bioregulatory medicine - a new medical paradigm
DESCRIPTION
Bioregulatory medical protocol with principles and foundations, with main clinical parameters, described by founder Dr Damir A Shakambet who is executive chairman of the International Society for Bioregulatory Medicine in London.TRANSCRIPT
integrated system biology medicine
©
Principles of the Bioregulatory Medicine
BIOREGULATORY MEDICINE
title
British Academy for Bioregulatory Medicine
®
title
Dr Damir A Shakambet M.D.
Biomedic Centre
23 Manchester Street
London W1U 4DJ
tel +44 - 207 935 6866
www.biomedic.co.uk
®
Introduction to
Bioregulatory Medicine
•Prevalence of Degenerative
and Malignant Diseases
•Allopathic treatment based on
biochemical or mechanistic
approach
•Poor success for complex
diseases
•Need for new treatment
Introduction to
Bioregulatory Medicine
Introduction to
Bioregulatory Medicine
What are solutions?
Personalised
Preventative/predictive
System Biology
– Multifactorial
– Balancing
– Self healing potential
Dynamic Health Model
Presomatic
Acute
Chronic
S T A T I C MODEL
Degenerative
D Y N A M I C MODEL
Non-suppressive Bioregulatory reversal
Suppressive disease stage treatment
Malignant
Introduction to
Bioregulatory Medicine
Scientific Paradigm Shift
1. Empiricism (Aristotle)
and Linear paradigm of
cause-effect (Descartes)
2. Singular Aetiological
factor determines
Treatment
3. Palliative treatment
4. Increased incidence of
chronic and malignant
diseases
1. System Biology - multifactorial
causes Integrative and Holistic
treatment
2. Multi-causal treatment of
supporting Homeostasis
3. Causative and Preventative
treatment
4. Decreased incidence of
chronic and malignant
diseases
Current Medical Model
New Medical Model ©
Introduction to
Bioregulatory Medicine
Dynamic Model of Health
Disease orientated model
Waiting for symptoms
Diagnosis-fixed, criteria
based
Prolong life and palliative
treatment
Health orientated model
Early presomatic signs
Diagnosis-flexible and personalised search for dysregulation
Reversal of Chronic disease and causal treatment
Old Static model New Dynamic model
Introduction to
Bioregulatory Medicine
System Biology and Bio informatics
Biological Complex Systems
"Systems biology is putting together rather than taking apart,
favouring integration rather than reduction. It means changing
our philosophy, in the full sense of the term"
Denis Noble
INFORMATIONAL
PATHWAYS
GRS
environment
PNEI
Biomolecules
environment
universe
©
human organism
Biological Complex Systems
Bertalanffy Prigogine
• Biological open systems
• Group of objects that work in
concert produce some result
• System as a set of independent
and interacting parts.
General System Theory
Self-organisation
Ilya Prigogine
1917-2003
• Multiple interactions of the system
• Organisation is spontaneous as
attempt to go to equilibrium as a form
of resonance.
• Balance of exploitation and
exploration
Karl Ludwig von Bertalanffy
1901-1972
Biological Complex Systems
Wiener
Systems BiologyBiological Complex Systems
Time and space medicinePrinciples of Bioregulation
and Homeostasis
Ve
rtic
al
Horizontal
D I S E A S E
H E A L T HEmotional / Bioenergetic
Biochemical
Humoral
Intercellular (Matrix)
Cellular
B I O L O G I C A L D I V I S I O N
R E G R E S S I V EP R
O G
R E
S S
I V E
Disease levels„space medicine‟
Principles of Bioregulation
and Homeostasis
Chronology of Disease„time medicine‟
Principles of Bioregulation
and Homeostasis
horizontal axis-time
Homeostatic failure “Dis-ease”
Principles of Bioregulation
and Homeostasis
Bioinformation
Bioelectromagnetism and
Human Electrophysiology
System interrelationship
Psycho-neuro-immune Systems
Ground regulating Systems
DNA PNEI
Cell
receptors
Transducing
Signalling
Epigenetic
regulating
proteins
Nerve Biological Connective
Pathways molecules fibres
Bioinformatics and DNA - PNEI ControlP
N E
I
DNA
GRS
ENVIRONMENT
Homeotherapeuticals
Environment is your external metabolism
Dr Max Gerson
External&internal environment
system control
Principles of Bioregulation
and Homeostasis
P N E I GRS
Internal environment
DNA
External environment
Biological terrain and Clinical Ecology
Biological terrain
and Clinical Ecology
Oxidative stress
Tissuelesion
Augmented enzymes
that produce radicals
PhagocytosisInflammation (Activation of the phospholipases, cyclooxygenases y
lypooxygenases)Destruction of the antioxidantsRelease of metals and proteins (hemoglobin, myoglobin)Interruption of electron transport
Trauma
Heat
Infection
Toxins
Geopatic
Biological terrain
and Clinical Ecology
Rehydrationdehydration
The most common symptoms of chronic dehydration:
1 Fatigue 10 Mood Swings
2 Constipation 11 Low Immunity
3 Digestive Disorders 12 Frequent Inflammations
4 Gastritis and Peptic Ulcers 13 Cholesterol Increase
5 Low Blood Pressure 14 Premature Aging
6 Respiratory Troubles 15 Acid-alkaline Imbalance
7 Excess Weight and Obesity 16 Cystitis
8 Dry Skin and Eczema 17 Congestion and Fluid Retention
9 Anxiety 18 etc..,
pH=7.36
pH=7.4
Increased Tissue Acidity
Increased acid
production
Diminished acid
elimination
phosphate, sulphuric acid
sulphates
low haemoglobin, plasma
proteins,
kidney stones, gall bladder
stones, cholesterol
phosphate buffers
osteophytes, atheromas KHCO3
NAHCO3
gout, rheumatism alkaline mineral Ca, Mg, K..
Biological terrain
and Clinical Ecology Tissue Acidity
Bioregulatory
Detoxification
Detoxification
cellular
detoxification
matrix
detoxification
capillary y
lymphatic
detoxification
•KIDNEYS
•LIVER G BLADDER
en
vir
on
men
t
•MUCOSAS
•skinexc
reti
on
Detoxification
Bioregulatory Microbiome treatment
"La bactérie n'est rien. C'est le terrain qui fait tout"
L Pasteur
Biological terrain
and Clinical Ecology
Structural Bioregulatory treatment
Psycho-vegetative treatment
Summary
The End