serious difficulties associated with conducted blinded, randomised, and controlled studies when investigating the effects of lighting systems. When carrying out experiments using features of the home environment, blinded research is almost impossible. In the case of special lighting, it is also very difficult to offer true placebo-conditions as one can see differences between bright and dim light conditions and in colour temperature of the light. Nevertheless, placebo-like conditions are claimed in the literature to have been realised. The results of bright light therapy on managing sleep, behavioural, mood, and cognitive disturbances show preliminary positive signs, but there is a lack of adequate evidence obtained via RCTs to allow for a widespread implementation in the field24. At the same time, this emphasis on randomised and controlled studies distracts from another issue that should deserve the fullest attention possible in future studies: the exact description of lighting systems and exposure of subjects. There is a serious lack of adequate descriptions of light(ing) parameters and lighting equipment in the medical literature, in particular. This can be seen, for instance, in the type of lighting, spectral distribution, colour temperature, and distance of the person to the lighting application. Hardly any study conducted in the non-technological domains of science includes such detailed descriptions. Because of these methodological flaws, it is hardly possible to compare the outcomes of various studies as strictly taken from an engineering perspective; one does not know what kind of equipment has been used or to what levels and kind of light subjects have been exposed. In the lighting studies published in the medical literature, much emphasis is given on the lack of RCTs, whereas the ill-described lighting conditions are not mentioned. This prevents replication of the study and translation of results into practical lighting solutions. At the same time, it is important to acknowledge that lighting systems are not the panacea to all problems. For instance, it is important to go outside with a loved-one with dementia; not just to be exposed to high levels of daylight, but also for leisure and to breathe some fresh air. Even though lighting interventions may help people with dementia to improve circadian rhythmicity and perhaps sleep, there are more basic needs that need to be fulfilled in relation to supporting sleep. Tilly and Reed25 mention that regular sleep-wake cycles are important and should be encouraged by keeping bedding dry and ensuring that people with dementia are exposed to sufficient daylight. The impact of ventilation systems, the indoor air quality, the acoustical environment, and aspects of the indoor climate have been shown to influence the daily living of people with dementia, their behaviour and well-being. Still, these aspects are not as well-studied or well-understood as light and lighting. The economic benefits of accounting for these parameters are not yet clear. More research is, therefore, needed on how these aspects of the indoor environment support or hinder daily living, well-being and behaviour in both a positive and negative manner. Also, more research is needed on the thresholds for acceptance. The same type of qualitative study as suggested in §2.2.1, combined with home visits while making observations of the home environment, could be applied to find more evidence from practice on how people with dementia are affected by indoor environmental conditions and how they deal with related building systems. Such a study would be particularly interesting for the domains of air quality and ventilation, light and lighting, and noise. 2.3. Technological solutions Technology can play an important role in supporting the person with dementia either at home or in an institutional care setting. Technologies that support individuals can be described under many terms such as ‘smart technology’, ‘telecare’, and ‘assistive technology’26. The most elementary form of technology used for care purposes is formed by assistive aids and technologies such as wheelchairs and canes. Machine-based prompting is another way to
248
![Page 262: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/262.jpg)
assist people with dementia27,28. Although the technological solutions examnined in this dissertation mainly focus on ambient intelligence within the broad spectrum of technology, most persons in the community think of common daily household items when considering the use of technology at home. In Chapter 9, the study of the Unattended Autonomous Surveillance system, these household technologies were included and studied within the context of ambient assisted living. In Chapters 4 and 5, a closer look was taken at building services technologies, which are treated as part of the architectural solutions in this dissertation. The following paragraphs deal with the (i) the goals of technological solutions, and (ii) the ethical aspects of applying technology. 2.3.1. Goals of technology People with dementia use a wide variety of assistive devices and supportive technologies to help them with activities of daily living. These technologies, of which some can be classified as gerontechnology, may help compensate the effects of biological ageing. The main goals of technology are not necessarily the support of care alone. In this dissertation, technological solutions were studied using the combined framework of ICF and MIBD. The main goals of technological solutions in this dissertation were related to creating housing facilities that support ageing-in-place. This encompassed more than just the support of care at home. The gerontechnology taxonomy by van Bronswijk et al.29 shows that gerontechnology has five domains of application and four types of technology impact. Technology may thus have more benefits to older people with dementia. The application domains of the gerontechnology taxonomy include (i) health and self-esteem (“autonomy”), (ii) housing and daily living, (iii) mobility and transport, (iv) communication and governance, and (v) work and leisure. Technology impacts include (i) enhancement and satisfaction, (ii) prevention and engagement, (iii) compensation and assistance, and (iv) care support and organisation. This dissertation deals with the domain of housing and daily living, and, to a lesser degree, with health and self-esteem, and communication as in the study of the Unattended Autonomous Surveillance system. This means that there are still more domains of technology that are not studied in this dissertation. The taxonomy shows that care at home is an important application domain of technology. At the same time, persons want to lead a normal life and in the case of dementia, giving meaning to life is important, too. Technologies that assist with spending free time and leisure are such technologies30, which account not only for aspects of care and well-being, but also for needs stemming from daily living. When studying technological solutions for dementia, it would be of great value to focus on one domain or impact of the gerontechnology taxonomy. At the same time, one should give consideration to the other domains or impacts as one is studying a person’s life in its entirety. Current studies dealing with technology and dementia mainly focus on housing and daily living, with impacts studied compensation and assistance, and care support and organisation. 2.3.2. Ethical aspects of technology According to Martin et al.26, technological developments are happening rapidly, and new and exciting opportunities that can support people with dementia in their own home will present themselves. When looking at the use of technology within dementia care, including the technological solutions to support ageing-in-place, one cannot ignore the ethical questions that are being asked in relation to the application of new technologies such as ambient intelligence technologies31. In society, there is an ongoing debate on the ethical aspects of technology for dementia care, particularly of track-and-trace systems and electronic surveillance measures in and around the home. Issues include whether such systems may pose restrictions to, or even improve, freedom32-27. Even though ethical aspects of technology are not the main focus of this dissertation, these aspects are of great significance for practice. Especially within the domain of ambient intelligence technologies, questions related to ethics are relevant and challenging, and aspects of privacy are often mentioned simultaneously. In one of the most vigorous publications on this matter, Mahoney et al.38 mentioned that new questions are arising as home monitoring technologies are being increasingly tested for people with dementia.
249
![Page 263: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/263.jpg)
Questions asked by Mahoney et al.38,p.218 are: “What level of surveillance is helpful, and what infringes on personal dignity? Can automation maintain or improve human functioning without frustrating the user? At what point does reality become overwhelming to a person with cognitive impairment, and at what point does virtual reality become a comfort?” The studies presented in Chapters 8 and 9 have shown that these questions are indeed very relevant. The few respondents with psychogeriatric health conditions had difficulties understanding the Unattended Autonomous Surveillance system and its place within the support of care. Even among respondents without a psychogeriatric health condition, the Unattended Autonomous Surveillance system was not always considered to be an added value to daily living. Some respondents indicated that the system was a source of frustration or of feelings of being overwhelmed. More research, which is related to real technologies, is needed in the domain of ethics and technology for dementia. A relevant question is whether people with dementia can fully comprehend issues related to privacy and ethics and their implications, and are able to put these issues into perpective. Technology should always be applied to supplement or support care but not as a substitute. Therefore, the views and experiences of family carers are indispensible. 2.4. Conceptual design of a home for people with dementia Chapter 10 of this dissertation describes the conceptual design of a home for people with dementia and its design process. The design shows how, in newly designed and constructed dwellings, architectural and technological solutions can be incorporated. In practice, family carers could choose from the large number of solutions offered in the design of the dwelling and select those that are most fitting to their own housing situation (‘cherry picking’). There are, however, questions on how the conceptual design of a home for people with dementia can help when dementia progresses and how design results can be helpful for settings other than the home environment. These issues are elaborated in the following sections. 2.4.1. Features of the conceptual design The conceptual design of a home for people with dementia has shown how design features identified in this dissertation can be integrated into a single design. In practice, the design of real homes for people with dementia will not incorporate all features of the conceptual design as presented in Chapter 10 as theoretical and practical feasibility do not always form a perfect match. Instead, there are some positive features of the conceptual design that should at least be considered and incorporated in the design of new dwellings for people with dementia. These features are mentioned in the following paragraphs and reflect the most important architectural solutions incorporated into the conceptual design. First of all, the dwelling is situated on the ground floor level. This enables the occupants to use the garden and to enjoy what goes on out on the street. The layout of the dwelling is such that the home can be terraced horizontally and stacked vertically, which is important from the perspective of project developers. Moreover, routing in the home is important. Burton and Torrington39 mentioned that good circulation routes have a therapeutic role, providing space for dementia-related behaviour such as wandering and assisting in the problems of wayfinding and orientation that result from short-term memory loss. Routes should reveal the layout of buildings, with a clear hierarchy between public and private areas, delineated by changes in scale and lighting, and punctuated with recognisable landmarks. Ideally routes should be generously proportioned, allowing people to walk arm-in-arm in opposite directions. In the dementia-dwelling, parts of these problems are solved by the open character of the dwelling and its sightlines. Sightlines play an important role in finding rooms and facilities, for instance, locating the bathroom. A toilet, which is visible to a person with dementia, may help them remain more independent, may they may be more apt to use the toilet40-42. To be able to find the toilet easily is an important feature in the homes of people with dementia, as is a spacious, well-equipped bathroom that supports carers and minimises the risks of dangers. Related to these dangers associated with design problems are falls. Tilly and Reed25 came up with a variety of ways to modify the environment to help prevent falls, of which the majority
250
![Page 264: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/264.jpg)
have been incorporated into the conceptual design of a home for people with dementia. According to Tilly and Reed25, falls can be prevented by adjusting the height of the bed, wheelchair, and toilet to match a resident’s size and needs. All items in the home, including furniture, should be stable and strong because a person losing his or her balance will instinctively grab onto anything within reach. Furniture may be arranged in a manner that approximates the resident’s previous bedroom-to-bathroom path to enhance familiarity. Moreover, it is necessary to create and maintain a clear path to the bathroom. Nonslip floors, particularly in the bathroom and next to beds, will also help reduce fall risk25. These ways to prevent falls are important features of the conceptual design and can be incorporated into new dwellings without having to modify a home’s structure. Of the solutions mentioned above, those related to safety and fall incidents are the easiest to realise in both new and existing dwellings. The sightlines in, and routing of, an existing building are often difficult to adjust, whereas these features are easier to realise in new designs. Still, more awareness for these measures is needed in the community. However, people could arrange furniture inside a home to optimise sightlines and routing within an existing dwelling. 2.4.2. When dementia progresses Living in the home for people with dementia may become increasingly difficult as dementia and comorbidities become more severe even though specific environmental interventions and technologies have been incorporated into the design. Independence of the person with dementia, who is likely to receive help from a relative, can, to a small degree, be supported through design features and environmental interventions. Family carers of people with dementia often perform physically demanding tasks. If the home is not longer supportive, a family may no longer be able to cope with the strains of providing care to a loved-one. Woerner et al.43 looked at the advanced stages of dementia in relation to dementia care at home and concluded that families place their loved ones in nursing homes, believing that it is the only appropriate treatment setting for a bedbound person unable to care for him/herself. According to Woerner et al.43, the home care option is still appropriate if the family has the financial and emotional resources to work with the home care agencies. The appropriateness of a treatment setting in this phase depends on the particular needs of the family carer, who will retain supervision and control of the care if the person with dementia remains at home43. A specially designed home for people with dementia or the right set of environmental interventions may help family carers. The progress of dementia may go together with a number of consequences in terms of the conceptual design of a home for people with dementia. Pynoos et al.44 acknowledged the need to change an area that may no longer be working when dementia progresses. For instance, a carer may move out of the bedroom he or she has shared with the person if this sleeping arrangement interferes with sleep patterns. This would require an additional room, which is not part of the current design. Moreover, there is no area designated as a so-called panic room, quiet room, or timeout room. Also, a separate bathroom (toilet space) for visitors is not available in the current design, which may be a convenience desired by both visitors and occupants, as the private bathroom (with shower and bath) may be considered a private area. An important issue that should be discussed is the possibility that a family carer does not want to live in a dwelling that is designed and constructed with dementia in mind. The whole dwelling is designed to be supportive for people with dementia. Thus, all features of the home and its layout are based on compensating for impairments, supporting activities of daily living, and to stimulate participation. Even though the dwelling can look aesthetically attractive with these features, family carers may not be very satisfied with such a concept of living. 2.4.3. Evaluation of the conceptual design As with any design, the conceptual design of a home for people with dementia has room for improvement. The bandwidth for such improvements depends on financing and the availability of surface area. Also, the solutions mentioned and fine-tuned during the focus group sessions may not be complete, reflect the state-of-the-art, nor needs of the actual
251
![Page 265: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/265.jpg)
people with dementia. In general, evidence-based designs like the one presented in Chapter 10 are scarce. This is somewhat strange given the fact that such studies provide an enormously important insight into how housing facilities can be designed in compliance with user needs. Such designs also show people without experience in the domain of building how solutions look and work out at home. Related research requires the construction of mock-up dwellings and real dwellings that are inhabited by real occupants. The conceptual design of a home for people with dementia presented in Chapter 10 is based on literature study and focus group sessions. This design should be tested for two living situations: living with a partner or family carer and living alone. In this dissertation, the standard living condition of a person with dementia was living together with a partner. The design of the home and someones’s living career should therefore be reevaluated for situations where no family carer is present or available. In practice, there will be people with dementia living alone and who may be at risk of early institutionalisation. Another issue is whether a mock-up of the conceptual design of a home for people with dementia should be tested - in a future a study - with actual people with dementia and their family carers. Testing a mock-up would raise some ethical questions whether such an experiment could be conducted without causing stress or emotional effects for a person with dementia, or without placing an additional burden on the family carers involved. 2.4.4. Applying solutions in other settings Of course, the own home, assisted-living facilities, special care units and the small-scale group accommodations are not the only settings in which special design features and environmental interventions can be applied. Green care farms45, and even office buildings46 may be settings where design of the environment may impact the well-being of people with dementia. Providing equitable building access for the disabled is a complex and ongoing global issue with the scope of controlling legislation and building standards varying according to each country’s understanding and/or acceptance of the issue47. Castell47 already states that even though his study focuses on access for the intellectually disabled, the benefits of this research are likely to affect a much wider community including the aged, those with dementia, and other aged citizens who simply find accessing buildings an unnecessarily difficult task. The results of this dissertation may, in turn, have benefits for persons with an intellectual or mental disability, as well as for other groups with special needs. 2.5. Implementation of architectural and technological solutions Whether people with dementia and their family carers can actually make use of architectural and technological solutions depends on whether these solutions are available to them, and whether these solutions can be implemented into the home environment. This depends on policies, culture, and financial capacities. 2.5.1. Policy and culture Chapter 2 has shown that implementation of research findings in practice is challenged by the large differences in the European Union between the way environmental interventions are financed and the way family carers are supported. This depends on the country’s care regime and housing policies. Cultural values and the national building codes and practices, furthermore, impact the quality and quantity of environmental interventions that are carried out in the homes of people with dementia. In countries where relatives play a large part in care for a loved-one, also when dementia progresses to an advanced phase, there may be a different need for building-related solutions. Policies and legislation should facilitate the implementation of both architectural and technological solutions. Moreover, the science and art of building is characterised by a strong local or national tradition. What works or is appreciated in one country, may be rejected in another. This also implies that design features incorporated in the conceptual design of a home for people with dementia may not always be the most favourable solution in practice. A good example is the use of carpet in bathrooms, which is a common feature in Anglo-Saxon nations, but not in mainland Europe. Crawl spaces, which are a common feature in dwellings in The Netherlands, can be used for relocating ducts and wires. In other countries, such crawl spaces may not be present. There are many more of these examples, which influence the adaptability of a dwelling.
252
![Page 266: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/266.jpg)
The incorporation of architectural and technological solutions into existing homes is complicated and depends greatly on the type of intervention. Structural adaptations are most challenging, whereas task simplifications are often easy to implement. Also, current building regulations such as the Dutch Building Code (Bouwbesluit) may hamper implementing environmental interventions as are included in the conceptual design of a home for people with dementia. In general, builders choose the minimum design option recommended by standards and building codes. This can be seen, for example, in the case of the width of doors or the positioning of a small hallway in front of the a bathroom’s entrance door. Another example is that designers are not free to choose where to position the meter cupboard. 2.5.2. Adaptability of existing dwellings Charness and Holley48,p.S69 mentioned that “[f]or most persons with early-stage Alzheimer’s disease [the home] will initially be his or her current home, be it a house or apartment. Such dwellings certainly permit the sense of familiarity, but whether the other criteria can be satisfied will depend a great deal on being able to retrofit the dwelling and train the [family carers and additional care professionals]”. Given that the vast majority of people with dementia are residing in an existing home, this means that being able to retrofit is a major challenge when implementing large home modifications. At the same time, with the right support and information, family carers should be able to implement the much smaller and cheaper or less costly interventions as identified in Chapter 3. Such interventions include mainly task simplications and small object modifications. Coons49 has observed that when building new small-scale group accommodation, designers can account for cognitive deficits of the occupants. When having to retrofit their own home, occupants often find themselves limited in options due to the structure of the dwelling. One simply cannot go and ‘demolish’ your dwelling. In short, one could say that in cases of new construction, it is possible to implement design features more rigorously than in existing buildings. However, Woerner et al.43 concluded that the home is significantly more adaptable to dementia care than institutional settings (Chapter 10). The statement by Coons49 that the structure of the dwelling may limit options for implementing adaptations is also acknowledged by de Klerk50. According to Lansley et al.51,52, the adaptability of properties varies according to many design features and the needs of occupants, including the needs that stem from impairments and morbidities. Most adaptable are ground floor flats and bungalows, a type of housing found among the respondents living in assisted-living and in apartments. McCreadie and Tinker53 wrote about home modifications that are carried out to facilitate the use of assistive technology. In The Netherlands, there are about 20,000 older adults who cannot climb stairs, but nevertheless live in a home with an exterior stairway50. It follows that these persons cannot leave the home independently. Of all older adults with severe impairments, about 100,000 (one third) live in a regular unmodified dwelling with stairs50. Also, a home’s monument status can influence whether it is desirable to modify a dwelling, such as when original details have to be demolished. Carrying out modifications or installing new technologies can be a stressful event. Warner54 states that construction work requires workers to be in a home for several days, and that getting work done as early as possible means the stress can be better managed. If big home modifications are carried out early, small and gradual modifications can be completed later. Mace and Rabins55 explicitly state that one has to plan ahead for increasing impairment since the person can decline without realising this increased risk. Also, it is important to keep emphasising the remaining competencies and self-value56, instead of focusing on lost competencies. This can be directly linked to the implementation of environmental interventions, which should be supportive and non-stigmatising. In §2.2.2, we preluded an even earlier implementation of environmental interventions in relation to advances in medical sciences, with emphasis on brain scans and biomarkers. 2.5.3. Financial aspects Apart from the lack of information and the adverse effects caused by stress, financial matters play a role in the range of opportunities in which the implementation of architectural and technological solutions is possible. These financial issues in part determine the effectiveness of the implementation process.
253
![Page 267: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/267.jpg)
If people with dementia were able to age-in-place instead of living in an institutional setting, it would result in a reduction of costs for society. For The Netherlands, this would mean that € 6,000 to € 16,000 (2004 price level) could be saved per person per annum depending on individual health status57. The costs of informal care in 2005 were an estimated € 4,700 per person with dementia per annum, whereas the direct costs of dementia care were about € 14,200 per person with dementia per annum. The costs per person can vary considerably, even within the more developed countries when considering the net domestic purchase power. According to van den Brink-Muinen et al.58, assistive aids and home modifications (including their purchase maintenance, repairs, or insurance) pose a huge financial burden for the person needing them. In a survey on housing59 held among informal carers (n=174) in The Netherlands, it was found that there are many problems concerning housing in relation to family care. Municipalities in The Netherlands often only reimburse the first round of home modifications, as is outlined in §5.4. As dementia is a syndrome that progresses over time, there may come a time that people are in need of a second round of home modifications or require additional assistive technologies. Financial costs can be substantial: not only due to costs of the modifications but also via taxation of real estate that depends on the value of a home. A modified home is considered to be worth more than a non-modified dwelling. This is considered as a second handicap after caring for a disabled relative. At the same time rent-allowances may be lowered due to taxation. The use of seemingly low-tech household technologies has been the focus of international projects as TED, ASTRID, INDEPENDENT, and ENABLE. Therefore, these technologies were only a minor part of this dissertation. By funding these international projects, the European Commission has played an important role in the development of knowledge and the demonstration of the effects of using technology within dementia care at home60. Duff and Dolphin61 studied, within the context of the ENABLE project, if specially designed daily technologies for people with dementia are a worthwhile investment. The technologies they investigated cost between € 37 (the picture telephone) and € 1000 (the gas cooker monitor; € 400 when produced on a larger scale). Duff and Dolphin61 state that from the perspective of health authorities, these technologies do not require huge investments to purchase. Also, the many qualitative reports from both people with dementia and carers participating in the ENABLE project indicated that the technologies had a positive impact on the burden on family carers and the quality of life and independence of the people with dementia in the trials. The overall costs and benefits of the use of these technologies should be compared to costs of institutionalisation. At home, family carers deliver care seemingly ‘for free’ (Chapter 2 showed the costs of informal care), whereas in institutional settings, care professionals and housing come at a cost for society as a whole. From the INDEPENDENT project62,63, it was concluded that much assistive technology for people with dementia is primarily designed to improve safety and security or support independence. In practice, one should consider the financial aspects of applying a broad array of technologies in order to optimise costs and benefits. This is of importance if governments or insurers consider the reimbursement of technologies within the framework of care. Health economists should calculate how much can be saved for society when people with dementia are supported by architectural and technological solutions to age-in-place; how much investments are needed and which environmental interventions are most effective; and when homes are adapted, how much longer people can stay at home instead of being institutionalised. These questions are of great importance for implementing the findings from the dissertation into practice and for the reimbursement of measures by governments or insurance companies.
254
![Page 268: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/268.jpg)
3. Methodological limitations and challenges There are methodological limitations and challenges regarding the content of this dissertation that need to be discussed. Various methodologies were used due to the interdisciplinary character of the research questions and research angles. The main innovation of this dissertation derives from the fact that a building-related problem has been studied using a large number of methodologies that are applied within health care sciences. This section deals with an overview of the methodological strengths and weaknesses of the various methods and shows how quesions of validity and reliability have been dealt with. 3.1. Focus groups For the conceptual design of a home for people with dementia and the identification of environmental interventions, focus group sessions were held. During these sessions, representatives of various patient organisations and organisations for the aged with expertise from the field of care and home modifications gave feedback on a preliminary design and made suggestions to possible environmental interventions. Dahlin Ivanoff and Hultberg64 have discussed the use of focus groups. During focus group sessions, people interact with each other. According to Dahlin Ivanoff and Hultberg64, interaction is a crucial feature of focus groups as they are meant to reveal the reality of the target group and provide a view of how members of the target group think and talk. New knowledge can develop in a trusting and non-judgemental environment. In the case of the conceptual design of a home for people with dementia study, the members were invited to be critical about the design. This, however, did not influence the designers’ attitudes towards these focus group members. The environment that was created during the sessions was permissive and non-judgemental. At the same time, working with focus groups depends heavily on the selection made of the members, and their views may not reflect the full width of possibilities available to incorporate into a design. In order to maximise the usefulness of the data, people with dementia or their relatives were consulted indirectly via a representative of the Dutch Alzheimer Society. This representative discussed the design, during a number of ‘Alzheimer Café’ sessions in The Netherlands, with people with dementia and their partners and brought the feedback to the focus group sessions. 3.2. Clinical-controlled trials and field research Tilly and Reed65 concluded that only a few studies involve randomised-controlled trials (RCTs), which are the “gold standard” of scientific research concerning interventions. Running RCTs is quite difficult and may not be desirable in assisted living and nursing homes for several reasons. Randomisation of residents is not feasible if staff are part of the treatment process because any training or intervention staff use will likely affect how they care for all residents. In addition, an intervention for one nursing home resident may affect another, who might be serving as a control. Therefore, randomisation may need to be conducted at the facility level rather than at the individual level. Thus, even if RCTs are assumed to be the optimal method, they may not be always feasible, and it may be difficult to find accessible and comparable controls. For these reasons, the lighting intervention studies (Chapters 6 and 7) were clinical-controlled trials, making use of two existing groups of residents. These two studies were conducted in a group living room/day care activity room in an institutional setting (not in the private rooms) although the emphasis of this dissertation lies in ageing-in-place and the own home environment. This approach can be explained from two perspectives: (1) the hypothesised effects are easier to study in group settings rather than at home (the frequency of sampling data on measurement days, and the need to observe persons over-time), and (2) the two studies made use of expensive equipment that would pose serious limitations to conducting the studies at home. In the lighting intervention studies, control groups were adopted in the same nursing home, but experiments were carried out in another room. Woods66 calls this a sensible approach where there is a risk of ‘contamination’ between intervention and control groups, as there would be if, say, environmental changes were being introduced in a ward where randomisation of subjects would not be practical. This would have been the case in relation to the administering of light. It needs to be mentioned, as does Woods66,p.102, that “[m]ethodologically, RCTs are not the answer to all the complex issues of evaluation. Series
255
![Page 269: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/269.jpg)
of consecutive single cases, with treatment failures reported as well as successes, will continue to be valuable.” Testing in group settings may, however, introduce confounding factors related to the environment and atmosphere. As persons in psychogeriatric wards of nursing homes may live there because of somatic and/or psychogeriatric health reasons and also because of family and social reasons, the results of the study may well be valid for the home environment too. However, for the design and implementation of lighting applications at home, more research is needed. For instance, smaller, more user-friendly and cheaper lighting equipment needs to be developed for use at home based on the studies carried out in group settings. 3.3. Inclusion of studies in literature review When conducting a literature study, it is important that sources included are of a high standard. The base of evidence regarding environmental interventions has been subject to numerous discussions in terms of quality. O’Carroll67,p.105 came to the sobering conclusion that the evidence base in the domain of housing facilities for dementia is not sufficient to allow us to meaningfully guide policy and practice. “What is surprising is the relative dearth of large, adequately controlled treatment evaluations in this area. […] The sample sizes are small and therefore generalizations to the population at large must be made with extreme caution. Given that research in this area has been going on for many years, it is extremely surprising not to find a more substantial body of evidence.” Mitchell68,p.107 mentions that, as a practitioner in the field, one has an instinctive feeling that something is working. “You can see it on the faces of the group members, you can feel it in the atmosphere, you can capture it in people’s comments. However, when projects are small and struggling, it is difficult to envisage being part of a large intervention trial, for example, despite the belief one has in the quality of care. Schemes can fail and falter for a variety of reasons. Yet, as is stated in the paper, the single case study is a valid methodology.” Although the gathering of evidence is important, there seems to be a gap between the medical and technological/design approaches. In health care-related studies, evidence is always based on a wide range of substantial research outcomes. In design studies, a small number of subjects may be a broad enough basis to judge whether a design will work or not. In this fundamental difference may lie a gap in understanding between the two scientific domains. In this dissertation, small-scale studies were explicitly included, also because the number of studies available is small. As the area of research is still in development, grey literature was also included. 3.4. Including people with dementia The subjects included in Chapters 4,6,7 and 9were officially diagnosed with dementia by a practitioner or care professional. Therefore, no additional measures were included in this dissertation, such as MMSE (Mini-Mental State Examination)69 scores. As this dissertation deals with a largely unexplored phenomenon, views and experiences of people with dementia and their carers are of importance. As mentioned before, conducting research with people with dementia is not an easy task. From the perspective of validating the data, the qualitative data need to be confirmed or supplemented by loved-ones or even gathered among these family carers. The availability of data is thus directly influenced by the availability of family carers who want to join in research. At the same time, it is never sure whether the family carer can accurately reflect how a person with dementia feels or thinks. It is always a matter of interpretation. Also in the data used for the secondary analysis of thermal aspects (Chapter 4), the perspective of the person with dementia is outlined by family carers.
256
![Page 270: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/270.jpg)
4. Combined framework of ICF-MIBD The contents of this dissertation is structured and presented using a combination of two existing frameworks: (i) the International Classification of Functioning, Disability and Health (ICF) with its basis in health sciences, and (ii) the Model of Integrated Building Design by Rutten, that has its origins in building sciences. One of the questions related to the combined framework was to investigate the added value of the combined framework of the ICF-MIBD for analysis and evaluation, as well as design, and to come up with potential improvements to this framework. Moreover, the combined framework can be used to identify directions for further research in the field of ageing-in-place for people with dementia. 4.1. Improvements As the combined framework was created for this dissertation, the model had not been fully validated, for instance, via method triangulation. The use of the combined framework in the preceding chapters provides room for further improvement. Some of these improvements have been incorporated into the framework during the course of this study. For instance, Chapters 4 and 5 are based on an older version of the ICF-MIBD framework. Chapter 2 and Chapter 8 have shown the need for inclusion of legislation and policies, see also Rutten70. Therefore, the latest model included in this dissertation does account for legislation and policies as an area of importance when analysing, evaluating and designing buildings (Figure 1). A second improvement is related to the six S’s included in the MIBD part of the combined framework: stuff, space-plan, services, skin, structure, and site71. In order to be fully capable of analysing health care environments, the inclusion of a seventh S may be necessary, namely, assistive technologies (‘S’istive technology). This type of technologies cannot be categorised as stuff or as services, but does play an important part in the daily functioning of persons with special needs. Another option would be to include a special category for Smart technologies, such as the Unattended Autonomous Surveillance system and Internet applications for people with dementia and their family carers (§5.1). Some of these systems may qualify as stuff or services too, but are of a different kind. In the domain of dementia care settings, the Integrated Model of Place (IMP) by Calkins72 is a model which presents a systemic conceptualisation of the physical and social environments. This model may serve as a basis for future research on care settings for people with dementia, and is based on earlier work by Weisman et al.73. The IMP may provide a more comprehensive overview to how the whole care setting should be structured. The concept of place, on which the model is based, can serve as an organising principle for understanding multiple dimensions of a setting. The IMP identifies four distinct dimensions of the special care unit environment; (i) people with dementia, (ii) the social context, (iii) the physical environment, and (iv) the organisational context72. Moreover, the model recognises the historical and larger cultural, societal influences at various levels: micro, meso/exo, and macro. The microsystem relates to the complex set of relations that exist between an individual and an immediate setting. The mesosystem includes the interrelations among the major settings and individual experiences at a given period of life. The exosystem is an extension of the mesosystem, which embraces other social structures, both formal and informal, that impinge on the settings. Finally, the macrosystem refers to general prototypes or cultural and societal influences on structures and settings72. For this dissertation, the IMP has not been used as a leading model for structuring and retrieving information. The combined framework of ICF-MIBD is better equipped for application to the domain of the own home (which are not group settings and has a different organisational context), and has a more in depth approach to what a building consists of and what performances a building should deliver to its users. The strengths of of both models may be combined in order to provide a basis for further research, for instance, in terms of the distinction between micro, meso/exo, and macro systems in achieving therapeutic outcomes.
257
![Page 271: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/271.jpg)
Health condition (disorder/disease)
Personal factors
Participation (restrictions)
Body functions and structures (impairments)
Activities (limitations)
Housing
Combined Framework of ICF-MIBD
Environmental factors
Building system Value - DomainPerformanceTotal design
Stuff
Site
Structure
Skin
Services
Space-plan
safety & securityhealth & comfortambiance / shelter
initial costsoperational costs
changeabilityadaptability
energy & water usematerial usage
emissions / waste
aestheticscompliance with laws
production supportreliability
Basic valueindividual
Economic valueowner
Strategic valuepotential users
Ecological valueglobal community
Local valuecommunity
Functional valueorganisation
LegislationPolicies
Figure 1. The combined framework showing the domains studied in this dissertation (in red). The domains that were not studied in this dissertation are studied by others (site) or are areas for further research (local, ecological and strategic values). 4.2. Areas of future research The ICF-MIBD framework can be used to structure and retrieve information, and thus expose domains for further research. The content of the studies in this dissertation has been shown graphically at the start of each chapter using the combined framework. When superimposing these areas (Figure 1), it becomes clear that within the area of the MIBD, five of Brand’s six building systems have been covered, apart from site. The specific focus of this dissertation was on housing facilities and their interior, not outdoor spaces, outdoor life, and even technology for outdoor use74-78, nor the design of institutional therapeutic or healing wander gardens, and the use of (non-poisonous) plants and nature in buildings79-99, all of which are shown to have a positive impact on the quality of life of older people with dementia when designed/applied appropriately100. Furthermore, all performances have been dealt with apart from “energy, water, material use, waste and emissions”. Three of the value domains have not been studied, namely the local, ecological, and strategic value. These domains may be studied in more detail in continuing research. Also the economic value should be studied in greater depth, particularly in relation
258
![Page 272: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/272.jpg)
to how large the financial benefits of ageing-in-place and environmental interventions can be for people with dementia, their family carers, and society as a whole. Apart from the current focus of the impact of housing on activities and limitations, the applicability of the combined framework for investigating the impact of housing on participation and restrictions found in older people with dementia deserves more attention in future studies. Some of the issues related to social participation emerged during the interviews conducted for the Unattended Autonomous Surveillance study (Chapter 9), such as the desire to remain living within the current community and social interaction with relatives and neighbours. 5. Implications for society The outcomes of this dissertation are expected to open up an innovative, integrated, and demand-driven view to the design and analysis and evaluation of housing facilities for older adults with dementia, which should support ageing-in-place and support family carers. Unfortunately, such supportive housing facilities for older adults with dementia do not exist to date, apart from a few demonstration projects. Cooperation between health care and building sectors should therefore be stimulated in order for professionals to develop a new paradigm of dealing with the design and evaluation of buildings. In addition, a further development of the chosen approach can lead to an improvement in the technological capabilities of the health care sector, as well as the technological sector and policy makers. The following groups are considered: People with dementia and their family carers; Professional carers; Designers and contractors; Policy makers and civil servants. 5.1. People with dementia and their family carers The Health Council of The Netherlands (Gezondheidsraad)3 stated that education and information, and emotional, practical, and social support are part of a wide array of means for support intended to diminish the burden on family carers. Whether these activities are effective cannot be concluded based on available data, but neither can it be rejected. It is hoped that the contents of this dissertation can be used to support both people with dementia and their family carers and to empower them. This can be done through the increased capabilities of the municipalities responsible for the Social Support Act (Wet Maatschappelijke Ondersteuning, Wmo) (§5.4), patient organisations, Alzheimer Cafes, and other relevant institutions, as well as through popularised articles published in magazines for people with dementia and their partners. Moreover, a dedicated website for digital advice could also be used to inform about home modifications and other environmental interventions. The outcomes of this study can also be used to inform relevant stakeholders via an informative application on the worldwide web. Dementia family carers increasingly turn to the Internet for information, advice and support101. There are online web tools, such as the COGKNOW project102, which help people with mild dementia to navigate their day. The improved computer skills of the younger generations hold the promise that they will be able to work with computers when they develop dementia. 5.2. Professional carers Professional carers are among the potential users of the knowledge developed in this dissertation. Particularly, home care professionals get questions on home modifications and assistive technologies during their work, and so information should be made available for informing and training. Professional carers should know where they can get answers to building-related questions from people with dementia and their family carers. In addition, they should know which building professional or installer could help the people with dementia in solving building-related questions. For this reason, the curriculums of health care education for occupational therapists or nursing students should include the dissemination of knowledge about environmental interventions, architectural and technological solutions. For instance, how such solutions may hinder or support the person with dementia.
259
![Page 273: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/273.jpg)
5.3. Designers and contractors As this dissertation deals with building-related solutions, building engineers, designers, and contractors will be among the main users of the results of this dissertation. These professionals will increasingly have to work on projects related to health care, for instance, the construction of assisted-living facilities and nursing homes, as well as retrofitting the own home of older adults. During their work, these professionals should be aware that working with and for people with dementia requires new approaches to the design and construction of dwellings and to the way work is carried out, for instance, the need to work in pairs. These special groups of customers are not just seemingly passive receptors of their surroundings and the indoor environment, but may actually respond to it in a very outspoken manner. Professionals should not just know how and what to design and construct, but also how to deal with people with dementia when working with or around them. Also, public housing associations may benefit from the results of this dissertation, particularly when these organisations have been tasked with building for persons with special needs. When older couples ask for help at their service desk, public housing associations may be better equipped to help and provide housing-related solutions. The lack of research that combines nursing sciences and building sciences in an integrated manner has implications to building practice. In building practice, the indoor environment and its quality are explicitly included in guidelines used when designing and constructing new (nursing) homes. At the same time, designers and contractors do not have access to knowledge on how to design and install for people with dementia, as this group of people is not explicity included in the aforementioned guidelines. As long as there are no suitable models or guidelines, the design and control of the indoor environment will have to rely on trial and error. At the same time, research projects can help to improve the capabilities of the technological sector. One of the studies included in this dissertation provided direct input for improvement of the Unattended Autonomous Surveillance system, and the way the system is installed and implemented in practice. The lighting studies (Chapters 6 and 7) can be used to improve lighting equipment and the installation thereof. But how does existing information on building, design, technology and dementia reach these professionals in the domain of technology? This may seem like an arduous task, but the sector has a large number of possibilities for the dissemination of knowledge. One of such initiatives is the Technology@Home Programme (Chapter 10). Within this programme, there is the intention to build a dwelling for people with dementia. Two other dwellings have been built to date (‘comfort and safety’, and ‘COPD and mobility’). These dwellings serve as demonstration projects to show how design features differ according to the various needs of older persons with certain health-related needs. Accounting for these needs, when designing homes or when installing technologies, calls for a paradigm shift in the domains of construction and technology. Apart from demonstration dwellings, which are erected in many parts of the world, information should be shared in a practical fashion via lectures at conferences and via publications on relevant websites and in professional journals. There are also methods to share information via software. Eriksson et al.103 presented a software prototype to support the planning process for adapting home and work environments for people with physical disabilities. The researchers found that it is possible to realise a planning tool for environmental adaptations, both regarding usability and technical efficiency. A similar tool, programmed for dementia-friendly design, may help to adapt homes for people with dementia. Last but not least, the combined framework of ICF-MIBD can be a valuable tool for the professional activities of designers and contractors when designing and building for people with special needs. The model enables them to link the needs of people with dementia and their family carers to real architectural and technological solutions that can be incorporated into the homes of these people. Also, hindrance or support of architectural and technological solutions will be disclosed. Moreover, the combined framework can be used to structure the evaluation of buildings and their performances, and to check whether a building meets the intended design criteria.
260
![Page 274: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/274.jpg)
5.4. Policy makers and civil servants There are a number of issues related to the way policy makers at the national level and civil servants at the municipal level are involved in the delivery of architectural and technological solutions. These issues are outlined in the following paragraphs. As the majority of people with dementia live at home (about 65-70%)3, the national government (Netherlands Ministry of Health, Welfare and Sport (Ministerie van VWS) and the Ministry of Housing, Spatial Planning and the Environment (Ministerie van VROM)) should also focus on the own home environment both from a societal point of view and from a financial point of view. Ageing-in-place is less costly than institutional care, but, as mentioned before, the way of funding is different. Ageing-in-place also means that care is financed from municipal means, whereas institutional care is financed by the State. This can, however, lead to political tension, particularly when the political leanings of ruling parties are considered, both on a national and on the municipal levels. In the near future, serious cuts in the budget of the Exceptional Medical Expenses Act (Algemene Wet Bijzondere Ziekekosten, AWBZ) and in the Social Support Act are foreseen given the economic and financial situation in The Netherlands. At present, people with dementia and their family carers do not get adequate help from the municipalities in The Netherlands in terms of implementing appropriate architectural and technological solutions to support ageing-in-place. Under the Dutch Social Support Act, municipalities in The Netherlands are responsible for setting up social support. The same act offers an opportunity to improve the service provision to citizens and clients. Civil servants advise persons in need about how to implement small home modifications to support older adults, or for persons with a disability and the chronically ill. Many solutions address impaired mobility or low vision. The knowledge available to civil servants about the needs of people with dementia and their family carers and the accompanying solutions is not sufficient. Based on the concepts discussed in this dissertation, people with dementia can then be addressed as a group with special needs who need more than just adaptations for impaired mobility. Also, on the municipal level, civil servants may use the outcomes of this dissertation to improve their capabilities and services. Nonetheless, municipalities are given large policy-related freedom in the implementation of the Social Support Act, which leads to substantial differences in how municipalities deal with the provision of home modifications and other environmental interventions. This limits the insight in the possibilities a given municipality offers to its inhabitants. Futhermore, the systems of reimbursement and financing are different all over the country. The current system of funding and reimbursement does not allow for more than one round of reimbursement (with a certain maximum) within a certain time frame in many municipalities. Considering the steady decline in functioning of a person with dementia, one may need multiple rounds of adaptations, and at the same time one should plan ahead for the gradually increasing impairment. A more equal approach nationwide may help people in need to get the information they are looking for and to get more equality in reimbursements. In addition, it needs to be noted that investments made within the domain of building and technology have positive financial outcomes in the domain of health care. 6. General conclusions The majority of people with dementia live in the community, which is referred to as ageing-in-place. There is a shortage in diversity and capacity of adequate dwellings to support ageing-in-place as dementia has severe consequences to how housing facilities should be designed. There are numerous architectural and technological solutions to support activities of daily living, increase safety and security and optimise well-being. Moreover, housing facilities should facilitate the care by family carers, who wish for additional support. This dissertation aimed to bridge the gap between demand and supply by examining the contribution of various aspects of housing facilities in relation to the needs of older adults with dementia and their family carers in order to support ageing-in-place. For the creation of an optimal fit between demand and supply, the following conclusions were drawn.
261
![Page 275: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/275.jpg)
In the European Union, living in the community is the most prevalent type of living condition for people with dementia. There are large differences in care regimes and housing policies in the European Union, which impact the way people with dementia live and how family care is related to the type of housing facility. The Netherlands is one of the countries in which national policies explicitly stimulate ageing-in-place for older adults in general, and where care support for family carers is facilitated on the level on municipalities. Unfortunately, this support does not adequately cover dementia-specific modifications to the home environment. Architectural and technological solutions for dementia are not offered in a structural way, which means that demand and supply do not yet match. A multitude of design principles and environmental interventions were identified, which can be applied in the homes of people with dementia to facilitate ageing-in-place, support orientation and memory, increase safety and security, and to support family carers with their daily tasks. Each intervention, whether it is an object modification, task simplification, home modification, or assistive device, provides a solution to a specific dementia-related problem. Most interventions in the home are related to improving safety and security, which is the main cause of concern for family carers. The indoor environment (indoor climate, light, air quality, and noise) and related building systems are found to have an important influence on the well-being of people with dementia. They may have an altered sensitivity for indoor environmental conditions compared to other older adults, which may be a cause of problematic behaviour and may have a negative effect on safety and security. Lighting interventions are among the most important interventions for future application to improve behaviour and circadian rhythmicity in people with dementia. The two lighting studies which are part of this dissertation showed that ambient bright light with a high colour temperature may lead to improvements in behavioural outcomes and circadian rhythmicity not seen in low colour temperature lighting conditions. Higher illuminance levels are a crucial factor in establishing successful light therapy. Furthermore, increasing colour temperature may add up to the effectiveness of lighting in improving behavioural outcomes and circadian rhythmicity. This dissertation shows that ambient intelligence technologies can contribute to an increase in safety and security among community-dwelling older adults and their family carers. People with dementia may have difficulty understanding the technology, which has implications to the way technology is designed and installed. The use of ambient intelligence technologies is not a substitute for adequate (care) support. Additional home modifications and assistive devices are also needed. In this dissertation, privacy-related issues and ethical dilemmas were not found to be a concern in practice. The conceptual design for the dwelling for people with dementia reflected the integration of the state-of-the-art of architectural and technological solutions. Such a dwelling can be an added value to family carers as a spouse with dementia is more independent, is being monitored and supported by technology, feels more comfortable, and expresses fewer problem behaviours. Moreover, this design can be used to stimulate thinking about dementia-friendly design, and when built, can serve as a tool for training and education. Ageing-in-place is possible for people with dementia by examining their care-based needs in relation to their home environments. To achieve this, architectural and technological solutions have been proposed in an integrated manner, which may also contribute to a lessened burden on family carers. Whether a modified dwelling is supportive in relation to ageing-in-place, and, if so, for how long, depends on the specific needs of people with dementia. There may come a time, as the dementia progresses, when architectural and technological solutions no longer offer support and institutionalisation becomes inevitable.
262
![Page 276: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/276.jpg)
References 1. van den Berg Jeths A, Timmermans JM, Hoeymans N, Woittiez IB (2004) Ouderen nu en in de
toekomst. RIVM, Bilthoven, The Netherlands [in Dutch] 2. Coalitieakkoord (2007) Coalitieakkoord tussen de Tweede Kamerfracties van CDA, PvdA en
ChristenUnie. February 7th 2007 [in Dutch] 3. Health Council of The Netherlands (2002) Dementia. Publication no. 2002/04. Health Council of
The Netherlands, The Hague, The Netherlands [in Dutch] 4. Topo P. Technology studies to meet the needs of people with dementia and their caregivers. A
literature review. Journal of Applied Gerontology 2009;28(1):5-37 5. Nijhof N, van Gemert-Pijnen JEWC, Dohmen D, Seydel ER. Dementie en technologie. Een
studie naar de toepassingen van techniek in de zorg voor mensen met dementie en hun mantelzorgers. Tijdschrift voor Gerontologie en Geriatrie 2009;40(3);113-132 [in Dutch]
6. Province of Gelderland (2009) Dementica. Tien projecten, tien verhalen over domotica voor dementerenden. Provincie Gelderland, Arnhem, The Netherlands [in Dutch]
7. van der Leeuw J (2009) Functioneel programma van eisen domotica voor kleinschalig wonen. Vilans, Utrecht, The Netherlands [in Dutch]
8. Lauriks S, Osté JP, Hertogh CMPM, Dröes RM (2008) Meer levenskwaliteit met domotica. Effectonderzoek naar de toepassing van domotica in kleinschalige groepswoningen voor mensen met dementie. GGD Amsterdam/EMGO Instituut/VU medisch centrum, Amsterdam, The Netherlands [in Dutch]
9. Municipality of Amsterdam (2009) Handig bij zelfstandig. Hulpmiddelengids veilig en zelfstandig wonen voor mensen met dementie. Gemeente Amsterdam, Dienst Zorg en Samenleven, Amsterdam, The Netherlands [in Dutch]
10. Blom M, Tjadens F, Withagen P (2000) Weten van vergeten. NIZW, Utrecht, The Netherlands [in Dutch]
11. Reisberg B. Dementia: a systematic approach to identifying reversible causes. Geriatrics 1986;41(4):30-46
12. de Graaff WJ, Hupkens PEM. Dementie als huisartsgeneeskundige opgave. Huisarts en Wetenschap 1985;28(Suppl H&P 9):25-29 [in Dutch]
13. United Nations (2002) Second World Assembly on Ageing. Madrid, Spain. 8-12 April 2002. Political Declaration and Madrid International Plan of Action on Ageing
14. Moise P, Schwarzinger M, Um M-Y, the Dementia Experts’ Group (2004) OECD health working papers no. 13. Dementia care in 9 OECD countries: A comparative analysis. OECD, Paris, France
15. Cohen U, Day K (1993) Contemporary environments for people with dementia. The Johns Hopkins University Press, Baltimore, MD, USA
16. Weisman GD (2003) Chapter 11. Creating places for people with dementia: An action research perspective. In: Schaie KW, Wahl H-W, Mollenkopf H, Oswald F, editors. Aging independently: Living arrangements and mobility. Springer, New York, NY, USA. pp 162-173
17. Cohen U, Weisman GD (1991) Holding on to home: Designing environments for people with dementia. The Johns Hopkins University Press Baltimore, MD, USA
18. Kort HSM (1994) A structured approach to allergen avoidance in dwellings with special emphasis on the ecosystem of humid indoor walls and room partitions. Dissertation. Eindhoven University of Technology, Eindhoven, The Netherlands
19. Zeisel J. Environmental design effects of Alzheimer symptoms in long term care residences. World Hospitals and Health Services 2000;36(3):27-31
20. Zeisel J, Raia P. Nonpharmacological treatment for Alzheimer’s disease: A mind-brain approach. American Journal of Alzheimer’s Disease and Other Dementias 2000;15(6):331-340
21. van der Flier WM (2004) MRI correlates of cognitive decline. Findings from the spectrum of normal aging to Alzheimer’s disease. Dissertation. Universiteit Leiden, Leiden, The Netherlands
22. Miller G. Alzheimer’s biomarker initiative hits its stride. Science 2009;326(5159):386-389 23. Veitch JA, Light, lighting, and health; Issues for consideration. LEUKOS 2005;2(2):85-96 24. Forbes D, Morgan DG, Bangma J, Peacock S, Pelletier N, Adamson J. Light therapy for
managing sleep, behaviour, and mood disturbances in dementia. Cochrane Database of Systematic Reviews 2004;(2):CD003946
25. Tilly J, Reed P. Dementia care practice recommendations for nursing homes and assisted living, Phase 2: Falls, Wandering, and Physical Restraints. Alzheimer’s Care Today 2008;9(1):51-59
26. Martin S, Cunningham C, Nugent C. Ethical considerations for integrating technology into community-based service models for adults with dementia. Alzheimer’s Care Today 2007;8(3):251-258
27. Mihailidis A, Carmichael B, Boger J. The use of computer vision in an intelligent environment to support aging-in-place, safety, and independence in the home. IEEE Transactions on Information in Biomedicine 2004;8(3):238-247
28. Bewernitz MW, Mann WC, Dasler P, Belchior P. Feasibilityof machine-based prompting to assist persons with dementia. Assistive Technology 2009;21(4):196-207
263
![Page 277: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/277.jpg)
29. van Bronswijk JEMH, Bouma H, Fozard JL. Technology for quality of life: an enriched taxonomy. Gerontechnology 2002;2(2):169-172
30. van Rijn H, van Hoof J, Stappers PJ. Designing leisure products for people with dementia: developing ‘the Chitchatters’ game. American Journal of Alzheimer’s Disease and Other Dementias 2010;25(1):74-89
31. Schuurman GJ, Moelaert-El-Hadidy F, Krom A, Walhout B (2007) Ambient Intelligence. Toekomst van de zorg of zorg van de toekomst? Rathenau Instituut, The Hague, The Netherlands [in Dutch]
32. Welsh S, Hassiotis A, O’Mahoney G, Deahl M. Big Brother is watching you – the ethical implications of electronic surveillance measures in the elderly with dementia and in adults with learning difficulties. Aging & Mental Health 2003;7(5):372-375
33. Margot-Cattin I, Nygård L. Access technology and dementia care: Influences on residents’ everyday lives in a secure unit. Scandinavian Journal of Occupational Therapy 2006;13(2):113-124
34. Hughes JC, Louw SJ. Electronic tagging of people with dementia who wander. British Medical Journal 2002;325(7369):847-848
35. McShane R, Hope T, Wilkinson J. Tracking patients who wander: ethics and technology. The Lancet 1994;343(8908):1274
36. Rasquin SMC, Willems C, de Vlieger S, Geers RPJ, Soede M. The use of technical devices to support outdoor mobility of dementia patients. Technology and Disability 2007;19(2-3):113-120
37. van der Leeuw J (2009) Cijfersloten en Zweedse banden kunnen weg! Nieuwe technologie vervangt fysieke vrijheidsbeperking in de zorg. Vilans, Utrecht, The Netherlands [in Dutch]
38. Mahoney DF, Purtillo RB, Webbe FM, Alwan M, Bharucha AJ, Adlam TD, Jimison HB, Turner B, Becker SA, for the Working Group on Technology of the Alzheimer’s Association. In-home monitoring of persons with dementia: Ethical guidelines for technology research and development. Alzheimer’s & Dementia 2007;3(3):217-226
39. Burton E, Torrington J. Designing environments suitable for older people. CME Journal Geriatric Medicine 2007;9(2):39-45
40. Zeisel J, Hyde J, Levkoff S. Best practices: An Environment-Behavior (E-B) model for Alzheimer special care units. The American Journal of Alzheimer’s Care and Related Disorders & Research 1994;9(2): 4-21
41. Namazi KH, DiNatale Johnson B. Environmental effects on incontinence problems in Alzheimer’s disease patients. The American Journal of Alzheimer’s Care and Related Disorders & Research 1991;6(6):16-21
42. Coulson I. The impact of the total environment in the care and management of dementia. The American Journal of Alzheimer’s Care and Related Disorders & Research 1993;8(3):18-25
43. Woerner L, Casper K. Alzheimer’s Care: A Home Health Model. The American Journal of Alzheimer’s Care and Research 1987;2(2):23-29
44. Pynoos J, Cohen E, Lucas C. Environmental coping strategies for Alzheimer’s caregivers. The American Journal of Alzheimer’s Care and Related Disorders & Research 1989;4(6):4-8
45. de Bruin SR (2009) Sowing in the autumn season. Exploring benefits of green care farms for dementia patients. Wageningen University, Wageningen, The Netherlands
46. McCabe L, Sim D. Working in a ‘dementia-friendly’ office: Stirling University’s Iris Murdoch Building. Design Studies 2006;27(5):615-632
47. Castell L. Building access for the intellectually disabled. Facilities 2008;26(3-4):117-130 48. Charness N, Holley P. Human factors and environmental support in Alzheimer’s disease. Aging
& Mental Health 2001;5(Supplement 1):S65-S73 49. Coons DH (1991) Activities and staff approaches: The impact on behaviors. In: Coons DH,
editor. Specialized dementia care units. The Johns Hopkins University Press Baltimore, MD, USA. pp 161-174
50. Klerk MMY, editor (2004) Zorg en wonen voor kwetsbare ouderen. Rapportage ouderen 2004. The Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch]
51. McCreadie C, Tinker A. The acceptability of assistance technology to older people. Ageing & Society 2005;25(1):91-110
52. Lansley P, McCreadie C, Tinker A. Can adapting the homes of older people and providing assistive technology pay its way? Age and Ageing 2004;33(6):571-576
53. Lansley P, Flanagan S, Goodacre K, Turner-Smith A, Cowan D. Assessing the adaptability of the existing homes of older people. Building and Environment 2005;40(7):949-963
54. Warner ML (2000) The complete guide to Alzheimer’s proofing your home. Revised and Updated Edition. Purdue University Press, West Lafayette, IN, USA
55. Mace NL, Rabins PV (2006) The 36-hour day. Fourth edition. The Johns Hopkins University Press, Baltimore, MD, USA
56. Steeman E, Godderis J, Grypdonck M, De Bal N, Dierckx de Casterlé B. Living with dementia from the perspective of older people: Is it a positive story? Aging & Mental Health 2007;11(2):119-130
264
![Page 278: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/278.jpg)
57. Kok LM, Brouwer NM, Sadiraj K, Stevens J, van Gameren E, Woittiez I (2004) Kosten en baten van extramuralisering. SCP-werkdocument 109. The Netherlands Institute for Social Research, The Hague, The Netherlands [in Dutch]
58. van den Brink-Muinen A, Spreeuwenberg P, Rijken PM (2007) Kerngegevens maatschappelijke situatie 2006, Nationaal panel chronisch zieken en gehandicapten. Nivel, Utrecht, The Netherlands [in Dutch]
59. van der Vlist A, Brokx L (2007) Mantelzorgers en hun woonwensen. Rapportage en 10 puntenplan naar aanleiding van de meldweek: “Hoe willen mantelzorgers wonen?” Mezzo, Bunnik, The Netherlands [in Dutch]
60. Hagen I. Technology in dementia care. Technology and Disability 2007;19(2-3):53-54 61. Duff P, Dolphin C. Cost-benefit analysis of assistive technology to support independence for
people with dementia – Part 2: Results from employing the ENABLE cost-benefit model in practice. Technology and Disability 2007;19(2-3):79-90
62. Orpwood R, Sixsmith A, Torrington J, Chadd J, Gibson G, Chalfont G. Designing technology to support quality of life of people with dementia. Technology and Disability 2007;19(2-3):103-112
63. Orpwood R, Chadd J, Howcroft D, Sixsmith A, Torrington J, Gibson G, Chalfont G. Designing technology to improve quality life for people with dementia: User-led approaches. Universal Access in the Information Society 2010;9(3):249-259
64. Dahlin Ivanoff S, Hultberg J. Understanding the multiple realities of everyday life: Basic assumptions in focus-group methodology. Scandinavian Journal of Occupational Therapy 2006;13(2):125-132
65. Tilly J, Reed P. Literature review. Intervention research on caring for people with dementia in assisted living and nursing homes. Alzheimer’s Care Today 2008;9(1):24-32
66. Woods B. Promoting well-being and independence for people with dementia. International Journal of Geriatric Psychiatry 1999;14(2):97-109
67. O’Carroll R. Commentary. International Journal of Geriatric Psychiatry 1999;14(2):105-107 68. Mitchell R. Commentary. International Journal of Geriatric Psychiatry 1999;14(2):107-109 69. Folstein MF, Folstein SE, McHugh PR. “Mini-mental state”: A practical method for grading the
cognitive state of patients for the clinician. Journal of Psychiatric Research 1975;12(3):189-198 70. Rutten PGS (1996) Strategisch bouwen. Eindhoven University of Technology, Eindhoven, The
Netherlands [in Dutch] 71. Brand S (1994) How buildings learn - What happens after they’re built. Viking-Penguin, New
York, NY, USA 72. Calkins MP. The physical and social environment of the person with Alzheimer’s disease. Aging
& Mental Health 2001;5(Supplement 1):S74-S78 73. Weisman G, Calkins M, Sloane P. The environmental context of special care. Alzheimer Disease
& Associated Disorders 1994;8(Supplement 1):S308-S320 74. Dewsbury G, Clarke K, Rouncefield M, Sommerville I, Taylor B, Edge M. Designing acceptable
‘smart’ home technology to support people in the home. Technology and Disability 2003;15(3):191-199
75. Ikonen-Graafmans TSK, Graafmans JAM. The barrier-free suburb of Marjala in Finland: The city for all – the Marjala Model. Technology and Disability 2003;15(3):201-214
76. Gibson G, Chalfont GE, Clarke PD, Torrington JM, Sixsmith AJ. Housing and connection to nature for people with dementia: Findings from the INDEPENDENT project. Journal of Housing for the Elderly 2007;21(1-2):55-72
77. Duggan S, Blackman T, Martyr A, van Schaik P. The impact of early dementia on outdoor life. A ‘shrinking’ world. Dementia 2008;7(2):191-204
78. Lang IA, Llewellyn DJ, Langa KM, Wallace RB, Melzer D. Neighbourhood deprivation and incident mobility disability in older adults. Age and Ageing 2008;37(4);403-410
79. Lovering MJ. Alzheimer's disease and outdoor space: Issues in environmental design. The American Journal of Alzheimer's Care and Related Disorders & Research 1990;5(3):33-40
80. Cohen U, Day K. Emerging trends in environments for people with dementia. The American Journal of Alzheimer’s Care and Related Disorders & Research 1994;9(1):3-11
81. Hoover RC. Healing gardens and Alzheimer’s disease. The American Journal of Alzheimer’s Disease 1995;10(2):1-9
82. Whall AL, Black ME, Groh CJ, Yankou DJ, Kupferschmid BJ, Foster NL. The effect of natural environments upon agitation and aggression in late stage dementia patients. American Journal of Alzheimer’s Disease 1997;12(5):216-220
83. Mather JA, Nemecek D, Oliver K. The effect of a walled garden on behavior of individuals with Alzheimer’s. American Journal of Alzheimer’s Disease 1997;12(6):252-257
84. Brawley EC. Environmental design for Alzheimer’s disease: A quality of life issue. Aging & Mental Health 2001;5(Supplement 1): S79-S83
85. Kamp D. Beyond the view. A collaborative approach in creating useful outdoor spaces for aging populations. Alzheimer’s Care Quarterly 2005;6(4):335-340
86. Chapman NJ, Hazen T, Noell-Waggoner E. Encouraging development and use of gardens by caregivers of people with dementia. Alzheimer’s Care Quarterly 2005;6(4):349-356
265
![Page 279: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/279.jpg)
87. Hernandez RO. Effects of therapeutic gardens in special care units for people with dementia: Two case studies. Journal of Housing for the Elderly 2007;21(1-2):117-152
88. Cohen-Mansfield J. Outdoor wandering parks for persons with dementia. Journal of Housing for the Elderly 2007;21(1-2):35-53
89. Schwarz B, Rodiek S. Introduction: Outdoor environments for people with dementia. Journal of Housing for the Elderly 2007;21(1-2):1-11
90. Brawley EC. Designing successful gardens and outdoor spaces for individuals with Alzheimer’s disease. Journal of Housing for the Elderly 2007;21(3-4):265-283
91. Chapman NJ, Hazen T, Noell-Waggoner E. Gardens for people with dementia: Increasing access to the natural environment for residents with Alzheimer’s. Journal of Housing for the Elderly 2007;21(3-4):249-263
92. Grant CF, Wineman JD. The Garden-Use Model- An environmental tool for increasing the use of outdoor space by residents with dementia in long-term care facilities. Journal of Housing for the Elderly 2007;21(1-2):89-115
93. Diaz Moore K. Restorative dementia gardens: Exploring how design may ameliorate attention fatigue. Journal of Housing for the Elderly 2007;21(1-2):73-88
94. Cooper Marcus C. Alzheimer's Garden Audit Tool. Journal of Housing for the Elderly 2007;21(1-2):179-191
95. Cooper Marcus C. Garden of the Family Life Center, Grand Rapids, Michigan. Journal of Housing for the Elderly 2007;21(3-4):285-304
96. Rappe E, Topo P. Contact with outdoor greenery can support competence among people with dementia. Journal of Housing for the Elderly 2007;21(3-4):229-248
97. Zeisel J. Creating a therapeutic garden that works for people living with Alzheimer's. Journal of Housing for the Elderly 2007;21(1-2):13-33
98. Detweiler MB, Murphy PF, Myers LC, Kim KY. Does a wander garden influence inappropriate behaviors in dementia residents? American Journal of Alzheimer’s Disease and Other Dementias 1998;23(1):31-45
99. Chalfont GE (2006) Connection to nature at the building edge: Towards a therapeutic architecture for dementia care environments. Dissertation. University of Sheffield, Sheffield, United Kingdom
100. Heath Y. Evaluating the effect of therapeutic gardens. American Journal of Alzheimer’s Disease and Other Dementias 2004;19(4):239-242
101. Anderson KA, Nikzad-Terhune KA, Gaugler JE. A systematic evaluation of online resources for dementia caregivers. Journal of Consumer Health on the Internet 2009;13(1):1-13
102. Dröes R-M., Mulvenna MD. Research vision: helping people with mild dementia navigate through their day. Journal of Dementia Care 2006;14(2):17
103. Eriksson J, Ek Å, Johansson G. Design and evaluation of a software prototype for participatory planning of environmental adaptations. IEEE Transactions on Rehabilitation Engineering 2000;8(1):94-106
266
![Page 280: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/280.jpg)
12
Summary Samenvatting Acknowledgements About the author
267
![Page 281: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/281.jpg)
268
![Page 282: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/282.jpg)
Summary Ageing-in-place The integrated design of housing facilities for people with dementia Introduction Ageing-in-place is the preferred way of living for older persons in an ageing society and can be facilitated through support for (instrumental) activities of daily living and support for physical activity. In addition, home in which older adults dwell can be modified in terms of architectural and technological solutions. Dementia syndrome poses additional challenges when designing, constructing or retrofitting housing facilities that support ageing-in-place. For instance, this is evident in relation to the support of (instrumental) activities of daily living, the creation of safe and secure living conditions, the optimisation of well-being, and the execution of care tasks. At present, there is a quantitative and qualitative shortage in the number of modified dwellings that support ageing-in-place in general, and for people with dementia, in particular. In order to solve the apparent gap between demand (i.e., the needs of people with dementia related to ageing-in-place) and supply (i.e., the supply of architectural and technological solutions to facilitate ageing-in-place), the domains of building and health care should cooperate more in the creation of such modified dwellings. Also, more research is needed on how housing facilities for people with dementia should be designed and built. This dissertation provides solutions to these challenges based on a theoretical and practical framework, which integrates the domains of building and health care. The research sets out to investigate the contribution of various aspects of housing facilities in relation to the needs of older adults with dementia and their family carers, in order to support ageing-in-place. Second, an integrated design for a home for people with dementia is proposed. In this dissertation housing facilities comprise architectural solutions, including the indoor environment and related building services, and emerging technological solutions, including ambient intelligence. Methodology An integrated approach, combining the domains of building and health care, was chosen for the research. This is reflected in the way the studies are structured and in the way that demand and supply are taken into account. A combined framework of the International Classification of Functioning, Disability and Health (ICF) by the World Health Organization, and the Model of Integrated Building Design (MIBD) by Rutten is used for structuring and retrieving information. Moreover, to investigate demand and supply, a combination of research methodologies has been chosen. Apart from literature study, these approaches include qualitative and quantitative research methodologies, such as interviews using topic lists, focus group sessions, observations of existing homes, behavioural observations using numerical scales and physiological measurements. Summary of investigations The first step in research was to examine more closely the type of housing facilities in which people with dementia live in the various countries of the European Union and how family care is related to the type of housing facilities for older adults, and for people with dementia in particular. The applicability and implementation of research findings, of which the majority stems from Anglo-Saxon countries, as well as a person’s living career, may differ from
269
![Page 283: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/283.jpg)
country to country in accordance with traditions and culture. Furthermore, political choices on a national level regarding ageing in place, dementia and ensuing legislation may also vary in this way. Thereafter, architectural and technological solutions were investigated. An overview was made of existing design principles and design goals, as well as environmental interventions implemented in the home. These environmental interventions included home modifications, assistive devices, object modifications and task simplifications. Each of these environmental interventions was studied in relation to a specific activity of daily living or a general function it supports. Existing research on dementia and housing facilities has no specific focus on the indoor environment and related building systems, whereas this domain is germane to ageing-in-place. Thus in this dissertation, the indoor environment and related building systems were studied in relation to the hindrance or support these environmental factors have on people with dementia and their family carers. Special focus was on the effects of the indoor climate and lighting systems on well-being and behaviour, as these two areas of research are most promising for future interventions in order to positively influence behavioural problems. At the same time, promising applications within the domain of lighting are not fully understood. Therefore, two clinical-controlled trials were conducted in a group setting to study the effects of ambient bright light and high colour temperature dim light on behaviour and circadian rhythmicity. Apart from architectural solutions, there are numerous technological solutions available to support ageing-in-place. Aspects of ambient intelligence technologies were explored in the context of daily living and care support, as the application of such technologies is relevant to concerns about privacy, ethics, and the inclusion of people with dementia. The contribution of ambient intelligence technology was also studied in the field among community-dwelling users of the Unattended Autonomous Surveillance system. This system is applied as a means to support ageing-in-place by improving safety and security and supporting carers. The studies on architectural and technological solutions were followed up with a design study of a conceptual dwelling for people with dementia, which incorporates the integrated view on the demand in relation to ageing-in-place and the supply of adequate housing facilities. This conceptual dwelling is an example of how the combined framework of ICF-MIBD may be used. The design is based on the most important and succinct architectural and technological solutions identified in this dissertation. Main findings In the European Union, living in the community is the most prevalent type of living condition for people with dementia. The Netherlands is one of the countries in which national policies explicitly stimulate ageing-in-place for older adults in general, and where care support for family carers is facilitated at the municipal level. Unfortunately, this support does not sufficiently cover modifications to the home environment. This dissertation identified a large number of environmental interventions, which find their origin in design goals and principles for dementia, and conventional home modification practice. At the moment, environmental interventions for dementia are not offered in a structural way, which means that these solutions do not yet match the needs of people with dementia and their family carers. The studies in this dissertation on the indoor environment revealed that people with dementia may have an altered sensitivity for indoor environmental conditions compared to other older adults, which may be a cause of problematic behaviour and may have a negative effect on safety and security. There are a large number of building-related solutions, particularly within the domain of heating, ventilation, and air conditioning (HVAC) and lighting systems. These solutions can be implemented to decrease the incidence of problem behaviours, improve the comfort and well-being of people with dementia, and support with (instrumental) activities of daily living.
270
![Page 284: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/284.jpg)
The two lighting studies, which are part of this dissertation, showed that ambient bright light with a high colour temperature may lead to improvements in behavioural outcomes and circadian rhythmicity. These improvements are not seen in low colour temperature lighting conditions. Higher illuminance levels are a crucial factor in establishing successful light therapy. Increasing colour temperature may contribute to the effectiveness of lighting in improving behavioural outcomes and circadian rhythmicity. This dissertation shows that ambient intelligence technologies can contribute to an increase in safety and security among clients and their family carers. People with dementia may have difficulty understanding the technology, which has implications to the way technology is designed and installed. Moreover, the use of ambient intelligence technologies is not a substitute for adequate (care) support. Additional home modifications and assistive devices are also needed. In this dissertation, privacy-related issues and ethical dilemmas were not found to be a concern in practice. The design for the dwelling for people with dementia demonstrated that integration of architectural and technological solutions can be achieved. Such a dwelling can be an added value to family carers, as a spouse with dementia is (i) more independent and (ii) is being monitored and supported by technology, (iii) feels more comfortable and (iv) expresses fewer behavioural problems. Recommendations for research and practice The combined framework of ICF and MIBD, which can be used for analysis and evaluation, as well as for design purposes, was shown to be a valuable tool for structuring and retrieving information. It allows for both an integrated view and an integrated process for the design and construction of new homes or retrofitting existing dwellings. During the research, extensions to the combined framework have been incorporated and proposed, for instance, to include legislation and assistive technologies. Systematic and large-scale studies should be conducted on the efficacy of environmental interventions identified in this dissertation, as evidence is often based on small-scale and non-controlled studies. Additional research is also needed for the study of optimal indoor environmental conditions and related building systems. The application of ceiling-mounted lighting systems calls for more research on the details of the lighting equipment, in particular, threshold illuminance levels and spectral composition of the light. Future evaluation studies of technologies that are used to support ageing-in-place should focus on the integration of such systems within the context of family and professional care and a person’s home environment. Policies and legislation dealing with dementia and housing facilities should widen their scope to include ageing-in-place in the own home environment. This dissertation shows how demand and supply can brought closer to one another. In order to improve the current situation, it is essential that all people involved have access to relevant information. Family carers and people with dementia should have easy access to usable and understandable information about architectural and technological solutions, which can support ageing-in-place. The dissemination of knowledge should also address professional carers, professionals from the domain of building and technology, and policy makers and civil servants. This knowledge can help bridge the gap between demand and supply. Moreover, working with persons with dementia calls for a paradigm shift in the way designers and contractors operate. Civil servants at the municipal level should increase their skills and knowledge in order to adequately support people with dementia and their family carers in implementing architectural and technological solutions as people with dementia wish to age-in-place. Concluding remarks Ageing-in-place is possible for people with dementia by examining their care-based needs in relation to their home environments. To achieve this, architectural and technological solutions
271
![Page 285: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/285.jpg)
have been proposed in an integrated manner, which may also contribute to a lessened burden on family carers. Whether a modified dwelling is supportive in relation to ageing-in-place, and, if so, for how long, depends on the specific needs of people with dementia. There may come a time, as the dementia progresses, when architectural and technological solutions no longer offer support and institutionalisation becomes inevitable.
272
![Page 286: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/286.jpg)
Samenvatting Langer thuis wonen Integraal ontwerpen van woonvoorzieningen voor mensen met dementie Inleiding Ouderen wensen langer thuis te blijven wonen. Dit geldt ook voor mensen met dementie. Deze wens kan worden gefaciliteerd door ondersteuning van iemands dagelijks leven en diens fysieke activiteit. Daarnaast kunnen woningen worden aangepast door middel van bouwkundige en technologische oplossingen. Het ontwerpen, bouwen of renoveren van woonvoorzieningen - zodat mensen met dementie langer thuis kunnen wonen - brengt een aantal extra uitdagingen met zich mee. Het gaat dan niet alleen om ondersteuning van activiteiten in het dagelijks leven en het verhogen van iemands welbevinden, maar ook om het creëren van veilige woonomstandigheden en het mogelijk maken van zorg thuis. Vandaag de dag is er een kwantitatief en kwalitatief tekort aan aangepaste woningen die het langer thuis wonen kunnen ondersteunen. Dit geldt voor mensen met dementie in het bijzonder. Om de discrepantie tussen vraag (de woonbehoeften van mensen met dementie) en aanbod (van bouwkundige en technologische oplossingen voor langer thuis wonen) te slechten, is samenwerking op het vlak van woningaanpassingen tussen bouw en zorg noodzakelijk. Dit proefschrift onderzoekt deze problematiek op basis van een theoretisch en praktisch raamwerk. Hierin worden verschillende aspecten van woonvoorzieningen in relatie gebracht met de behoeften van mensen met dementie en hun familiezorgers om langer thuis wonen te ondersteunen. Daarnaast wordt een conceptueel integraal woningontwerp gepresenteerd voor mensen met dementie. In dit proefschrift omvatten woonvoorzieningen bouwkundige oplossingen met inbegrip van het binnenmilieu en installatietechnische voorzieningen én opkomende technologische oplossingen zoals ‘ambient intelligence’ (de intelligente thuisomgeving). Methodologie In dit proefschrift is ervoor gekozen vraag en aanbod integraal te benaderen door de domeinen van bouw en zorg samen te brengen. Deze benadering weerspiegelt zich in de wijze waarop de verschillende studies gestructureerd zijn. Er wordt gebruik gemaakt van een raamwerk waarbinnen de International Classification of Functioning, Disability and Health (ICF) van de Wereldgezondheidsorganisatie en het Model van Integraal Bouwen (MIB) van Rutten worden gecombineerd om informatie te structureren en op te halen. Om recht te doen aan de verschillende invalshoeken is gebruikgemaakt van een breed scala aan onderzoeksmethoden om vraag en aanbod in relatie tot elkaar te bezien. Behalve literatuuronderzoek is gekozen voor kwalitatieve en kwantitatieve onderzoeksmethoden, waaronder interviews met themalijsten, sessies met focusgroepen, observaties van bestaande woningen, gedragsobservaties met gebruikmaking van numerieke schalen en fysiologische metingen. Overzicht van onderzoeken Als eerste stap in het onderzoek is een nadere blik geworpen op het type woonvoorziening voor mensen met dementie in verschillende Europese landen. Tevens is gekeken naar hoe de familiezorg samenhangt met de diversiteit en capaciteit in woonvoorzieningen voor ouderen in het algemeen en voor mensen met dementie in het bijzonder. De mate waarin onderzoeksbevindingen -voor een groot deel afkomstig uit Angelsaksische landen- te implementeren zijn verschilt, per land, en is afhankelijk van tradities en cultuur, politieke keuzen op nationaal niveau en wetgeving. Dat geldt evenzeer voor iemands wooncarrière.
273
![Page 287: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/287.jpg)
Deze analyse werd gevolgd door een onderzoek naar bouwkundige en technologische oplossingen. Er is een overzicht gemaakt van bestaande ontwerpprincipes en ontwerpdoelen en van omgevingsinterventies die in huis kunnen worden toegepast. Deze omgevingsinterventies omvatten woningaanpassingen, hulpmiddelen, objectmodificaties en de vereenvoudiging van taken. Deze interventies zijn gecategoriseerd in relatie tot specifieke activiteiten van het dagelijks leven of een algemene functie, waaronder de behoefte aan veiligheid en de ondersteuning van het geheugen. Binnen het bestaande onderzoek naar dementie en woonvoorzieningen bestaat geen specifieke aandacht voor het binnenmilieu en de daaraan gerelateerde gebouwsystemen. Voor het langer thuis wonen is dit echter een zeer relevant domein. Daarom zijn in dit proefschrift het binnenmilieu en aanverwante gebouwsystemen bestudeerd in relatie tot de behoeften van mensen met dementie en hun naasten. Specifieke aandacht ging uit naar de effecten van het binnenklimaat en verlichtingssystemen op het welbevinden en gedrag. Deze twee onderzoeksgebieden zijn namelijk veelbelovend om probleemgedrag bij mensen met dementie in positieve zin te beïnvloeden. Tegelijkertijd leven er nog vele vragen rondom de toepassing van verlichting. Daarom zijn er twee gecontroleerde studies verricht naar de effecten van licht met hoge verlichtingssterkte en hoge kleurtemperatuur op gedrag en dagnachtritmiek. Naast de bouwkundige oplossingen zijn er vele technologische oplossingen beschikbaar om het langer thuis wonen te ondersteunen. Aspecten van ambient intelligence zijn verkend in de context van het dagelijks leven en de ondersteuning van zorg. De toepassing van dergelijke technologie gaat gepaard met zorgen over privacy, ethiek en de doelgroep van mensen met dementie. De bijdrage van ambient intelligence is in het praktijkproject Unattended Autonomous Surveillance (UAS) getest met ouderen die nog thuis wonen. Het UAS-systeem maakt langer thuis wonen mogelijk door de veiligheid te vergroten. Na de studies over bouwkundige en technologische oplossingen volgde een ontwerpstudie van een conceptuele woning voor mensen met dementie, waarin vraag en aanbod worden samengebracht. Het ontwerp is gebaseerd op de resultaten van de voorgaande studies en omvat de belangrijkste en meest veelbelovende bouwkundige en technologische oplossingen zoals weergegeven in dit proefschrift. Hoofdbevindingen Thuis wonen is de meest voorkomende woonvorm voor mensen met dementie in de Europese Unie. Nederland is een van de landen waar het nationaal beleid erop gericht is om langer thuis wonen voor ouderen te stimuleren en waar familiezorg op gemeentelijk niveau wordt ondersteund. Tot op heden biedt deze ondersteuning onvoldoende uitkomst op het gebied van woningaanpassingen. Bouwkundige en technologische oplossingen voor langer thuis wonen met dementie worden nog niet toegespitst op de behoefte van deze doelgroep en worden ook niet op gestructureerde wijze aangeboden. In dit proefschrift is een groot aantal omgevingsinterventies geïdentificeerd dat hun oorsprong vindt in de ontwerpdoelstellingen en ontwerpprincipes voor aangepast wonen met dementie én in het aanpassen van woningen in het algemeen. Er bestaat geen gestructureerd aanbod van gebouwgerelateerde omgevingsinterventies voor mensen met dementie en hun naasten. De studies in dit proefschrift die betrekking hebben op het binnenmilieu toonden aan dat mensen met dementie een veranderde gevoeligheid kunnen hebben voor binnenmilieucondities in vergelijking met andere groepen ouderen. Hierin kan een oorzaak liggen voor (verergering van) gedragsproblematiek en voor onveilige situaties thuis. Er is een groot aantal oplossingen vanuit de bouwkunde beschikbaar, met name op het gebied van verwarming, ventilatie, luchtbehandeling en verlichting. Deze installaties kunnen zodanig worden toegepast of aangepast dat deze aansluiten bij de perceptie van mensen met dementie. Hierdoor wordt de gedragsproblematiek verminderd, en worden comfort en welbevinden verhoogd, en (instrumentele) activiteiten van het dagelijks leven ondersteund.
274
![Page 288: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/288.jpg)
De twee studies naar verlichting die onderdeel zijn van dit proefschrift toonden aan dat omgevingslicht met een hoge verlichtingssterkte en een hogere kleurtemperatuur kan leiden tot verbeteringen in gedrag en dagnachtritmiek in vergelijking tot licht met een lagere kleurtemperatuur. Hogere verlichtingssterkten zijn een cruciale factor voor een succesvolle toepassing van verlichting. Ook het verhogen van de kleurtemperatuur van licht kan bijdragen aan de effectiviteit van licht bij het verbeteren van gedrag en dagnachtritmiek. Dit proefschrift laat zien dat ambient intelligence kan bijdragen aan veiligheid bij ouderen met een zorgvraag. Ouderen met dementie kunnen daarentegen wel moeite hebben met de omgang met, en het begrijpen van, de technologie. Dit stelt eisen aan de wijze waarop deze technologie wordt ontworpen en geïnstalleerd. De inzet van ambient intelligence biedt echter geen vervanging voor persoonlijke zorg. Tevens blijven aanvullende woningaanpassingen en hulpmiddelen nodig. Binnen deze studie bleken problemen rondom privacy en ethische vraagstukken in de praktijk niet te leven. Het conceptuele ontwerp van de woning voor mensen met dementie toont aan dat het mogelijk is bouwkundige en technologische oplossingen te integreren in één ontwerp. Een dergelijke woning heeft een toegevoegde waarde voor de bewoners. Een partner met dementie kan worden geobserveerd en ondersteund met technologie waardoor deze zich comfortabeler voelt en minder gedragsproblematiek vertoont. Tevens ondersteunen de aanpassingen de zelfredzaamheid van de dementerende en de zorgtaak van de familie. Aanbevelingen voor onderzoek en praktijk Het gecombineerde raamwerk van ICF-MIB, zoals gebruikt om het onderzoek in dit proefschrift te structureren en voor het ophalen van informatie, kan zowel gebruikt worden voor analyse en evaluatie gebruikersbehoeften in relatie tot een gebouw als voor ontwerpdoeleinden. Het biedt de mogelijkheid tot zowel een integrale blik als een integraal ontwerp bij het bouwen van nieuwe woningen en bij het renoveren van bestaande woningen. Evidentie van de effectiviteit van omgevingsinterventies zoals in dit proefschrift beschreven, zijn vaak gebaseerd op kleinschalige en niet-gecontroleerde onderzoeken. Dit vraagt om een toets in systematische en grootschalige studies. Daarnaast is aanvullend onderzoek nodig op het vlak van binnenmilieu en verwante bouwkundige systemen. Ook de toepassingen van plafondverlichting vereisen meer onderzoek naar de ontwerpdetails van deze verlichting, vooral naar de drempelwaarden voor verlichtingssterkte en naar de spectrale samenstelling van het licht. Toekomstige evaluaties van technologie om langer thuis wonen mogelijk te maken zouden zich moeten richten op de integratie van technologische systemen (plafondverlichting, woningautomatisering, ambient intelligence) in het geheel van de ontvangen zorg en de woonomgeving van de persoon met dementie. Voorts is van belang dat mensen met dementie en hun naasten laagdrempelig toegang krijgen tot bruikbare en begrijpelijke kennis over bouwkundige en technologische oplossingen voor langer thuis wonen. Deze kennis moet ook verspreid worden onder zorgprofessionals, professionals uit het domein van bouw en technologie, beleidsmakers en ambtenaren, teneinde de kloof tussen vraag en aanbod te dichten. Daarnaast vereist het werken in de woning van mensen met dementie een paradigmashift in de werkwijze van professionals uit het bouwkundig domein. Tot slot Langer thuis wonen is mogelijk voor mensen met dementie door hun zorgvraag op het gebied van de eigen woning in kaart te brengen. Hiervoor zijn op integrale wijze bouwkundige en technologische oplossingen aangedragen, die tevens een mogelijke bijdrage leveren aan een verminderde belasting van zorgende familieleden.
275
![Page 289: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/289.jpg)
Of een aangepaste woning ondersteunend is bij het langer thuis wonen, en zo ja voor hoe lang, hangt in sterke mate af van de specifieke behoeften van de persoon met dementie. Met het voortschrijden van dementie kan er een moment komen waarop ontwerpoplossingen niet langer ondersteuning bieden en waarop opname onvermijdelijk wordt.
276
![Page 290: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/290.jpg)
Acknowledgements – Dankwoord De Hogeschool Utrecht heeft mij de kans geboden om een promotieonderzoek uit te voeren aan de Technische Universiteit Eindhoven. Het is een uitdaging om als onderzoeker deel uit te maken van de transitie die de Hogeschool Utrecht doormaakt naar een University of Applied Sciences. Het College van Bestuur van de Hogeschool Utrecht, en in het bijzonder prof.mr.dr. Huib de Jong - portefeuillehouder onderzoek - dank ik voor het stimulerende beleid rondom promotieonderzoek vanuit de hogeschool en de mij toegekende promotievoucher. Mijn dank gaat ook uit naar de directie van de Faculteit Gezondheidszorg, in het bijzonder mr. Harm Drost, voor het in mij gestelde vertrouwen, de omarming van een ingenieur binnen de muren van de faculteit Gezondheidszorg, de interesse in mijn onderzoeksactiviteiten en last but not least zijn visie op technologie in de zorg. De Technische Universiteit Eindhoven (TU/e) heeft een hoofdrol gespeeld in mijn promotie. Mijn eerste promotor, prof.ir. Paul Rutten, dank ik voor zijn bereidheid om de verantwoordelijkheid voor mijn promotie op zich te nemen en deze in het juiste spoor te brengen. Paul, heel hartelijk dank, je kwam voor mij op het goede moment. Je hart ligt bij het ontwerpen van gebouwsystemen en de bijbehorende prestatie-eisen. Mijn promotieonderzoek gaat over dezelfde passie en jij hebt mij geholpen de resultaten zodanig te structureren dat deze niet alleen bruikbaar zijn voor disciplines binnen de bouw maar ook voor daarbuiten. Door jouw zakelijke kijk op de materie hebben we nu tevens een implementatietool in handen. Ik hoop dat onze samenwerking zich nog lang mag voortzetten. De samenwerking met mijn tweede promotor en lector binnen het Kenniscentrum Innovatie van Zorgverlening, prof.dr. Mia Duijnstee, was voor mij zeer vruchtbaar. Mia, naast je betrokkenheid en hartelijkheid, heb ik veel van je mogen leren. Niet alleen in het verbinden en structureren van mijn onderzoeksinformatie maar natuurlijk ook over familiezorg en de bijkomende uitdagingen. Dank voor nieuwe en verhelderende inzichten. Mijn promotie was niet mogelijk geweest zonder de grote inzet van mijn copromotor dr. Helianthe Kort, lector Vraaggestuurde Zorg. Hilly, dank voor betrokken wijze waarop je de dagelijkse leiding in handen had, voor al je tijd, je inzet, en de kennis die je gedeeld en overgedragen hebt. Jouw rust en inzicht hebben mij gebracht waar ik nu sta. Twee van mijn collega-onderzoekers binnen het lectoraat Vraaggestuurde Zorg, Marianne Sinoo en Geesje Spenkelink-Schut, jullie betrokkenheid in goede en in slechte tijden is altijd een steun in de rug geweest en dat geldt ook voor jullie achtergrond als respectievelijk psychologe en verpleegkundige. Ook Sigrid Vorrink, Jacqueline Dijkstra, de secretaresses Anna Weber (en haar voorganger Joyce Olthof) en Urmila Bihari; dank voor jullie hulp en samenwerking. Renée van Geene, dank voor al je ondersteuning en de aanspraak op het secretariaat in Eindhoven. De directeur van het Instituut voor Paramedische Studies (IPS), drs. Hans Merkx, heeft ervoor gezorgd dat mijn onderwerp geïntegreerd is in het onderwijs binnen het IPS. André Boer MBA, directeur van het Instituut voor Verpleegkundige Studies (IVS) en voormalig directeur van het Kenniscentrum, heeft mijn onderzoek een plaats gegeven binnen het IVS. Dank voor alles. Met mijn collega’s binnen het kenniscentrum voel ik mij verbonden in onderzoek en kennisuitwisseling. Alianne Snip-ten Heuw en Bolinda Hoeksema, zonder jullie had ik deels zonder literatuur voor het onderzoek gezeten. Bolinda, jij bent de spil in het web rondom organisatorische zaken voor het Kenniscentrum en ik vond altijd een luisterend oor bij je. Jan, Wil en Truus, dank voor alle hulp en de gezellige gesprekken bij de receptie. Iedere dag een warm welkom. Hogeschoolstudenten: met een aantal van jullie heb ik mogen samenwerken rondom mijn onderzoek. Jullie leerden niet alleen van mij, maar ik ook van jullie. Dank voor soms verrassende nieuwe inzichten. Jullie zijn het levende bewijs dat de wisselwerking onderzoek – onderwijs vruchtbaar is.
277
![Page 291: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/291.jpg)
Prof.dr.ir. Jan Hensen, voorzitter van de unit Building Physics & Systems aan de TU/e. Wij leerden elkaar kennen voordat ik Praag bezocht voor mijn onderzoeksstage. Dank voor je inzichten, je wijsheid, en je bereidheid mee te werken aan mijn publicaties. Je bent voor mij een groot voorbeeld. Prof.ir. Jan Westra, decaan van de Faculteit Bouwkunde: dank voor al uw hulp bij het mede vormgeven van mijn promotietraject. Prof.dr. Johanna van Bronswijk was degene die mij na mijn afstuderen in contact bracht met mijn copromotor. Jij hebt mij gewezen op de mogelijkheid om mijn interessegebied in de gezondheidszorg te exploreren. Annelies, je stond aan de wieg van mijn academische basisvorming, waarvoor dank. Tijdens mijn promotie aan de TU/e heb ik kennis gemaakt met Toine Schoutens RN verbonden aan de Stichting Onderzoek Licht en Gezondheid. Hij introduceerde mij in de wereld van de gezonde verlichting, en heeft me in contact gebracht met ir. Mariëlle Aarts. Met zijn drieën hebben we twee veldonderzoeken naar verlichting in het verpleeghuis kunnen uitvoeren. Dank voor de wijze waarop we dit onderzoek hebben kunnen doen. Op het gebied van dementie, gezondheidszorg en beleid, wil ik de volgende personen expliciet noemen. Drs. Hugo van Waarde, coauteur bij een tweetal artikelen. Hugo, je was enthousiast over de plannen voor het woningontwerp voor mensen met dementie en het onderzoek daaromheen. Jij liet me kennis maken met het fenomeen Alzheimer Café. Drs. Marco Blom, directeur Onderzoek en Beleid van Stichting Alzheimer Nederland, dank voor een gezamenlijk artikel en voor onze samenwerking in diverse projecten. Zonder de medewerking van directie en medewerkers van Stichting Zorgpalet Baarn-Soest, was de planning van de interviews met cliënten en hun familie nooit zo soepel gelopen. Deze interviews vonden plaats in het kader van het UAS-onderzoek dat ik niet had kunnen uitvoeren zonder de steun van de medewerkers en directie van Vilans. Dr.ir. Ad van Berlo MA van Stichting Smart Homes: jouw kwalitatieve dataset over technologie en dementie is ook voor mijn onderzoek van betekenis geweest. Ad, we blijven ongetwijfeld met elkaar in contact over woningautomatisering. Voor allen die ik niet persoonlijk heb kunnen noemen maar die mij wel tot steun zijn geweest in mijn onderzoek: dank aan iedereen met wie ik samen heb mogen schrijven en dank aan iedereen die mijn werk heeft willen beoordelen. Mijn onderzoek zou niet mogelijk zijn geweest zonder de aanvullende financiële middelen die door SIA-RAAK (Stichting Innovatie Alliantie, Regionale Aandacht en Actie voor Kenniscirculatie) zijn toegekend aan de Hogeschool Utrecht. SIA-RAAK is een regeling vanuit het Ministerie van Onderwijs, Cultuur en Wetenschap om de kenniscirculatie tussen regionale partijen te bevorderen, in het bijzonder tussen kennisinstellingen als hogescholen, het mkb en publieke instellingen. Een subsidie voor praktijkgericht onderzoek zoals in dit proefschrift beschreven. Vrienden, soms had ik wat minder tijd door het vele werk. Wees allen gerust, het promotieonderzoek zit er nu op. Een aantal vrienden wil ik bij naam noemen. Froukje van Dijken: ik ken jou voor het grootste deel van mijn leven, als medescholier, als medestudent, als collega op de hogeschool, als paranimf en bovenal als dierbare vriendin. Dank voor gedeelde hoogtepunten en gedeeld leed. Puei-Tcheun, Guido, Jules dank voor al jullie hulp en jullie luisterend oor. Paranimf Nancy Westerlaken wil ik danken voor onze bijzondere persoonlijke en professionele relatie. Lonneke, het is jammer dat je deze dag niet meer mee hebt kunnen maken. Tenslotte, mijn zus Marieke, dank je voor je interesse en het delen van je werkervaringen in de zorg. Mijn ouders, jullie hebben mij alle mogelijkheden geboden om te kunnen studeren. Het is dankzij jullie dat ik hier sta.
278
![Page 292: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/292.jpg)
About the author Joost van Hoof was born February 1st 1980 in Eindhoven, The Netherlands. After completing bilingual pre-university education (International General Certificate of Secondary Education (University of Cambridge, Local Examinations Syndicate, United Kingdom) from 1992 to 1996, and Atheneum from 1992 to 1998) at Stedelijk College Eindhoven, he studied Architecture, Building & Planning (section Physics of the Built Environment) at Eindhoven University of Technology. In 2002, he conducted a research internship at České Vysoké Učení Technické v Praze (Czech Technical University in Prague, Faculty of Mechanical Engineering, section Environmental Engineering) on ‘Simulation and measurement of the local mean age of air’. In February 2004, Joost van Hoof attained his MSc (ir.) on a study on thermal comfort standards, which was supervised by prof.dr.ir. Jan L.M. Hensen. During his study years, he was involved in organising a number of foreign and domestic excursions, including study trips and measurement expeditions to Beijing, China, the Icehotel in Jukkasjärvi, Sweden, and historical turf farms in Iceland. Since 2004, Joost van Hoof has been working at Hogeschool Utrecht University of Applied Sciences as a researcher within the Research Group of Demand Driven Care (Lectoraat Vraaggestuurde Zorg), Research Centre for Innovation in Health Care, Faculty of Health Care (chair holder dr. Helianthe S.M. Kort). His work includes research in the field of older adults, housing and technology in relation to independence and autonomy, in particularly that of people with dementia. Apart from doing research, he is also involved in education (for instance, a minor Public Health Engineering), and attained his certificate of teaching skills (didactische bevoegdheid voor instellingen van hoger beroepsonderwijs) in 2006. In the same year, he also became assistant-editor of the international journal Gerontechnology. This editorship was discontinued in November 2008. To date, Joost van Hoof serves as a reviewer for a number of international peer-reviewed journals. He has been invited for several expert meetings and lectures on older adults, dementia and technology. In 2007, he served as a member of the jury for a national design competition on leisure and dementia held by the Province of Noord-Brabant. In July 2007, he also attained his Eur Ing qualification, and was placed in the register of FEANI (European Federation of National Engineering Associations). In June 2010, he was awarded the “B.J. Maxprijs” by the “B.J. Max-Stichting” at the TVVL annual meeting in Amsterdam for his research and (inter)national lessons, lectures and publications on the crossroads of care for older adults, nursing home care and building services engineering.
279
![Page 293: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/293.jpg)
Stellingen bij het proefschrift van Joost van Hoof8 november 2010Ageing-in-place: The integrated design of housing facilities for people with dementia
Stelling 1Ontwerprichtlijnen voor dementie zijn veelal gebaseerd op praktijkervaring, en soms op onderzoek waarbij resultaten worden toegepast in de vorm van “ontwerpoplossingen”. Praktijkgericht onderzoek biedt een uitgelezen kans om hierin een verbindend element te vormen.[Dit proefschrift, gebaseerd op Day K, Carreon D, Stump C (2000) The therapeutic design of environments for people with dementia. A review of the empirical research. The Gerontologist 40(4):397-416]
Stelling 2Een aantal mensen uit hun zorg over de dementiezorg in Nederland. In Europees perspectief geeft de Nederlandse situatie echter reden tot tevredenheid.[Gebaseerd op dit proefschrift]
Stelling 3De huidige definities van comfort als een bepaalde geestestoestand zijn van toepassing bij dementie. De geest van iemand met dementie maakt haar eigen wereld.[Gebaseerd op dit proefschrift]
Stelling 4Bij ambient intelligence in de zorg voor ouderen met dementie doet de intelligentie van deze systemen niet onder voor de beleving van de cliënt.[Gebaseerd op dit proefschrift]
Stelling 5Reeds in 1859 schreef Florence Nightingale, grondlegster van de verpleegkunde: “In watching diseases, both in private houses and in public hospitals, the thing which strikes the experienced observer most forcibly is this, that the symptoms or the sufferings generally considered to be inevitable and incident to the disease are very often not symptoms of the disease at all, but of something quite different – of the want of fresh air, or of light, or of warmth, or of quiet, or of cleanliness, of each or of all of there.” [Nightingale F (1859) Notes on Nursing: What it is, and what it is not. Londen: Harrison (p. 5)]Hiermee was zij haar tijd ver vooruit. Zij verbond de twee domeinen van zorg en binnenmilieu terwijl we ons daar nu, anno 2010, nog steeds voor moeten inspannen.
Stelling 6De gevolgen van onvoldoende frisse lucht zijn geen symptomen van het dementiesyndroom, maar kunnen het leven voor de persoon met dementie, de mantelzorger en de zorgprofessional wel verzieken.[Gebaseerd op dit proefschrift]
Stelling 7Een groot aantal woningaanpassingen voor mensen met dementie is stigmatiserend van aard.[Gebaseerd op dit proefschrift]
![Page 294: Ageing-in-place : the integrated design of housing facilities for people with dementia · Ageing-in-place The integrated design of housing facilities for people with dementia PROEFSCHRIFT](https://reader034.vdocuments.mx/reader034/viewer/2022042308/5ed4a9aa3ffc391dec604ad3/html5/thumbnails/294.jpg)
Stelling 8Een feloranje knuffel, een groene legpuzzel of een rood kerststukje in de leefomgeving van mensen met dementie kunnen door hen worden aangezien voor sinaasappels, salade en snoepjes. Ook bij de inrichting van de leefomgeving van de dementerende moeten we rekening houden met de veranderde interpretatie van de betekenis. Wie een menshoge poster van een boom op een deur plakt, moet niet verrast zijn dat een meneer met dementie daarin zijn toilet ziet staan.[Gebaseerd op dit proefschrift en Braam S (2005) Ik heb Alzheimer. Het verhaal van mijn vader. Amsterdam: Nijgh & Van Ditmar (p. 144); Caracciolo F (2006) Alzheimer – A Journey Together. Londen: Jessica Kingsley Publishers (p. 44); Struvel P, de Rijk L (2004) De vijfde verdieping. De wereld rond een dementerende moeder. Amsterdam: Podium (p. 16)]
Stelling 9Langer thuis wonen is een ideaal. Toch zijn er situaties denkbaar waarin het gaan wonen in een verpleeghuis beter is voor de betrokkenen.[Gebaseerd op dit proefschrift]
Stelling 10The architecture of buildings may be inspiring, but it is the quality of comfort that invites people to return. [Brochure Innova AirTech Instruments. Indoor climate measurements. Innova AirTech Instruments, Ballerup, Denemarken]
Stelling 11Veel architecten zien het licht in hun ontwerp; de gebouwgebruikers helaas niet.
Stelling 12Kleinschalig wonen vereist grootschalig denken.
Stelling 13All sorts of extravagant claims have been made for [full-spectrum] lamps to match their extravagant price.[Boyce PR (2003) Human Factors in Lighting. Second edition. CRC Press (p. 249)]
Stelling 14Als Nederland net als de Verenigde Staten een grote groep Republikeinse politici had gehad die riep “Drill baby drill!” dan was de Noordzuidlijn nu wellicht klaar geweest.
Stelling 15De enige klimaatverandering die voor iedereen merkbaar is, is de verkilling van het debat erover.
Stelling 16Hoewel mijn achternaam doet vermoeden, was de Engelse uitdrukking ‘on the hoof’ niet van toepassing op het doen van dit promotieonderzoek.
Stelling 17In stille wateren schuilt vaak een grote roofvis.