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VACCINATION : PROGRAMMES & IMPLEMENTATION
Dr jj
99
Introduction
Immunisation
Vaccine preventable diseases
Vaccination
Types of vaccination
Routes of administration
Levels of vaccines
History
CONTENTS
Vaccination history in India
Pulse polio vaccination
The cold chain
Hazards of Immunisation
Precaution
Vaccination coverge
Conclusion
References
VACCINATION PROGRAM
7
AIM
To prevent or protect against serious disease.
To eliminate a particular disease from a defined population.
To eradicate a disease entirely e.g. smallpox
8
However it is not possible to eradicate all vaccine-
preventable diseases:
Asymptomatic carriage
Mutating organisms e.g. influenza
Animal reservoirs e.g. SARS, avian influenza
Environmental reservoirs e.g. tetanus
Global travel/mass immigration
9
VACCINE PREVENTABLE DISEASES(BACTERIAL)
Diptheria
Haemophilus influenzae B (Hib)
Meningococcal (meningitis)
Pneumococcal disease
Tetanus
Tuberculosis
Whooping cough (pertussis)
10
VACCINE PREVENTABLE DISEASES (VIRAL)
Chickenpox
Flu
Measles
Mumps
Polio
Rubella
HPV
Immunity
Passive immunityActive immunity
Following clinical infection
Following subclinical infection
Following vaccination Following administration ofImmunoglobulin or antiserum
Transfer of maternal Antibodies Through milk
Transfer of maternal Antibodies Through placentanatural
acquired
Vaccination
Vaccination is a method of giving antigen to stimulate the
immune response through active immunization.
A vaccine is an immuno-biological substance designed to produce
specific protection against a given disease.
Types of vaccines
Live vaccines
Attenuated live vaccines
Inactivated (killed vaccines)
Toxoids
Polysaccharide and polypeptide (cellular fraction) vaccines
Surface antigen (recombinant) vaccines.
Live vaccines
Live vaccines are made from live infectious agents without
any amendment.
The only live vaccine is “Variola” small pox vaccine, made of
live vaccine cow-pox virus which is not pathogenic, giving
cross immunity for variola.
Live attenuated (avirulent) vaccines
Virulent pathogenic organisms are treated to become attenuated
and avirulent. They have lost their capacity to induce full-blown
disease but retain their immunogenicity.
Live attenuated vaccines should not be administered to persons with suppressed immune response due to:
Leukemia and lymphoma Other malignancies Receiving corticosteroids and anti-metabolic agents Radiation pregnancy
Inactivated (killed) vaccines
Organisms are killed or inactivated by heat or chemicals but
remain antigenic.
They are usually safe but less effective than live attenuated
vaccines.
The only absolute contraindication to their administration is a
severe local or general reaction to a previous dose.
ToxoidsThey are prepared by detoxifying the exotoxins of some
bacteria rendering them antigenic but not pathogenic.
Adjuvant (e.g. alum precipitation) is used to increase the
potency of vaccine.
The antibodies produces in the body as a consequence of
toxoid administration neutralize the toxic moiety produced
during infection rather than act upon the organism itself.
In general, toxoids are highly efficacious and safe
immunizing agents.
Polysaccharide and polypeptide (cellular fraction) vaccines
They are prepared from extracted cellular fractions e.g.
meningococcal vaccine from the polysaccharide antigen of
the cell wall, the pneumococcal vaccine from the
polysaccharide contained in the capsule of the organism, and
hepatitis B polypeptide vaccine.
Their efficacy and safety appear to be high.
Surface antigen (recombinant protien) vaccines
It is prepared by cloning HBsAg gene in yeast cells where it
is expressed. HBsAg produced is then used for vaccine
preparations.
Their efficacy and safety also appear to be high.
Types of vaccinesLivevaccines
LiveAttenuated vaccines
KilledInactivated vaccines
Toxoids Cellular fraction vaccines
Recombinant vaccines
•Small pox variola vaccine
• BCG• Typhoid
oral• Plague• Oral
polio• Yellow
fever• Measles• Mumps• Rubella• Intranasal• Influenza• Typhus
•Typhoid•Cholera•Pertussis•Plague•Rabies•Salk polio•Intra-muscular influenza•Japanise encephalitis
•Diphtheria•Tetanus
•Meningococcal polysaccharide vaccine
•Pneumococcal polysaccharide vaccine
•Hepatitis B polypeptide vaccine
•Hepatitis B vaccine
Routes of administration
Deep subcutaneous or intramuscular route (most vaccines)
Oral route (sabin vaccine, oral BCG vaccine)
Intradermal route (BCG vaccine)
Scarification (small pox vaccine)
Intranasal route (live attenuated influenza vaccine)
Levels of effectiveness
Absolutely protective(100%): yellow fever vaccine.
Almost absolutely protective (99%): Variola, measles,
mumps, rubella vaccines, and diphtheria and tetanus toxoids.
Highly protective (80-95%): polio, BCG, Hepatitis B, and
pertussis vaccines.
Moderately protective (40-60%) TAB, cholera vaccine, and
influenza killed vaccine.
HISTORY
25
HISTORY OF VACCINATION
1796 -Jenner – cowpox1885 - Pasteur – cholera, diphtheria, chickenpox, rabies1911 - first typhoid vaccine1927 - first tetanus vaccine1931 - Calmette & Guerin – first crude BCG1936 - influenza Modern era of vaccination1940 - diphtheria national programme in UK1950’s - polio, pertussis, modern BCG1960’s - measles, mumps & rubella, modern tetanus1980’s - H. Influenzae B (Hib)2000’s - Meningitis C, Human papilloma virus (HPV)
The world's first immunization campaign: the Spanish Smallpox
Vaccine Expedition, 1803-1813.
The first vaccine-preventable disease targeted for eradication
was smallpox
The last naturally occurring case of smallpox occurred in
Somalia in 1977.
According to United Nations Children’s Fund12 (UNICEF)
vaccine preventable diseases (VPDs) cause an estimated 2 million
deaths or more every year, of which approximately 1.5 million
deaths occur amongchildren below five year age.
VACCINATION HISTORY IN INDIA
Ancient times till first documented smallpox vaccination in India in 1802
• The history of vaccines and vaccination starts with the first effort to prevent
disease in the society.
• Smallpox was well known since ancient times and believed to have originated in
India or Egypt, over 3,000 years ago.
• From India, there are a few descriptions of occurrence of disease; however, one
of the best recorded smallpox epidemics was reported from Goa in 1545 AD,
when an estimated 8,000 children died. Historians and physicians have
sometimes referred smallpox as ‘Indian Plague’, which suggests that the disease
might be widely prevalent in India in the earlier times.
VACCINATION IN INDIA (1802-1899)
• The first doses of smallpox vaccine lymph in India arrived in May
1802.
• Anna Dusthall, a three year old child from Mumbai became the
first person in India to receive smallpox vaccine on June 14, 1802.
• From Bombay, through human chain of vaccinees, the smallpox
vaccine as lymph was sent to Madras, Pune, Hyderabad and Surat.
• The Compulsory Vaccination Act was passed in India in 1892 to
ensure higher coverage with smallpox and reduce the epidemic.
VACCINE AVAILABILITY AND MANUFACTURING IN INDIA (1802-1899)
.
• In India, till 1850, the vaccine was imported from Great Britain.
• Another important event of this period was a cholera epidemic in
Bengal and other parts of India.
• Dr Haffkine developed plague vaccine in 1897 and it is arguably,
the first vaccine developed in India.
• This laboratory was called Plague Laboratory since 1899, renamed
as Bombay Bacteriological Lab in 1905 and then finally named as
Haffkine Institute in 1925.
VACCINATION IN INDIA (1900-1947)
The beginning of twentieth century witnessed a few socio-scientific-
geopolitical events, which had lasting effect on vaccination efforts in
the country. These changes were:
(i) Outbreak of cholera and plague in India (1896-1907) and the
services of already limited number of vaccinators were diverted to
epidemic control efforts,
(ii) The First World War (1914-1918) started and with coinciding
Influenza Pandemic (which reportedly killed around 17 million
Indians) became a priority for the Government.
(iii) New scientific understanding that two doses of smallpox
vaccine would be needed for long lasting protection. It was a
challenge considering that it meant convincing people to get
vaccinated twice with perceived inconvenient and painful
procedure.
Evaluated full immunization coverage by district in India.
.New Delhi: Government of India and UNICEF; 2010. United Nations International Children's Fund. Coverage evaluation survey: all India report 2011.
VACCINATION PROGRAMME AND VACCINES IN INDIA: YEARS AHEAD
• The science of vaccine evolved across the globe in late 19th
century and India was amongst a few countries to have been
involved in these efforts.
• The cholera and typhoid vaccine trials and research and discovery
of plague vaccine took place in the country. Vaccine institutes
were set up in early and whole of twentieth century.
The national vaccine policy of India has suggested that ‘a number
of linkages need to be explored between academia, industry and
international institutions such as National Institute of Health
(NIH), Gates Foundation, the GAVI Alliance, World Health
Organization and the International Centre for Genetic Engineering
and Biotechnology (ICGEB), etc.
• The immunisation programme in India was flagged off in 1978
as Expanded Programme on Immunisation (EPI).
• It gained impetus in 1985 as the Universal Immunisation
Programme (UIP) and was carried out in phased manner to
cover all districts in the country by 1989-90.
• Centrally sponsored programme.
• UIP became a part of the Child Survival and State Motherhood
(CSSM) Programme in 1992 and Reproductive and Child
Health (RCH) Programmein 1997.
• It is currently under National Rural health Mission - NRHM All
the vaccines are procured by central government with 100%
domestic funding.
Universal Immunisation program (UIP)
• The objective of UIP was to cover at least 85% of all infants
against the six vaccine-preventable diseases by 1990 and to
achieve self-sufficiency in vaccine production and the
manufacture of cold-chain equipment.
• The target now is to achieve 100% immunization coverage
although technically 85% coverage levels would ensure herd
immunity.
• Programme targeted ~ 26 million infants and 30 million
pregnant women in 2009-10.
Coverage States/UT
Low(<50%)
Uttar Pradesh, Meghalaya, Madhya Pradesh, Tripura, Arunachal Pradesh, Bihar, Manipur and Rajasthan
Medium(50-70%)
Mizoram, Assam, Jharkhand, Gujarat, Chhattisgarh, Haryana, Orissa, Jammu & Kashmir, Uttarakhand, Andhra Pradesh, Delhi and Maharashtra
High(>70%)
Tamil Nadu, Kerala, Karnataka, West Bengal, Sikkim, Punjab, Pondicherry, Himachal Pradesh, Lakshadweep, A & N Islands and Goa
Coverage state wise
Tamilnadu -91% (2014)
Universal Immunisation Program
• A second dose of DT vaccine should be given at an interval of
one month if there is no clear history or documented evidence
of previous immunization with DTPw.
** A second does of TT vaccine should be given at an interval of
one month if there is no clear history or documented evidence of
previous immunization with DTPw, DT or TT vaccines.
IAP Schedule
• If the mother is known to be HBsAg negative, HB vaccine can
be given along with DPT at 6, 10, 14 weeks/ 6 months. If the
mother's HBsAg status is not known, it is advisable to start
vaccination soon after birth to prevent perinatal transmission of
the disease.
• If the mother is HBsAg positive, the baby should be given
Hepatitis B Immune Globulin (HBIG) within 24 hours of birth,
along with HB vaccine.
• Combination vaccines can be used to decrease the number of
pricks being given to the baby and to decrease the number of
clinic visits.
• Under special circumstances (e.g. epidemics), measles vaccine
may be given earlier than 9 months followed by MMR at 12-15
months.
• We should continue to use OPV till we achieve polio
eradication in India. IPV can be used additionally for individual
protection.
Pulse Polio Immunization (PPI)
• India launched the Pulse Polio Immunization (PPI) program in
1995 as a result of World Health Organization's (WHO) Global
Polio Eradication Initiative.
• Under this programme, all children under 5 years are given 2
doses of Oral Polio Vaccine (OPV) in December and January
every year until polio is eradicated.
• It aims to reach the unreached children through improved social
mobilization and plan mop-up operations in areas where
poliovirus has almost disappeared.
The last reported cases of wild polio in India were in
West Bengal and Gujarat on 13 January 2011.
The Cold Chain
The "cold chain" is a system of storage and transport of
vaccines at low temperature from the manufacturer to the
actual vaccination site.
The cold chain system is necessary because vaccine failure
may occur due to failure to store and transport under strict
temperature controls.
54
COLD CHAIN
System of transporting and
storing vaccines within the
recommended temperature
range of 2 – 80C
55
WHY IS THE COLD CHAIN IMPORTANT?
Effectiveness of vaccines cannot be guaranteed if
exposed to temperature extremes.
Provides assurance/ confidence in potency of the
product.
Ensures patient obtains maximum benefit from
immunisation.
The Cold Chain Equipment Cold chain equipment consists of the following:
(a) Walk in cold rooms: They are located at regional level,
meant to store vaccines up to 3 months and serve districts.
(b) Deep freezers (300 ltr) and Ice lined Refrigerators: supplied
to all districts to store vaccines. Deep freezers are used for
making ice packs and to store OPV and measles vaccines.
(c) Small deep freezers (140 ltr) : One set is provided to PHCs,
and Family Planning Centers.
(d) Cold boxes: Cold boxes are supplied to all peripheral
centers. These are used mainly for transportation of the
vaccines.
(e) Vaccine carriers: Vaccine carriers are used to carry small
quantities of vaccines (16-20 vials) for the out of reach sessions.
4 fully frozen ice packs are used for lining the sides, and vials of
DPT, DT, TT and diluents should not be placed in direct contact
with frozen ice packs. The carriers should be closed tightly.
(f) Ice packs: The ice packs contain water and no salt should be
added to it.
Among the vaccines, polio is the most sensitive to heat,
requiring storage at minus 20 degree C.
Vaccines which must be stored in the freezer compartment are
: polio and measles.
Vaccines which must be stored in the COLD PART but never
allowed to freeze are : typhoid, DPT, tetanus toxoid, DT, BCG
and diluents.
HAZARDS OF IMMUNIZATION• No immune response is entirely free from the risk of adverse
reactions or remote squeal. The adverse reactions that may
occur may be grouped under the following heads:
1. Reactions inherent to inoculation
2. Reactions due to faulty techniques
3. Reactions due to hypersensitivity
4. Neurological involvement
5. Provocative reactions
6. Others
1. Reactions inherent to inoculation:
These may be local general reactions. The local reactions may
be pain, swelling, redness, tenderness and development of a
small nodule or sterile abscess at the site of injection.
The general reactions may be fever, malaise, headache and
other constitutional symptoms. Most killed bacterial vaccines
(e.g., typhoid) cause some local and general reactions.
Diphtheria and tetanus toxoids and live polio vaccine cause
little reaction.
2. Reactions due to faulty techniques:
Faulty techniques may relate to
faulty production of vaccine (e.g. inadequate inactivation of the microbe,
inadequate detoxication),
too much vaccine given in one dose,
improper immunization site or route,
contraindications ignored (e.g. a child who experienced a severe reaction
after a previous dose of DPT vaccine is immunized with he same
vaccine),
reconstituted vaccine of one session of immunization used again at the
subsequent session.
3. Reactions due to hypersensitivity:
Administration of antiserum (e.g., ATS) may occasionally
give rise to anaphylactic shock and serum sickness. Many
viral vaccines contain traces of various antibiotics used in
their preparation and some individuals may be sensitive to the
antibiotic which it contains.
Anaphylactic shock is a rare but dangerous complication of
injection of antiserum. There is bronchospasm, dyspnoea,
pallor, hypotension and collapse.
4. Neurological involvement:
Neuritic manifestations may be seen after the administration
of serum or vaccine. The well-known examples are the post
vaccinial encephalitis and encephalopathy following
administration of anti -rabies and smallpox vaccines.
Guillain Barre syndrome in association with the swine
influenza vaccine is another example.
5. Provocative reactions:
Occasionally following immunization there may occur a
disease totally unconnected with the immunizing agent (e.g.,
provocative polio after DPT or DT administration against
diphtheria).
The mechanism seems to be that the individual is harboring
the infectious agent and the administration of the vaccine
shortens the incubation period and produces the disease or
what may have been otherwise only a latent infection is
converted into a clinical attack.
6. Others:
These may comprise damage to the fetus (e.g., with rubella
vaccination); displacement in the age-distribution of a disease
(e.g., a potential problem in mass vaccination against measles,
rubella and mumps).
Precautions
The risk of adverse reactions can be reduced by proper
sterilization of syringes and needles, by proper selection of the
subject and the product, and if due care is exercised in carrying out
the procedure.
Measles and BCG vaccines should be reconstituted only with the
diluent supplied by the manufacturer.
Reconstituted vaccine should be discarded at the end of each
immunization session and NEVER retained for use in
subsequent sessions. In the refrigerator of the immunization
centre, no other drug and substances should be stored beside
vaccines.
Training of immunization worker and their close supervision
to ensure that proper procedures are being followed are
essential to prevent complications and deaths following
immunization.
Vaccination Coverage
Vaccination coverage is the percent of at risk or susceptible
individuals, or population who have been fully immunized
against particular diseases by vaccines or toxoids.
To be significantly effective in prevention of disease on mass
or community level at least a satisfactory proportion (75% or
more) of the at risk population must be immunized.
A caries vaccine is a vaccine to prevent and protect
against tooth decay.
Development of a vaccine for tooth decay has been under
investigation for more than 50 years. In 1972, a caries
vaccine was said to be in animal testing in England, and
that it would have begun human testing soon.
Intrinsic difficulties in developing it, coupled with lack of
strong economic interests are the reasons why no such
vaccine is commercially available as of now.
DENTAL CARIES VACCINE
The International Association for Dental Research and
American Association for Dental Research announced a study
performed by the Chinese Academy of Sciences which looked
at using an inhaled vaccine that uses a protein filament as a
delivery vehicle.
Trials performed in rats showed an increase in antibody
response along with a decrease in the amount of Streptococcus
mutans adhering to teeth, leading to significantly fewer
cavities observed among the test population.
Ways of achieving satisfactory immunization coverageEfficient immunization service; urban and rural.
Health awareness and cooperation of the public.
Periodic mass immunization campaigns, to cover those who missed regular immunizations.
Outreach programs in rural and nomad areas, and home visits.
Vaccination for special occupationsHealth care workers: hepatitis B, influenza, MMR, polio
Public safety personnel (police, fire fighters) and staff of
institutions for the developmentally disabled: hepatitis B,
influenza
Vets and animal handlers: rabies, plague and anthrax
Sewage workers: DT, hepatitis A, polio, TAB
Food handlers: TAB
Military troops and camp dwellers: pneumococcal,
meningococcal, influenza, BCG (for non reactors), tetanus.
Vaccination for Preterm babies
No withholding of vaccines.
All vaccine to be given as per Chronological age unless birth
weight is less than 2 kgs.
Vaccination in specific infectionsHIV
live vaccines to be avoided and killed vaccines in double strength
doses
Diseases with no or poor spleen
Pnemococcal, Meningiococcal & Influenza vaccines (capslated
organisms)
Progressive Neurological disorder
DPT should not be given
Vaccination for special life styles and special environmental situations
Homosexually active males, Heterosexual with promiscus
sexual partner specially who has STDs, and Injecting drug
users.
Inmates of long term correctional institutes, residents of
institutions for the developmentally disabled, and household
contacts of HBV carriers or patients.
All should receive hepatitis B vaccine
Vaccinations for special health status personsImmuno-compromised persons ( Leukemia, lymphoma, HIV,
malignancy)
Hemodialysis and transplantation
Should receive the following vaccines according to their situation:
HBV, Influenza, Pneuomococcal vaccines
101
TRAVEL VACCINES
Vaccinations in travelVaries according to the country of arrival and departure.
Specific vaccine according to the country traveled to:
Haj for instance necessates meningococcal vaccination
from all over,
cholera from places like India.
79
TRAVEL VACCINATION
Increased risk of transmission of infectious disease due
to dramatic in global travel.
Study revealed 67% of travellers to high/medium risk
areas had not taken medical advice.
Need consultation at least 1 month before travel.
Are two compulsory vaccinations – yellow fever/
meningitis.
Vaccines against bioterrorism
Anthrax
Small pox
Plague
81
BARRIERS TO IMMUNISATION UPTAKE
Poor information/ misconceptions/ myths
Conflicting advice: family, media etc
Inconvenience: time, transport, lack of flexibility in
system
Vaccine supply issues
82
POOR INFORMATION/ MISCONCEPTIONS/ MYTHS
Misconceptions have always been around e.g
Vaccines can give you the infection e.g flu
Multicomponent vaccines overload the immune system
Giving vaccines singly is safer
Risk from vaccine is worse than the infection – no-one
dies these days from measles!
83
84
VACCINE SUPPLY ISSUES
Can affect uptake of immunisation
Clinics cancelled – patients forget to return for next dose
Increased number of injections having to be given puts
people off!
85
VACCINE PRODUCTION
Two main stages
Biological - antigen preparation
Pharmaceutical - ready to use product
Production cycles are long
Tetanus vaccine - 9-10 months
Diphtheria vaccine - 11 months
99
RISKS ASSOCIATED WITH INCORRECT VACCINE STORAGE
Risk to patient
Risk of acquiring infection due to ineffective
vaccination
Risks associated with possible re-vaccination
Risk to Healthcare professionals
Loss of confidence in service
100
IMMUNISATION ADMINISTRATION ERRORS
e.g. Administration of the wrong vaccine
Administration of extra/ unnecessary
vaccines.
Administration of out of date vaccines
All should be reported using medication incident
reporting systems
Reports should be reviewed and analysed
The evolution of vaccination efforts in India is far more complex
than presented here and every single event merits a detailed
analysis.
Though preventive efforts from diseases were practiced in India,
the reluctance, opposition and slow acceptance of vaccination
have been the characteristic of vaccination history. The
operational challenges keep the coverage inequitable in the
country. The lessons from the past events have been analysed
and interpreted to guide immunization efforts.
CONCLUSION
• REFERENCES
• 1. 3nd ed. Geneva: WHO; 2009. World Health Organization ganization (WHO)
Unicef, World Bank. State of the world's vaccines and immunization.
• 2. Geneva: WHO; 2012. Mar, [accessed on May 30, 2012]. World Health
Organization. Global immunization data 2011. Available from:
www.who.int/hpvcentre/Global_Immunization_Data.pdf .
• 3. Fenner F, Henderson DA, Arita I, Jezek Z, Ladnyi ID. Geneva: World Health
Organization; 1988. Smallpox and its eradication; pp. 369–71.
• 4. New Delhi: Government of India and UNICEF; 2010. United Nations
International Children's Fund. Coverage evaluation survey: all India report 2009.
• Basu RN, Jezek Z, Ward NA. New Delhi, India: World Health
Organization, South-East Asia Regional Office; 1979. The
eradication of smallpox from India.
• 6. Bhattacharya S, Harrison M, Worboys M. Hyderabad: Orient
Longman; 2006. Fractured states: Smallpox, public health and
vaccination policy in British India, 1800-1947.
• 7. Bazin H. San Diego: Academic Press; 2000. The eradication of
smallpox: Edward Jenner and the first and only eradication of a
human infectious disease.
•Janes Kuby, 2007, Vaccines, Immunology, W.H. Freeman and Company, Newyork, sixth Edition, Pg. 413- 428.
•Satyanarayana U., 2010, Vacines, Biotechnolgy, BOOK’S AND ALLIED (P) Ltd, Kolkata, sixth edition, Pg. 211-212.
• www.wikipedia.org
• www.britannica.com
• www.pathmicro.med.sc.edu
• www.mpi-magdeburg.mpg.de
• www.sc.edu
• www.niaid.nih.gov
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‘The Green Book’, www.dh.gov.uk
www.immunisation.nhs.uk
www.hps.scot.nhs.uk
www.immunisationscotland.org.uk
www.uvig.org
www.hpa.org.uk
THANK YOU
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