Metabolic Syndrome - International Academy of Homotoxicology

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Journal of
Biomedical
Therapy
Volume 2, Number 1 ) 2008
Integrating Homeopathy
and Conventional Medicine
Metabolic
Syndrome
• An “Incurable” Diabetic Foot Ulcer
• Suis-Organ Products in Antihomotoxic Medicine

)
Contents
In Focus
Metabolic Syndrome . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
What Else Is New? . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Fr o m t h e P ra c t i c e
An “Incurable” Diabetic Foot Ulcer . . . . . . . . . . . . . . . . . . . . . . 10
Immediate Intervention Required! . . . . . . . . . . . . . . . . . . . . . . 12
Around the Globe
ACAM Fall Meeting in Phoenix . . . . . . . . . . . . . . . . . . . . . . . . . 15
Refresh Your Homotoxicology
Citric Acid Cycle Catalysts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Marketing Your Practice
Practical Tips for Improving Your Marketing Strategy . . . . . . 18
Specialized Applications
Individualized Infusion Therapy
in Metabolic Syndrome . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Practical Protocols
Detoxification and Drainage in Metabolic Syndrome . . . . . . 23
Making of ...
Suis-Organ Products in Antihomotoxic Medicine . . . . . . . . . 24
Research Highlights
Emotional Stabilization
Through Homeopathic Medication . . . . . . . . . . . . . . . . . . . . . 26
Crossword Puzzle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Cover photograph © Ashe/Fotolia.de
) 2
Published by/Verlegt durch: International Academy for Homotoxicology GmbH, Bahnackerstraße 16,
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Editor in charge/verantwortlicher Redakteur: Dr. Alta A. Smit
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© 2008 International Academy for Homotoxicology GmbH, Baden-Baden, Germany

)
A Challenge for the Future:
Fighting Metabolic Syndrome
Dr. Alta A. Smit
Metabolic syndrome has come
a long way since its beginnings
as Syndrome X (so called because
its pathophysiology was not
totally clear). The syndrome was described
as early as 1946 by a French
physician in Marseille, but the link
between insulin resistance and cardiovascular
disease did not become
commonplace in cardiovascular medi
cine until after the Banting Award
address by Gerald M. Reaven in early
spring of 1988, when metabolic
syndrome emerged as a pattern of
inflammatory disease with devastating
consequences if left untreated.
Modern articles have examined the
connections among leptin resistance,
insulin resistance, and the age-old
genetic patterns of maintenance and
adaptive metabolism that ensure the
survival of our species.
In the normal maintenance pattern
of fat burning, which ensures the
optimum environment for reproduction
of the species, leptin is relatively
low and insulin levels are normal.
Under stressful conditions, our genetic
make-up triggers the so-called
adaptive response and a different
pattern of fat utilization sets in,
namely, storage in anticipation of a
time when the species will again be
able to reproduce. If the adaptive response
persists for too long, resistance
to both insulin and leptin develops
as the body protects the cells
from their effects. The brain interprets
this situation as leptin or insulin
deficiency, and levels rise even
further, resulting in true leptin and
insulin resistance.
In the maintenance response to dietary
carbohydrate and fat, no fat is
deposited. Our stressful modern
lifestyle, however, constantly triggers
the adaptive response of storing
food for the future. As a result, fat
accumulates, especially around the
midriff. Switching the prevailing
pattern from the adaptive response
back to the maintenance mode of fat
burning is a major challenge for the
future.
Clearly, the pathophysiology of metabolic
syndrome is now better understood,
but as we see from Professor
Michael Kirkman’s com pre hensive
focus article, it remains a complex
and multifactorial disease. As
in all such conditions, bioregulatory
therapy can play an important role,
since it also addresses sequelae of
metabolic syndrome such as tissue
acidosis and chronic inflammation.
Dr. Ulrike Keim is one of the leading
homotoxicological experts on
this syndrome, so we asked her to
write about some of her cases and
protocols. She expands on this practical
aspect by sharing her experience
with i.v. therapy, which is an
important component of treatment
in many acute and chronic diseases,
especially in cases of metabolic syndrome.
Free radical formation and loss of
mitochondrial function are major
factors in all chronic diseases. Two
preparation groups – the catalysts
and the suis-organ preparations –
play special roles in the homotoxicological
approach to metabolic
syndrome. Dr. Ivo Bianchi, a worldrenowned
expert on homotoxicology,
has studied the catalysts in depth
and has a wealth of experience in
using these compounds in his practice.
His short article in the section
“Refresh Your Homotoxicology”
puts the use of the catalyst combination
Coenzyme compositum in context.
Finally, Dr. Erich Reinhart
presents the first of two articles in a
series on manufacturing the suis-organ
preparations and ensuring their
quality.
Alta A. Smit, MD
References:
1. Reaven GM. Syndrome X: A Short History.
The Ochsner Journal 2001;3(3):
124-125.
2. Chilton FH III. The role of natural
bioactives for the prevention and treatment
of chronic human diseases. Lecture
given at: ACAM Fall 2007 Conference;
November 14-18, 2007; Phoenix, AZ.
) 3
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) In Focus
Metabolic Syndrome
By Prof. Michael F. Kirkman, MD
Chartered Biologist (Institute of Biology, London)
Fellow Royal Institute of Public Health (London)
Principal, Academy of Homotoxicology and Bio-Regulatory Medicine (States of Jersey)
Director of Academic Affairs, The Society for Homotoxicology and Antihomotoxic Therapy (Great Britain)
“Structure Is an Expression of Function.”
Epidemiologic key factors
relating to metabolic syndrome
) 4
Introduction
The term “metabolic syndrome” denotes
a constellation of cardiovascular
risk factors related to insulin resistance
and obesity with a visceral
fat pattern. 1(p741),2 Definitions have
varied, but the basic elements are
well validated and include insulin
resistance, inflammation, and immunologic
dysfunction with increased
oxidative stress preceding the accepted
characteristics of hypertension,
atherogenic dyslipidemia (high
triglycerides, low HDL, high LDL),
obesity (increased waist circumference,
BMI, and waist-hip ratio),
together with elevated fasting blood
sugar level, glucose intolerance, hyperglycemia,
and a prothrombotic
state (see Table 1).
Although the exact criteria vary between
the two key determinant projections
(National Cholesterol Education
Programme – Adult Treatment
Panel III [NCEP ATP III] and World
Health Organization [WHO]), the
criteria correlate closely.
Interestingly, the WHO includes microalbuminuria
(overnight urinary
albumin excretion rate > 20 μg/
min), which the author believes is
significant in relation to the inflammation/oxidative
stress element and
the fact that glucotoxicity and lipotoxicity
induce changes in cell signaling,
protein expression, gene expression,
and free radical formation.
These may be relevant to associated
pathophysiological factors (prothrombotic
components, vascular
endothelial dysfunction, and accelerated
athero-embolic conditions)
and are undoubtedly related to an
imbalance in vascular endothelial
mediators, which results in excess
angiotensin II and nitric oxide deficiency.
Hence, vasoconstriction, prothrombotic,
pro in flammatory, and
pro-oxidant states ensue. 1(p741),2
Abdominal obesity
Triglycerides
HDL cholesterol
Blood pressure
Fasting glucose
• men
• women
• men
• women
Table 1: ATP III criteria for diagnosing metabolic syndrome
Here we first need to mention the
genetic predisposition of an individual.
Gestational diabetes is a risk
factor, and so may be bottle feeding.
Lifestyle factors also play a role in
this context. To begin with dietary
habits, the consumption of white
sugar (Professor Yudkin’s “pure,
white, and deadly”) and other high
calorie foods, especially refined carbohydrates
and those of high glycemic
index, stand paramount. Reduced
physical activity, particularly
in adolescence, and an imbalanced
microbial gut flora will also contribute
to the development of metabolic
syndrome.
Minor factors seem to be elevated
homocysteine levels (> 5 μg/L), ab-
> 102 cm (40 in)
> 88 cm (35 in)
≥ 150 mg/dL
< 40 mg/dL
< 50 mg/dL
≥ 130/≥ 85 mm Hg
≥ 110 mg/dL
Diagnosis of metabolic syndrome is made when 3 or more of the above risk determinants
are present
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) In Focus
Table 2: Effects of adipocytokines
Promotes weight gain and inflammation
IL-6: causes insulin resistance,
proinflammatory cytokine
Promotes weight loss
Adiponectin: important insulin sensitizer
IL-1: proinflammatory cytokine
Leptin: major (down-) regulator of
food intake and appetite
TNF-α: increased in obesity,
modulates insulin sensitivity
Resistin: modulates insulin sensitivity
Non-esterified fatty acids (NEFA):
cause insulin resistance
normalities in autonomic nervous
system regulation (affecting somatostatin
function in relation to beta
cells in the pancreatic islets, perhaps
also delta and alpha cells), and low
C2 reactive protein function. 1(p742)
To confirm the diagnosis of metabolic
syndrome, 3 or more of the
ATP III criteria must be present (see
Table 1).
Pathophysiology
This brings us to the key player in
metabolic syndrome – insulin and
its receptors. Insulin (a small protein
in the form of two chains with
disulphide bonds, with a molecular
weight around 6000 daltons) is synthesized
in the pancreatic beta cells.
The cytoskeletal ribosomes manufacture
preproinsulin from insulin
MRNA. The “pre” is enzymatically
cleaved off, leaving the proinsulin to
move into secretory granules in the
Golgi apparatus for storage. During
the secretory process, the connecting
C-peptide is split off by specific
endopeptidases. Equimolar quantities
of insulin and C-peptide (a risk
factor marker) are released into the
circulation, on occasion of glucose
entry via specialized glucose transporter
proteins (GLUT-2). Potassium
channels in the beta-cell membrane
are closed (glucose metabolism
ATP), the membrane thus depolarized,
and calcium channels opened,
leading to calcium-dependent exocytosis
of insulin-rich granules.
The insulin receptor on cell surfaces
is a glycoprotein that includes the
insulin binding site where a cas cade
response is initiated, resulting in
increased transport of glucose into
the cell (GLUT-4). Insulin is subsequently
degraded, and the receptor
is recycled to the cell surface. 3
In relation to the process above, insulin
resistance is probably multifactorial,
i.e., influenced by a continuum
of factors including diet, exercise,
body weight, toxic hypertriglyceridemia,
decreased HDL cholesterol,
obesity, and hypertension, together
with various multi-endocrine and
inflammatory factors, which will be
discussed next.
It has recently been discovered that
subclinical inflammatory changes
are characteristic of both type 2 diabetes
and obesity. Unknown abnormalities
reduce the effect of insulin
signaling within the cell, producing
not only insulin resistance (high intracellular
triglyceride is a possible
factor) but also (as a result) beta-cell
stress and strain due to high output
failure. (The author suspects that
release of NF-kB plays a role here
triggered by the release of reactive
oxygen species.) Proinflammatory
cytokines, especially TNF-a and
IL-6, are elevated in both diabetes
2 and obesity, and the raised C-reactive
protein levels are associated
with raised fibrinogen and PAI-1
levels (again, possibly the effect of
NF-kB).
Two key endocrine organs are involved
in the process: endocrineadipose
tissue and the endocrineskeleton.
Yes, the skeleton is an
endocrine organ that regulates
blood sugar! In higher eukaryotes,
including humans, adipose tissue is
the main energy reservoir – there
may be evolutionary connotations
here –, and its primary purpose is
to store triacylglycerol in periods
of energy excess and mobilize it
during energy shortage. Transcriptional
activation of adipocyte genes
(PRARg) is involved in directing
adipocyte-specific gene expression
and adi pogenesis and is affected by
the leptin secreted by mature adipocytes.
Leptin is a recently discovered
hormone that seems to regulate
body fat mass by binding to its receptor
in the hypothalamus (energy
balance and homeostasis). 4
Adipose tissue produces many adipocytokines,
including inflammatory
mediators and hormones that cause
low grade chronic inflammation and
other endocrine and metabolic dysregulatory
effects, thus resulting in
insulin resistance and cardiovascular
risks (see Table 2).
The insulin resistance produces an
imbalance of the mitogen-activated
protein kinase (MAPK) at the level
of insulin receptors and the phosphatidylinositol
3-kinase (PI3-K)
pathways. The PI3-K is an antiatherogenic
pathway and the
MAPK proatherogen. 1(p743),5 ) 5
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) In Focus
Abdominal obesity, recognized by
increased waist circumference, is
a risk factor for developing metabolic
syndrome.
© iStockphoto.com
) 6
Various other mediators are sourced
from adipocytes, 1(p743),4 but two key
ones need discussion here. First,
adipose tissue-specific secretory
factor (ADSF/resistin) plays a role
in insulin resistance to affect adipogenesis,
thereby linking obesity to
diabetes. Second, the peroxisome
proliferator-activated receptors
(PPARa and g) are involved not
only in insulin resistance and glucose
and lipid metabolisms but also
in inflammation (again, through
NF-kB), aging, and atherosclerosis
and its complications. 4
Surprisingly, the skeleton is also involved
in this process. It is now
known that the osteocalcin produced
by cells in bone “increases
both the secretion and sensitivity
of insulin, in addition to boosting
the number of insulin-producing
cells and reducing stores of fat.” 6
Let us now move on to discuss antihomotoxic,
integrated, naturopathic,
holistic management of insulin
resistance. This paper will leave
aside regular exercise (aerobic and
resistance) and dietary and lifestyle
engineering (including cognitive
behavior therapy) to concentrate
on homotoxicology and nutritional
engineering.
Clinical relevance
The net effect of insulin resistance
on the organism is the accumulation
of insulin and glucose in the tissues,
which have detrimental effects
through a number of pathways.
Elevated blood glucose levels lead to
activation of the polyol pathway (resulting
in toxic sorbitol), auto-oxidation
pathway (resulting in crosslinking
via advanced glycation
end products [AGEs]), protein kinase
pathway (resulting in expression of
inflammatory mediators such as the
transcription factor NF-kB), and
oxygen radical pathway (resulting in
NO reduction and tissue damage as
well as the activation of NF-kB).
The end result of these pathways is
chronic inflammation, tissue destruction,
and an interference in cellular
processes.
Antihomotoxic approach to
metabolic syndrome
Where does homotoxicology fit into
this picture? Hans-Heinrich Reckeweg’s
unique intellectual synthesis
and system of medicine seems to fit
metabolic syndrome like a glove,
and his antihomotoxic therapy appears
to have all the necessary bioregulatory
and integrated holistic
facets for successful management of
this condition.
Dr. Alta Smit’s detailed protocols, as
outlined in the Journal of Biomedical
Therapy, stand paramount. 7 This
author, however, believes that because
the helenalin in Arnica “douses”
NF-kB, Traumeel should be added
to the initial treatment protocols,
which consist of the pillars of treatment
for regulating the biological
terrain (through detox and drainage,
cellular activation, organ regeneration,
immunostimulation, and immunomodulation).
The above analysis
of metabolic syndrome supports
the use of these medications, especially
in the protocols for weeks
7-12. I would add Pankreas suis
(also included in Hepar compositum)
and (in view of associated autonomic
nervous system dysregulatory
states) perhaps also Ypsiloheel
and in particular Ginseng compositum
as a PNETI rebalancer that simultaneously
reduces gluco- and lipotoxicity.
(The author is currently
undertaking a practice-based study
of Ginseng compositum for the annual
seminar of the Society for Homotoxicology
and Antihomotoxic
Therapy in Great Britain.)
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) In Focus
Elevated blood pressure is one of
the components that characterize
metabolic syndrome.
© iStockphoto.com/Maxim Tupikov
Adjuvant nutritional therapy
On a microbiological level, the intake
of probiotics will help to overcome
gut microbial dysfunction.
Immunonutrition products (especially
trace elements such as selenium,
zinc, chromium, and manganese)
and functional foods also support
medicinal treatment. Last but not
least, I would like to mention antioxidants
(free radical scavengers)
and so-called “cleansers,” e.g., spirulina
(an alga that provides a full range
of amino acids).
Conclusion
In conclusion, now that biomedical
pathophysiological research is beginning
to explain conditions such
as metabolic syndrome, it is becoming
more important to adopt Dr.
Reckeweg’s integrated, holistic approaches
and to incorporate concepts
such as the living matrix,
structural/functional interconnectedness,
and bioinformational transmission
into our prophylactic and
therapeutic endeavours.|
Recommended texts for homotoxicologists
(relevant to paper)
1. Jänig W. The Integrative Action of the
Autonomic Nervous System. Neurobiology
of Homeostasis. Cambridge: Cambridge
University Press; 2007.
2. Jones DS, Quinn S. Textbook of Functional
Medicine. Gig Harbor, WA: Institute for
Functional Medicine; 2005 (especially
Section VII, Chapter 37, Metabolic
Syndrome).
3. Oschman J. Energy Medicine in Therapeutics
and Human Performance. Amsterdam,
the Netherlands: Butterworth-Heinemann;
2003.
References:
1. Jones DS, Quinn S. Textbook of Functional
Medicine. Gig Harbor, WA: Institute
for Functional Medicine; 2005.
2. Laaksonen DE, Lakka HM, Niskanen
LK, Kaplan GA, Salonen JT, Lakka TA.
Metabolic syndrome and development
of diabetes mellitus: application and
validation of recently suggested definitions
of the metabolic syndrome in a
prospective cohort study. Am J Epidemiol
2002;156:1070-1077.
3. Shepherd PR, Kahn BB. Glucose transporters
and insulin action. New Engl J
Med 1999;341:248-257.
4. Kim KH, Lee K, Moon YS, Sul HS.
A cysteine-rich adipose tissue-specific
secretory factor inhibits adipocyte
differentiation. J Biol Chem
2001;276(14):11252-11256.
5. Xu H, Barnes GT, Yang Q, Tan G,
Yang D, Chou CJ, Sole J, Nichols A,
Ross JS, Tartaglia LA, Chen H. Chronic
inflammation in fat plays a crucial
role in the development of obesityrelated
insulin resistance. J Clin Invest
2003;112:1821-1830.
6. Lee NK, Sowa H, Hinoi E, Ferron M,
Ahn JD, Confavreux C, Dacquin R,
Mee PJ, McKee MD, Jung DY, Zhang
Z, Kim JK, Mauvais-Jarvis F, Ducy P,
Karsenty G. Endocrine regulation of
energy metabolism by the skeleton. Cell
2007;130(3):456-469.
7. Smit A. Metabolic syndrome and diabetes
type II: adjuvant treatment. J Biomed
Ther 2004;Fall:5-6.
Physical activity and healthy,
low-calorie food can help to prevent
the development of metabolic
syndrome.
) 7
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) What Else Is New?
New scientific findings suggest
that artificial food colors and
additives (AFCAs) are associated
with increased hyperactivity in
children.
More evidence on
Soda: Is just one a day too
much for your heart?
Does TV make children
smart?
artificial food colorings
) 8
and hyperactivity
A randomized, double-blinded, placebo-controlled
clinical trial published
in The Lancet presents additional
evidence that artificial food
colors and additives (AFCAs) in the
diet cause hyperactivity in children.
The 153 3-year-old children and
144 8/9-year-olds included in the
study consumed either a placebo
mix or test drinks containing sodium
benzoate preservatives plus one
of two AFCA mixes (A or B). To assess
hyperactivity levels in both age
groups, the researchers used aggregated
z-scores of observed behaviors
and ratings by parents and
teachers. In addition, the 8/9-yearolds
took a computerized test of attention.
Compared with placebo, mix A had
statistically significant adverse effects
on 3-year-olds, whereas mix B
did not. The 8/9-year-olds showed
statistically significant adverse effects
from both mixes. The authors
concluded that artificial food colors
and/or sodium benzoate preservatives
in the diet result in increased
hyperactivity in 3-year-old and
8/9-year-old children in the general
population.
The Lancet
2007;370(9598):1560-1567
Increased consumption of sugary
drinks, already linked to obesity and
diabetes among children and teens
and to high blood pressure in adults,
may also increase the risk of metabolic
syndrome, which in turn increases
chances of developing heart
disease and/or diabetes. A new
study published in the July 31 2007
issue of the American Heart Association’s
journal Circulation found that
the prevalence of metabolic syndrome
was 44 to 48 percent higher
among people who drank as little as
one soda a day, either diet or regular,
as compared to those who drank
less than one.
The study did not determine whether
soda consumption constitutes a
true risk factor in itself or is simply
a marker for other behaviors that
promote metabolic syndrome. People
who drink soda habitually also
tend to consume more total calories
and high-fat foods, smoke more,
and exercise less than people who
do not. Sodas may also displace
healthier beverages in the diet or encourage
a sweet tooth.
Needless to say, the soda industry
took issue with the findings.
Circulation 2007;116:480-488
Child psychologists and pediatricians
advise beginning early with
normal social interactions with other
toddlers, using normal language
(not baby talk) with babies and toddlers,
and finding playful ways to
introduce children to logical processes.
But parents don’t always have
a lot of time to spend talking to their
babies, keeping them occupied, or
reading to them on a regular basis.
That’s why parents in the USA are
increasingly using television, with
its special children’s programs, as an
educational aid. A recent study explored
this topic, asking whether
TV promotes child development or
whether parents simply permit TV
watching for egotistical reasons.
In a telephone survey, 40 percent of
parents admitted to allowing their
three-month-old babies to watch
television on a regular basis. According
to the same survey, 90 percent
of two-year-olds spend 1.5
hours a day in front of the TV. The
respondents said they believed television
would help their children develop
language skills, but they also
admitted that they used television to
keep kids entertained and as an
electronic babysitter.
Arch Pediatr Adolesc Med
2007;161:473-479
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) What Else Is New?
Educational aid or electronic babysitter?
A recent US survey shows that
parents let their infants and toddlers
watch television on a regular basis.
A happy partnership
helps to
prevent the
development
of CHD.
Live hard,
die young
Mortality rates of rock and pop stars
are significantly higher (more than
1.7 times) than rates for their age
peers in the general population. The
average age of death for pop musicians
is unusually low: 42 years in
North America and only 32 years in
Europe, according to the findings of
an epidemiological study. The most
frequent causes of death are drugs
(31%), cancer (20%), accidents
(16%), and suicide (9%). In later life,
when stars are no longer in the spotlight,
their mortality rates begin to
return to population levels. Even
then, however, drug and alcohol
abuse remain significant causes of
death. Of particular concern is the
fact that rock stars are serving as
poor role models for teens, who
need to be encouraged not to imitate
the lifestyles of their idols.
J Epidemiol Community Health
2007;61:896-901
Marital discord is bad
for the heart
An unhappy marriage puts heart
health at risk. A study followed
9,011 British subjects for 12 years.
Most of them (8,499) did not have
heart disease when the study began.
During the observation period, 589
developed coronary heart disease. In
analysis of the participants’ living
situations, unhappy partnerships
emerged as an independent risk factor.
Arch Intern Med
2007;167(18):1951-1957
Love handles
are hereditary
For the first time, scientists have
identified a specific gene on chromosome
16 that is instrumental in
increasing body mass index and is
involved in the development of diabetes
mellitus. This variant of the
FTO (fat mass and obesity associated)
gene is a reproducible variant in
the first intron. The association with
excess weight was found in several
cohorts with a total of 38,759 participants.
Individuals with a homozygous
risk allele were 1.67 times
more likely to become obese and averaged
3 kg heavier. The connection
is first observed around age six and
is independent of gender and ethnicity.
In the future, individuals predisposed
to obesity will be able to
take preventive measures early in
life.
Science 2007;316(5826):889-894
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) 9
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) From the Practice
An “Incurable” Diabetic Foot Ulcer
By Ulrike Keim, MD
Specialist in internal medicine
) 10
I met this patient’s wife first, when she approached me after
a diabetes education day in Bonn, Germany. She reported that
her husband had recently been released from the hospital,
where he had spent almost a year due to a diabetic ulcer on
the sole of his foot.
The ulcer had not healed, the
condition of his foot had not
changed in a year, and the open
wound was considered incurable.
I asked the couple to come see me in
my office. The patient was very unhappy
because he had been told to
spend most of the day lying down
and not to put any weight on that
foot. He almost never left the house
anymore. His wife described him as
a “closet depressive,” and he was becoming
increasingly forgetful.
While hospitalized, he had not been
allowed to put any weight on the
foot at all. Whenever he was not lying
in bed, he wore a special shoe
that kept the weight off the forefoot.
Medical history
This 76-year-old patient had a
twenty-year history of metabolic
syndrome, type 2 diabetes, hypertension,
and hyperuricemia. Diabetic
nephropathy had developed,
along with motor, sensory, and autonomic
polyneuropathy. The patient
no longer had any sensation of
touch or pain in his feet, lower legs,
or thighs. He was constantly dizzy
and unsteady on his feet and had
become very forgetful. His hospital
records showed that he also had
coronary heart disease with cardiac
insufficiency (NYHA II). I ordered
lab tests that revealed elevated levels
of free radicals and hyperhomocysteinemia.
Laboratory parameter Results 4/2003 Results 10/2003 Reference values
HbA1c 6.1% 6.1% < 6.1%
Creatinine 3.4 mg/dL 2.9 mg/dL < 1.1 mg/dL
Urea 134 mg/dL 100 mg/dL < 71 mg/dL
Homocysteine 23 11 < 9
Oxidative stress 580 180 < 200
Diabetic foot ulcer
The wound was 3 cm in diameter,
clean, and clearly delineated (see
Figure 1). It was not deep and there
was no bone involvement. When examining
a patient with diabetic foot
syndrome, vibration sensation testing
with a 128 Hz tuning fork is
obligatory.
The patient had no vibration sensation
in his feet and could not distinguish
between cold and warm or
pointed and dull. His feet were pale
(with some livid discoloration) and
slightly edematous. The foot pulses
were not palpable. An MRI showed
complete closure of the distal arteries
of the lower legs.
The patient’s blood sugar levels were
good, with fasting levels between
90 mg/dL and 120 mg/dL and
postprandial levels between 120
mg/dL und 140 mg/dL, with only
a few “maverick” readings up to 180
mg/dL (see Table 1).
What to do?
The patient presented with multifactorial,
pathological metabolic processes
accompanied by significant
late damage. During his almost yearlong
hospitalization, the causes of
the foot ulcer had not been adequately
treated and therapeutic measures
had addressed only the ulcer
itself. Successful wound healing requires
treatment of the triggering
Table 1: Lab test results
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) From the Practice
factors, in this case impaired microcirculation
and diabetic polyneuropathy.
Figure 2 shows the pathological
cascade that leads to polyneuropathy.
Clearly, this patient needed
therapeutic intervention on several
different levels:
1. A combination of fast-acting and
long-acting insulins effectively controlled
his blood sugar, thus his dosages
were not changed.
2. The patient’s endogenous antioxidant
capacity and free radical
loads were out of balance, resulting
in increased oxidative stress and
subsequent metabolic inflammation.
Intervention, therefore, had to include
both antioxidant and anti-inflammatory
therapy.
3. The patient had received no prior
treatment for his macro- and microcirculatory
disorders. The goal
here was to achieve vasodilation of
the small blood vessels and normalization
of homocysteine levels as a
discrete risk factor for atherosclerosis.
4. The overall therapeutic goal was
to reduce matrix edema.
5. Therapy for the wound itself.
Inflammatory
cytokines
increase
Visceral
obesity
Oxidative stress
Glutathione level
decreased in
peripheral nerve
Disturbance of blood flow
in the perineurium
and endoneurium
Hyperglycemia
Edema in the nerve sheaths
Treatment Concept
Antioxidants 1
• 600 mg vitamin E
• 300 μg selenium
• 20 mg zinc
• 500 mg vitamin C
Normalization of
elevated homocysteine
• 50 mg vitamin B6
• 1 mg vitamin B12
• 5 mg folic acid
Antihomotoxic treatment
• For organ strengthening in coronary
heart disease with cardiac
insufficiency: Cor compositum
twice weekly, i.v.
• To improve macrocirculation: Circulo-Injeel
twice weekly, i.v.
• To improve cerebral microcirculation:
Cerebrum compositum twice
weekly, i.v.
• To improve systemic microcirculation:
Vertigoheel 2 tablets 3 times
a day for 8 weeks, then 2 tablets 2
times a day
1
Unless otherwise noted, dosages refer to the
daily amount of medication (taken orally).
Insulin resistance
Beta-cell dysfunction
Non-enzymatic glycosylation
Thickening
of basement
membrane
Impaired lymphatic
function
Colloid osmotic
pressure increases
Figure 1: Diabetic foot ulcer
• To reduce matrix edema: Lymphomyosot
1 tablet 3 times a day;
Ubichinon compositum and Coenzyme
compositum injected together,
once weekly, i.m.
• To reduce inflammation: Traumeel
1 tablet 3 times a day
• Wound therapy: daily treatment of
the wound with Traumeel ampoules,
dry bandage
Under this treatment regimen, the
wound grew smaller and flatter from
week to week. After five months, it
had completely closed. The patient’s
subjective symptoms were significantly
reduced, and his quality of
life had improved considerably. He
was already able to go for short
walks again, and even under this
stress the ulcer did not break open
again. Objective criteria (lab results)
also showed improvement over the
initial findings.
His wife reported that he was responding
better to minor exertion,
did not get out of breath as quickly,
and was no longer so forgetful
(which she especially appreciated).
He was able to concentrate much
better during his daily rummikub
games. Antihomotoxic therapy addressed
the causes of the ulcer by
improving microcirculation and reducing
matrix edema, which then
allowed the wound to heal.|
) 11
Matrix
edema
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1
Figure 2: Pathological cascade
leading to polyneuropathy

) From the Practice
Immediate Intervention Required!
Prophylaxis in a Male Patient With
Early-Stage Metabolic Syndrome
By Ulrike Keim, MD
Specialist in internal medicine
) 12
Previously, Mr. B. E. had visited my office only occasionally,
during the spring allergy season, when he suffered from
bronchial asthma. In February 2007, however, he reported
having been hospitalized for a week for treatment of sudden
deafness and tinnitus in his left ear. Cortisone treatment
and rheological infusion therapy had restored his hearing,
but the tinnitus continued to bother him. Overall, he felt
unmotivated and physically weak.
This 63-year-old patient was
overweight, with a body-mass
index of thirty and a waist circumference
of 104 cm (41 in). His liver
was palpably fatty and soft to the
touch. Other findings were unremarkable;
his pulse was regular and
his reflexes normal. Lab test results
were indicative of early-stage metabolic
syndrome bordering on type 2
diabetes (see Table 1).
Four major interventional studies
conducted in recent years all came
to the same conclusions on how development
of type 2 diabetes can be
prevented in cases of metabolic syndrome
such as this one (see Table
2).
After nutritional counseling, the
patient changed his eating habits
significantly, reducing his consumption
of animal fats in particular. Mr.
B.E. was well aware that he stood at
the crossroads: Either he would have
to adopt a more health-conscious
lifestyle and undergo holistic homeopathic
treatment, or the metabolic
syndrome would develop into
full-fledged type 2 diabetes. Due to
the “demands of his job,” as the patient
put it, he was unable to implement
the recommended exercise
program. 1
In addition to advising lifestyle
changes, I developed a treatment
program for the patient that focused
on his microcirculatory disorders
(which were already pronounced)
and the following risk factors:
• hypercholesterolemia
• hypertriglyceridemia
• excess weight
• borderline erythrocyte
and hematocrit values
• impaired glucose tolerance
Treatment model
Mr. B.E. received the following basic
treatment for metabolic syndrome
(see also Figure 1):
1. Syzygium compositum is the
basic medication in antihomotoxic
treatment of metabolic syndrome,
especially in elderly and debilitated
patients. Its main ingredient is the
seed of the jambul or black plum
(Syzygium cumini), which grows in
Malaysia, India, and the tropical
parts of China. It has been known
since the nineteenth century for its
ability to reduce blood sugar. Syzygium
compositum’s other ingredients,
selected for their complementary
effects, include:
• Acidum phosphoricum and
Aci dum sulfuricum, for their
strengthening effects in debility
• Hepar suis and Pankreas suis,
for their organ-strengthening
effects
• Strychnos ignatii, for its benefits
in states of psychological stress
and worry
1
Endurance sports such as bicycling and swimming are most effective; Nordic walking is the best of all.
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) From the Practice
Photo by Ann Murray, University of Florida/IFAS Center
for Aquatic and Invasive Plants. Used with permission.
The jambul or black plum
(Syzygium cumini) is the main
ingredient of Syzygium compositum.
2. Detoxification:
The patient was accustomed to a
fatty diet and frequent alcohol consumption
and had a stressful job.
The need for detox therapy was urgent.
I recommended Heel’s Detox-
Kit (ingredients: Lymphomyosot,
Berberis-Homaccord, and Nux vomica-Homaccord).
Lymphomyosot
has cleansing effects on matrix metabolism,
Berberis-Homaccord detoxifies
the organism via the kidneys
and urinary tract, and Nux vomica-
Homaccord detoxifies the digestive
system and the liver. Because of obvious
liver involvement, I supplemented
this detox program with one
tablet of Hepeel three times a day to
enhance liver detoxification.
Laboratory parameter Results 2/2007 Results 6/2007 Reference range
Fasting blood sugar 130 mg/dL 84 mg/dL < 110 mg/dL
HbA1c 6.5% 5.6% < 6.5%
Total cholesterol 346 mg/dL 171 mg/dL < 200 mg/dL
HDL cholesterol 39 mg/dL 38 mg/dL > 35 mg/dL
LDL cholesterol 241 mg/dL 114 mg/dL < 150 mg/dL
LDL/HDL quotient 6.1 3.0 < 3.0
Triglycerides 378 mg/dL 214 mg/dL < 200 mg/dL
Erythrocytes 6.0/pL 5.7/pL 4.4-5.9/pL
Hematocrit 51% 47% 42-52%
Table 1: Lab test results
3. Improving circulation:
Because the patient’s blood was too
viscous, blood-letting was performed
at weekly intervals. The cubital vein
was punctured and approximately
100 ml of blood allowed to flow
freely into a cup. This procedure was
followed by infusion of the following
antihomotoxic medications to
promote circulation:
• Circulo-Injeel
• Vertigoheel
• Placenta compositum
• 7% reduction in weight
• Increasing activity to 150 minutes a week @ 30 minutes a day, 5 times a week
• Increasing fiber intake to 15 grams/1000 kcal
• Reducing fat intake to 30% of calories
• Reducing saturated fats to a maximum of 10%
Successful implementation of 2 of these points prevents 23% of diabetes cases;
achieving all 5 prevents almost 100%.
Table 2: Measures to prevent the development of type 2 diabetes
(Source: Consensus paper of the German Ministry of Health and Social Security
[BmGS])
) 13
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) From the Practice
Figure 2:
The citric acid cycle
Bloodletting was performed five
times and infusion ten times, at one
infusion per week. On days when he
did not receive infusion therapy, the
patient took two tablets of Vertigoheel
three times a day to improve
microcirculation.
4. To activate blocked cell and
enzyme functions and to improve
metabolism, the acids and salts of
the citric acid (Krebs) cycle were
added to the infusion three times at
two-week intervals (see Figure 2).
Already after three weeks, the patient
was free of tinnitus symptoms.
By the end of four weeks, he had
completely changed his diet and lost
four kilograms. Further treatment
with Syzygium compositum improved
his glucose tolerance and
psychological state. Upon conclusion
of the series of infusions, the
patient felt very well and no longer
reported any feeling of weakness.
As Table 1 shows, his lab test results
also improved.
Although symptom-free, the patient
continues to take the following
medications, which I prescribed to
prevent metabolic syndrome and
type 2 diabetes and to improve microcirculaton:
• 1 tablet Lymphomyosot
3 times a day
• 10 drops Syzygium compositum
3 times a day
• 2 tablets Vertigoheel
3 times a day
• 1 tablet Hepeel
3 times a day
We arranged to repeat the course of
infusions once a year.|
Detoxification
Improving
circulation
Syzygium
compositum
Citric acid cycle
Figure 1: Basic treatment concept for metabolic syndrome
) 14
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) A r o u n d t h e G l o b e
ACAM Fall Meeting in Phoenix
By Rüdiger Schneider, PhD
The acronym “ACAM” stands for the American College for
Advancement in Medicine. This non-profit medical society
is dedicated to educating physicians and other healthcare
professionals on the latest findings and emerging procedures
in preventive/nutritional medicine, especially as related to
the practice of complementary and alternative medicine.
It is probably the largest and oldest organization of this
kind in the USA.
Worldwide, there are very few large
conferences on alternative, complementary,
and integrative medicine,
which makes it all the more important
to take advantage of such venues
for sharing the latest scientific
findings with the CAM community.
The reaction of participants in the
2007 ACAM conference speaks for
itself.|
The ACAM meets twice yearly,
in spring and in fall. The 2007
fall meeting, on “Integrative Medicine:
Advancing Science and Clinical
Practice,” took place from November
16-18 in Phoenix, Arizona.
Most of the approximately 300-400
attendees were naturopathic physicians
(NDs) or MDs specializing in
natural medicine/CAM. Plenary
session lectures dealt with the latest
clinical and empirical findings and
developments in alternative medicine.
The topics covered included
inflammation in the brain, the NO/
ONOO-cycle, treatment of IBD,
pain neutralization techniques, evidence-based
nutrition, and detoxification
treatments.
In a one-day pre-conference workshop
on detoxification and drainage
that was attended by about forty
people, Dr. Alta A. Smit, the editor
of this journal, presented detailed
theoretical and practical approaches
to proper detoxification and drainage,
including easy-to-use guidelines
that cover the entire process,
beginning with assessing the patient’s
toxic status and concluding
with how to use the Detox-Kit and
other Heel products for basic detoxification
and drainage and advanced
organ support. Judging by
the spontaneous applause, this approach
was received with great interest
and enthusiasm. (See the previous
issue of this journal for more
information on detoxification and
drainage.)
Heel Inc.’s booth at the
ACAM 2007 fall meeting
) 15
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Refresh Your Homotoxicology
Citric Acid Cycle Catalysts
By Ivo Bianchi, MD
) 16
The contribution of homotoxicology to the progress of
medicine has been pivotal because it links homeopathic
concepts and laws to modern scientific knowledge.
Dr. Reckeweg’s starting point was the study of homeopathic
materia medica, but he enriched and added to it in various
ways and on various levels.
An original and essential contribution
resulted from the great
attention paid to the study of the
cell, which Reckeweg defined as the
primary and fundamental element in
which disease originates. An energy
deficiency in the cell causes it to
dysfunction, and an individual cell
dysfunction is the start of a more
complex pathology, which inevitably
becomes an organic disorder.
When it enters a crisis, the cellular
energy plant (i.e., the mitochondrion)
begins to lack energy for any
biochemical cellular process; in particular,
the proteins, enzymes, and
cytokines which are fundamental to
the life of a specialized cell are not
synthesized.
A cell that is lacking energy reduces
its function to a minimum, uses large
quantities of glucose via a metabolic
route that does not require oxygen,
pollutes the surrounding connective
tissue, and progressively assumes the
characteristics of a neoplastic cell.
This whole sequence of events
which leads from normal physiology
to dysfunction, to degeneration, and
eventually to neoplasia, is initiated
in the mitochondrion and, more
specifically, in that sequence of oxidative
reactions involved in pyruvic
acid catabolism and ATP production.
It is clear how important it is to
keep this sequence of key biochemical
reactions as efficient as possible
for both the catabolic and anabolic
aspects of cell function.
Patients with chronic degenerative
diseases, which are those we encounter
most frequently today in
our natural medicine clinics, primarily
need specific, selective stimulation
of the citric acid cycle. Treatment
with intermediary catalysts in
a dilute, dynamized form offers an
exceptional therapeutic opportunity
in this domain.
Therapeutic approaches
The patient is assessed and, if this
shows that he is in one of the cellular
phases of the homotoxicology
table, total stimulation of the citric
acid cycle must be carried out, either
by the administration of Coenzyme
compositum or the individual catalysts
if they are available.
If we consider that the organism often
uses the building blocks of the
citric acid cycle via many other metabolic
pathways, it is clear that deficiencies
of substances at various levels
will tend to block the cycle once
again. It is therefore useful to start
therapy to support the citric acid
cycle with Coenzyme compositum,
at the rate of one ampoule sublingually
or by injection 1 to 3 times
weekly. Children, in whom the citric
acid cycle has presumably not
reached a block as in adults or in
chronically ill patients, can obviously
start directly with the catalysts
providing energy and a reactive
stimulus to the organism.
Although this is the best general
strategy for using the citric acid cycle
catalysts, it is also useful to be
familiar with the role and consequently
the clinical indications of
the individual catalysts, which we
summarize below.
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Refresh Your Homotoxicology
Natrium pyruvicum
This is the next product in glucose
metabolism. If the metabolism and
the use of this metabolite are not
stimulated, it tends to accumulate in
the cytoplasm, where it is used anaerobically
and induces tissue acidosis.
Citric acid
This is the first stage in the citric
acid cycle and represents a basic
building block not only in the production
of energy at this level, but
also in the synthesis of essential fatty
acids fundamental to the nerve
structures of the organism.
Cis-Aconitic acid
This is a metabolite which forms
very fleetingly. A lack of its regulation
leads to general problems of tissue
hyperreactivity.
Alpha-Ketoglutaric acid
This is a fundamental stage in the
citric acid cycle, but it is also a fundamental
metabolite in the synthesis
of some biological amines important
for the functioning of nerve tissue,
such as glutamic acid and glutamine.
If the cycle is blocked at this point,
it causes changes in neuromuscular
function.
Succinic acid
This is the substance used in the innermost
part of the mitochondrion
to trigger oxidative phosphorylation,
the peak stage of energy production
in the cell. Blocking of this
metabolic pathway leads to damage
to tissues, particularly those with a
high energy requirement such as hematopoietic
tissue in particular.
Fumaric acid
This is a key stage not only in the
citric acid cycle but also for a whole
series of metabolites involved in the
synthesis of fundamental amino acids,
including tyrosine and phenylalanine.
Blockage of the cycle at this
point causes disturbances of lipid
metabolism.
DL-Malic acid
Blocking of the citric acid cycle at
this point prevents the correct use of
Natrium pyruvicum. Such a blockage
is typical in individuals with senile
diabetes and causes many of the
tissue and primary cell problems
that occur in this disease.
Natrium oxalaceticum
This is a key metabolite for triggering
the citric acid cycle through its
reaction with acetyl CoA. A disturbance
of this metabolic stage leads
to a general weakening of organic
reactivity, making the individual
prone to disease and parenchymal
toxin accumulation. It should also
be noted that Natrium oxalaceticum
is a precursor of aspartic acid, which
is involved in the urea cycle and thus
in the production of nitric oxide, a
substance which is vital to the circulatory
system.
Barium oxalsuccinicum
This is not a citric acid cycle catalyst
but a salt originally believed by
Reckeweg to activate cell reactivity
in the elderly and in individuals in a
degenerative phase.
In severe or chronic cases, an intensive
stimulation of the individual
components of the citric acid cycle
catalysts may be beneficial. In my
practice, I use the so-called “Sammelpackung”
(combination pack) of
the citric acid cycle catalysts to
achieve this.
In this, the 10 ampoules of the single
pack of catalysts are administered
at the same time, without placing
too much importance on the
route of administration. If possible,
the 10 ampoules should be placed
in a small infusion of 100 cc, which
should be administered over about
30 minutes. Intramuscular administration
of the 10 ampoules is, however,
also effective, and a good effect
can likewise be obtained by the sublingual
route. The administration of
the 7 citric acid cycle catalysts, the
reactive stimulus salt Barium oxalsuccinicum,
and the trace elements
magnesium, manganese, and phosphorus,
all in a dilute, dynamized
form, gives this mitochondrial metabolic
cycle a remarkable reactive
stimulus.
This “rekindling” or stimulation
should be repeated every 2 to 3
weeks in very elderly patients or
those with metabolic dysfunction or
neo plasia because various toxic
problems other than metabolic problems
tend to re-block the citric acid
cycle. Patients who are not in a
clearly degenerative phase will,
however, need this therapeutic
application only every 3 to 6
months.|
The mitochondrion provides cellular
energy through a series of biochemical
reactions called “citric acid cycle.” In
patients with chronic degenerative
diseases, intermediary catalysts are
successfully used to stimulate this
process.
) 17
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Marketing Your Practice
Practical Tips
for Improving Your Marketing Strategy
By Marc Deschler
Marketing specialist
) 18
Practitioners often mentally equate marketing with
advertising, but in fact marketing serves multiple goals:
tapping into the market, winning over patients, market
protection, and patient loyalty. It is important to know
that just under 70 percent of patients in a practice are
there because of the practitioner’s personal charisma,
making that a good foundation for marketing when
fostering patient loyalty is your goal.
But before you even begin to
think about new and improved
marketing behavior, first evaluate
the current state of your practice.
Get clear on your current status by
answering the following questions:
1. Why do patients come to us in
particular? Is it the location? Absence
of competition? (Not likely!)
Are we exceptionally friendly?
2. Which patients come to us?
What is their age, gender, social
class?
3. Why don’t other patient groups
come to us?
4. What do we do differently, better,
or worse than other practices in
the area?
5. How do our patients feel in our
office? Welcomed and well treated,
or rushed through and out of
place?
6. What do we offer? Is there anything
we offer that patients are especially
happy about, or anything they
almost never take advantage of?
7. What do we do well and gladly,
and what do we do less well or only
reluctantly?
8. Is there anything special about
our patient service, any particular
offerings or support services?
9. Do our patients know the full
range of what we offer? Do we make
them aware of it only in passing, or
do we provide printed information?
Answer these questions yourself and
then ask your patients to answer
some of them. Determine where you
stand now and base your future
marketing efforts on an adequate
understanding of your current status.
Handling complaints
How your practice handles complaints
is important in developing
patient loyalty. Wouldn’t you know
it – patients who complain but get
satisfaction are six times more loyal
than patients who never have a
problem with you, so when a patient
does complain, your complaints
management needs to be excellent.
Keep in mind the following points
for working things out with those
problem patients:
1. Listen, listen, and listen some
more. Let the patient “let off steam,”
even if he or she says the same
thing several times.
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Marketing Your Practice
When a patient complains, listen
carefully and make sure you understand
why he or she is angry. If possible, let the
patient offer a solution.
© iStockphoto.com/Marcin Balcerzak
2. Ask questions and more questions.
From his/her point of view,
the patient is certainly right, and
you need to understand why he/
she is angry. (Understanding is not
the same as acknowledging that
you’re at fault.)
3. Solutions: Let the patient solve
the problem. If you can accept a solution
he/she offers, the issue simply
evaporates. If you can’t, suggest
one or more possible compromises.
4. The most important thing is to
follow through with everything
you promise, or else your effort will
be wasted.
5. Check with the patient again to
make sure that everything has been
resolved to his/her satisfaction.
Marketing in the
waiting room
Actively marketing your practice is
especially important in your waiting
room because you’re not there to
make a good impression yourself.
© iStockphoto.com/Ivonne Wierink
You can, however, use your waiting
room as a learning opportunity for
your patients. Instead of standardissue
furniture, get together with a
local supplier and arrange to test
balance ball chairs, or demonstrate
how to adjust a desk chair for back
support. Provide related handouts
so your patients can see how to use
ergonomic devices as they try them
out on the spot. Videos for patients
to watch while waiting are also instructive,
but not all patients want to
be inundated with medical information,
so make sure there’s a corner
where they can get away from it.
Having ordinary TV programming
available is more problematic because
the patients have to agree on
what to watch.
There’s nothing worse than sitting
around in an oppressive atmosphere
waiting for your name to be called.
Whether to have the radio on or a
CD of relaxing music playing in the
background depends on your patients’
tastes. If you resort to canned
music, don’t forget to change it at
least once a month so it doesn’t become
too monotonous for everyone.
If patients have to wait for their appointment,
their waiting time should be as
pleasant as possible. There is nothing
worse than sitting in an oppressive
atmosphere.
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1
When choosing reading material for
your waiting room, don’t just opt
for the standard subscriptions or put
out your own back issues. Maybe
you’d be happy with the Financial
Times, but how would it go over
with your target group? Instead, ask
yourself what issues you’d like your
patients to raise with you, and select
material that addresses topics you
want to discuss. For example, many
women’s magazines regularly include
articles on medical topics, so
you need to be prepared to answer
questions about them. Under no circumstances,
however, do your medical
journals belong in the waiting
room!
Offering hot and cold drink service
also has a place in the perfect waiting
room. If drinks are available,
make sure there’s a sign telling patients
that they can help themselves
free of charge. Make sure someone is
assigned to ensure a constant supply
(and let in a bit of fresh air at the
same time, if needed).
If you have a bulletin board, check it
regularly to make sure that the information
posted is up-to-date and
of interest.
It’s not always possible to avoid
making patients wait for their appointments,
but when it happens,
their waiting time should be as productive
and pleasant as possible.
That’s also part of good office ambiance.|
) 19

) S p e c i a l i z e d A p p l i c a t i o n s
Individualized Infusion Therapy
in Metabolic Syndrome
By Ulrike Keim, MD
Specialist in internal medicine
Metabolic syndrome is a multifactorial problem.
A paradigm shift is required in order to understand the
metabolic processes involved and treat our patients with
metabolic syndrome holistically. The old glucose-centered
view no longer reflects the reality of well-researched
metabolic processes.
In metabolic syndrome, late
damage is due to deposition of
the following homotoxins:
• glucose
• free oxygen radicals
• sorbitol
• advanced glycation end
products
• inflammatory mediators
In metabolic syndrome, the pathological
cascade is initiated by the
triad of visceral adiposity with associated
dyslipidemia, hyperglycemia
with beta-cell dysfunction, and
insulin resistance. As the pathology
progresses, we see increased free
radical formation, reduced bioavailability
of NO, release of inflammatory
cytokines, and accumulation of
toxins in the matrix. The end results
of this pathophysiological interaction
are endothelial dysfunction
with micro- and macrocirculatory
disturbances and diabetic polyneuropathy.
The toxic byproducts of
this pathological cascade constitute
homotoxins in the sense of modern
homeopathy and Hans-Heinrich
Reckeweg’s theory of disease. The
effects of homotoxins are first felt in
the early stages of glucose intolerance,
even before metabolic syndrome
is diagnosed. Elevated glucose
levels lead to four pathological
“pathways”:
1. the polyol pathway: sorbitol develops
and accumulates around
nerve endings
2. the auto-oxidation pathway: advanced
glycation end products develop
3. the protein kinase pathway: inflammatory
mediators such as NFkB
und TNF-α are expressed
4. the free radical pathway: reduction
of NO occurs
The antihomotoxic therapeutic approach
is to reduce the damaging
effects of homotoxins. According to
Reckeweg’s six-phase table, in diabetes
deposition of homotoxins occurs
first, followed later by impregnation
and degeneration accom pa nied by
the characteristic late damage.
In planning infusion therapy for
prophylaxis and treatment of metabolic
syndrome and its late damage,
the following questions should be
considered:
• Which toxins are present?
• What is the patient’s phase on
the six-phase table?
• What is the patient’s clinical
status?
In some cases, extensive lab tests
may also be helpful. For example,
knowing the patient’s homocysteine
level and free radical loads (e.g., lipid
peroxidase) can be valuable.
) 20
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) S p e c i a l i z e d A p p l i c a t i o n s
Intravenous therapy is an important
component of treatment in many acute
and chronic diseases, especially in cases
of metabolic syndrome.
Treatment concept
I recommend twice-yearly infusion
therapy for my patients – ideally,
twice-weekly infusions (to a total of
ten) each spring and fall. Lymphomyosot
is the basic medication. Its
constituents act on four different
levels: on the lymphatic, respiratory,
and digestive systems and on the
urinary tract. Infusion therapy
should be preceded by approximately
two weeks of oral treatment with
Lymphomyosot at the standard dosage
of 1 tablet 3 times a day or 15
drops 3 times a day. In multimorbid
or severely debilitated patients, better
tolerance is achieved by reducing
the dosage to 8 to 10 drops 3 times
a day.
In patients with metabolic syndrome,
both visceral adipose tissue
and the interaction of free radicals
and advanced glycation end products
contribute to metabolic inflammation
(which can be corroborated
by ultrasensitive CRP measurements,
among other tests). To reduce inflammation,
I often add Traumeel
(antihomotoxic medicine’s most important
anti-inflammatory) to the
infusions. As a component of the
citric acid (Krebs) cycle, dl-malic
acid has notable metabolism-stabilizing
effects in metabolic syndrome.
Below are several examples of timetested
infusions with special emphases.
1 The products Coenzyme compositum
and Ubichinon compositum
are not registered for intravenous
use in most countries and should
therefore be administered either i.m.
or s.c. after every infusion.
Toxic sorbitol
Polyol pathway
Protein kinase pathway PKC
Expression of inflammation
mediators NF-kB
Glucose
AGEs (advanced glycation end products)
Auto-oxidation pathway
Oxygen radical pathway
NO-reduction
© iStockphoto.com/Wa Li
Figure 1: Pathological pathways triggered by elevated blood glucose levels
1 Please note that some of the medications listed may not be available for injection in a few countries. It is the practitioner’s responsibility to use the medications as
directed in the product information.
) 21
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) S p e c i a l i z e d A p p l i c a t i o n s
Infusion protocols in metabolic syndrome
) 22
Infusion for metabolic
syndrome/obesity
• Graphites-Injeel (Ed. note:
or Graphites-Homaccord)
• Hepar compositum
• Nux vomica-Injeel (Ed. note:
or Nux vomica-Homaccord)
• Lymphomyosot
• Traumeel
• Acidum DL-malicum-Injeel
Infusion for metabolic
syndrome with high blood
pressure (adjuvant)
• Melilotus-Homaccord
• Rauwolfia compositum
• Arteria suis-Injeel
• Traumeel
• Lymphomyosot
Infusion for metabolic
syndrome with pancreatic
insufficiency
• Pankreas suis-Injeel
• Acidum DL-malicum-Injeel
• Momordica compositum
• Traumeel
• Lymphomyosot
Infusion for metabolic
syndrome with mild to
moderate circulatory
disturbances
• Circulo-Injeel
• Placenta compositum
• Vertigoheel
• Traumeel
• Lymphomyosot
• Cerebrum compositum
(in cerebral circulatory
disturbances)
Infusion for metabolic
syndrome with
polyneuropathy
• Lymphomyosot
• Vitamin B 6
• Vitamin B 12
• Traumeel
• Vertigoheel
• Selenium
• Vitamin C
(administered as a separate
infusion)
Infusion for metabolic
syndrome with hyperhomocysteinemia
• Vitamin B 6
• Vitamin B 12
• Folic acid
• Traumeel
• Vertigoheel
• Circulo-Injeel
• Cerebrum compositum
(for cerebral circulatory
disorders)
If the catalysts of the citric acid
(Krebs) cycle are available, patients
will derive great benefit (in the form
of improved metabolism) from yearly
or twice-yearly infusions of these
catalysts (see case study on page 12
and the article on citric acid cycle
catalysts on page 16 of this journal).
Ideally, the catalyst infusions should
be administered every two weeks
and in alternation with any of the
infusions listed above, to a total of
three citric acid cycle infusions, after
which the basic infusions can be
continued without the interspersed
catalyst infusions.
The patients’ subjective wellbeing is
greatly enhanced by these treatments,
and objective signs such as
blood pressure, blood sugar levels,
and cholesterol levels also improve.
For all of these reasons, patients usually
return without being reminded
for their next annual infusion series
and recommend the infusions to
relatives and friends.|
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Practical Protocols
Detoxification and Drainage
in Metabolic Syndrome
By Bruce H. Shelton, MD, MD(h), DiHom
Detoxification is an important
component in the basic treatment
of metabolic syndrome patients.
Individuals with central obesity
are a high risk group, not only
because of the inflammatory potential
of fatty tissue but also because
fatty tissue is a reservoir for toxins
(see BT 2/2007, page 13). For this
reason, these patients need fairly
gradual detoxification with adequate
support of the organs of detoxification
and drainage. (Esthetic mesotherapy
in particular mobilizes fat
tissue, releasing stored toxins, so
these patients always need advanced
organ support, followed by a long
period of drainage with the Detox-
Kit.) We seek a delicate balance in
treating patients with metabolic
syndrome: Weight loss is imperative
because inflammatory fatty tissue
poses a risk to the entire organism,
but mobilizing fat releases dangerous
toxins, which may exacerbate
the pathology.
For these patients, Thyreoidea compositum
is a good choice because of
its metabolic, immunologic, and organ-strengthening
properties. Fatty
tissue (simply another form of connective
tissue) is supported by the
Funiculus umbilicalis suis in the
product. In patients who develop
central obesity as a consequence of
stress or extraneous cortisone use,
Pulsatilla compositum is especially
useful and can replace the Thyreoidea
compositum. The catalysts are
mandatory in these conditions.
Many of these patients develop gallstones
during rapid breakdown of
fatty tissue. Patients at high risk (especially
fair-skinned females over
40 years of age) can be supported by
adding Chelidonium-Homaccord to
the Detox-Kit during the drainage
phase. (See protocol in Table 1.)|
Disease-specific treatment Strumeel and/or Syzygium compositum, Cralonin, Barijodeel
Followed by detoxification treatment: Always do advanced organ support first
Weeks 1-6 or until point count is < 100
Liver
Urinary tract/
Kidney
Lymph Skin Gut Gallbladder Connective
tissue
Respiratory
tract
Advanced organ
support
Hepar comp. Solidago comp. Hepar comp. Thyreoidea comp.
Alternative
products
Hepeel Reneel Galium-Heel/
Lymphomyosot
Nux vomica-
Homaccord
Leber-Galle
Tropfen
Pulsatilla comp.
For cellular
detoxification,
add:
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Note
Dosage
The metabolically active medications Hepar compositum and Coenzyme compositum can also be injected into ST 36 (0.5 cc of the mixture into the AP point).
Ampoules: In general, 3-1 times weekly 1 ampoule i.m., s.c., i.d. Drops: In general, 10 drops 3 times daily
After six weeks or when point count < 100: Basic detoxification and drainage
Liver
Urinary tract/
Kidney
Lymph Skin Gut Gallbladder Connective
tissue
Basic detoxification
and drainage
Detox-Kit Detox-Kit Detox-Kit Detox-Kit Chelidonium-
Homaccord
Detox-Kit
For cellular
detoxification,
add:
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Coenzyme comp./
Ubichinon comp.
(or Ubicoenzyme)
Note
Dosage
In very obese patients, continue with Thyreoidea compositum/Pulsatilla compositum for 12 weeks longer.
Ampoules: In general, 3-1 times weekly 1 ampoule i.m., s.c., i.d. Drops: In general, 10 drops 3 times daily
) 23
Table 1: Detox protocol for metabolic syndrome
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Making of ...
Suis-Organ Products in
Antihomotoxic Medicine
Part 1: Breeding and Raising the Donor Pigs
By Erich Reinhart, DVM
Therapy with animal endocrine extracts is widespread, even
in conventional medicine, but some countries, including
Germany and France, have a long history of more extensive
use of animal organ derivatives for therapeutic purposes.
Organotherapeutic medicines in this broader sense may be
derived from organs, cells, cell fractions, organ extracts,
enzymes, or any combination of the above. 1(p102-103)
) 24
The suis-organ products used in
antihomotoxic therapy are homeopathically
prepared (i.e., diluted
and potentized) organ tissues produced
from raw materials derived
from healthy pigs and manufactured
according to Regulations 42a (oral
and external medications) or 42b
(parenteral medications) of the German
Homeopathic Pharmacopeia
(HAB), as applicable. The designation
“suis” (Latin, “pig”) indicates the
origin of the raw materials. Suis-organ
products expand the classical
homeopathic repertory to cover
functional organ disorders and degenerative
organ damage (for more
information about the rationale behind
and use of suis-organ medications
in antihomotoxic medicine,
see BT 2/2007, pp. 16-17). According
to Schmid, “Organ preparations
are medicinal products which
contain several, or all, tissue components
of an organ. In addition to the
differentiated cellular constituents –
e.g., liver cells, kidney cells, cerebrum
cells, blood cells, bone marrow
cells, and thymus cells – these preparations
also contain connective
vascular tissue and ground substance
(stromata).” 1(pp102)
Ideal donor animal
Pig tissues are the obvious choice in
view of the many chemical, biological,
physiological, and morphological
similarities between this species
and the human organism – similarities
that have even led to attempts to
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Making of ...
Left:
The fodder of the donor pigs consists of
cereal groats, organically-grown soy
groats, and minerals.
Right:
Proper cleaning and disinfecting of the
animals’ stalls are effected according to
the requirements of the Ministry of
Agriculture’s hygiene regulations.
substitute pig organs for scarce human
organs in transplantation medicine.
From the homeopathic perspective,
a pig-derived potentized
organ product can be considered a
“simile” of the homologous human
organ(s). For this reason, stronger
effects are being attributed to pig
organ preparations than to products
derived from cattle or sheep. 2
Breeding and husbandry
Pigs destined to supply the raw materials
for homeopathic organ extracts
for antihomotoxic medications
are provided by a breeding operation
that is certified to be free of
specific pathogens and under constant
veterinary oversight to ensure
compliance with all applicable hygiene
regulations of the German
Federal Ministry of Agriculture. The
brood sows all come from the same
breeding line. The future donor pigs
stay with their mother until they are
six weeks old, and her milk is their
primary food until they are weaned.
After weaning, the litter stays together
and the piglets are raised
separately from other pigs to prevent
the stress and fights for dominance
that may ensue if new animals
are introduced into the group. The
animals’ stalls are cleaned and disinfected
before occupancy. The breeding
operation must abide by all of
the Ministry of Agriculture’s hygiene
regulations applicable to hog
rearing, including requirements for
proper cleaning and effective disinfection.
Non-employees must wear
either disposable outer garments or
protective clothing provided by the
company, and their shoes must be
cleaned and disinfected before entering
the stall areas.
The pigs’ fodder consists entirely of
plant materials (cereal groats) grown
on the farm itself, supplemented
with purchased protein (soy groats)
and minerals. The soy groats are organically
grown to ensure that this
critical feedstuff is free of genetically
engineered products. Feeding of
food scraps or animal by-product
meals from mammals is both legally
and contractually forbidden. In addition
to monitoring by the state
Animal Health Service for compliance
with all health directives applicable
to animal breeding operations,
the animals are checked both at regular
intervals and as needed by the
company’s veterinarian. They are
also examined by the district veterinary
officer before shipping out.
Safety measures
Ensuring the microbiological safety
of the final products involves an extensive
checklist of procedures. Suitable
sample tissues are selected for
testing for the zoonotic pathogens
most common in pigs. In southern
Germany, where the pigs are raised,
Salmonella spp., Campylobacter
spp., and Yersinia spp. are the most
relevant. Tests for these and other
pathogens must be negative if the
animal’s tissues are to be used in
manufacturing suis-organ medicines.
Separate records of test results are
kept for each animal. Also available
for reference are two files of materials
from groups of experts. These
files list and discuss all diseases
known to occur in pigs, describe
which of these diseases might theoretically
occur in the geographical
area and under the conditions in
which the donor pigs were raised,
and explain the measures to be taken
to eliminate the possibility of using
animals infected with these (theoretically
possible) diseases.
The above-mentioned standards of
livestock husbandry, feeding, and
hygiene along with the combination
of clinical, microbiological, and serological
tests (some of which exceed
government requirements)
minimize the risk of using organs
contaminated with hog-borne
zoonotic pathogens and maximize
the safety of the final organ products.|
References:
1. Schmid F (ed). Biological Medicine. Baden-
Baden, Germany: Aurelia Verlag, 1991.
2. Reckeweg H-H. Homotoxikologie – Ganzheitsschau
einer Synthese der Medizin. 6th ed. Baden-
Baden, Germany: Aurelia Verlag, 1986: 616.
) 25
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Research Highlights
Emotional Stabilization
Through Homeopathic Medication
Neurexan reduces the psychological strain of stress
In a randomized, placebo-controlled
double-blind study, neurophysiological
methods were used to
determine the effects of Neurexan
on patients’ psychophysiological
con dition. The administration of
Neurexan was found to help them
to cope better with acute stress situations.
The homeopathic combination medication
Neurexan consists of the
components passionflower (Passiflora
incarnata), oats (Avena sativa),
caffeine (Coffea arabica), and zinc
salts (Zincum isovalerianicum) in
homeopathic dosages. The literature
contains a number of references
to the tension-relieving, anxiolytic
properties of the passionflower.
Exposure to a stressful situation
To investigate the effect of Neurexan
during mental strain, a total of 30
persons took part in a study in which
a stress situation was created. To assess
their clinical condition, initial
and final examinations were performed
in which, in addition to a
standardized clinical case history
and a physical examination, an ECG
was recorded, blood and urine samples
were taken, and an alcohol test
was performed.
The healthy male and female volunteers,
who were between 30 and 60
years of age, underwent a test in
which they had to solve mathematical
problems. If they solved the
problems well, volunteers received a
reward (increase in volunteer remuneration);
if they did badly, they received
a “punishment” (loss of remuneration).
During the study, either
active medication or a placebo was
used in a single dose of 4 tablets in
each case. EEGs of the study participants
were recorded. The recordings
were repeated hourly until four
hours after the administration of the
tablets.
It is assumed that different emotional
moods are shown by statistically
significant changes in the electrical
activity of the brain. Six frequency
ranges (delta, theta, alpha, alpha 2,
beta 1, and beta 2) were therefore
defined for the analysis of the quantitative
EEG and color-coded.
Sharp rises in the beta waves are observed
mainly during cognitive tasks
and powerful emotional events such
as the mentally stressful situations
that were part of the study design.
During the study there was a clear
reduction in spectral output in the
beta frequency band in the Neurexan
group. After just one hour, a significant
difference was seen between
the Neurexan group and the placebo
group, which intensified in the second
and third hours. The reduced
rise in the beta waves is a sign of the
lesser subjective strain in the active
medication group and is evidence of
emotional stabilization.
The test substances were very well
tolerated. In a few cases the volunteers
complained of tiredness.
Conclusion
The single dose of 4 tablets of Neurexan
produces statistically significant
changes in electrical brain activity
compared to placebo. This is
interpreted as evidence of a more
balanced mood, which makes it
possible to cope better with psychological
strain in stressful situations
without mental functions being
impaired. |
) 26
The passionflower (Passiflora incarnata)
has anxiolytic properties and is
used for the treatment of nervousness
and insomnia.
Reference:
Dimpfel W. Psychophysiological effects of Neurexan
® on stress-induced electropsychograms. A
double-blind, randomized, placebo-controlled
study in human volunteers. Paper presented at:
2nd World Conference of Stress; August 23-26,
2007; Budapest, Hungary.
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

) Crossword Puzzle Re s e a r c h
Highlights
Solve the puzzle and win!
Here’s how it works: Complete the
crossword puzzle and enter the letters
from the numbered boxes in the
blanks to make a word. Then e-mail
your solution to:
journal@iah-online.com to enter it
in our drawing before August 31,
2008. Ten lucky winners will receive
copies of the book “Biological
Medicine in Geriatrics” (Ingo Füsgen,
Hartmut Heine, and Werner
Frase, eds.). Please remember to include
your complete mailing address.
Results of the drawing are
final. Good luck!
Solution to last issue’s puzzle:
Detoxification
) 27
Journal of Biomedical Therapy 2008 ) Vol. 2, No. 1

IAH Abbreviated
Course
An e-learning course leading to
certification in homotoxicology
from the International Academy for
Homotoxicology in just 40 hours.
1 Access the IAH website at www.iah-online.com.
Select your language.
2 Click on Login and register.
3 Go to Education Program.
4 Click on The IAH abbreviated course.
5 When you have finished the course, click on Examination.
After completing it successfully, you will receive your
certificate by mail.
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