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An
infectious epidemic is typically diagnosed by
scientists and non-scientists by a sudden
increase in morbidity and mortality of a
population. As a result the affected
population declines significantly, and a
relatively immune population emerges. The
most readable modern description of such an
epidemic is Albert Camus' "The Plague".
Roy Anderson, professor of
zoology at the Wellcome Trust Centre for
Epidemiology of Infectious Diseases in
Oxford, UK, provides a recent scientific
description in a piece entitled "The spread
of HIV and sexual mixing patterns" (Anderson,
1996). According to Anderson, "The historical
and epidemiological literature abounds with
accounts of infectious diseases invading
human communities and of their impact on
social organization and historical events. We
typically think of a new epidemic in a
"virgin" population as something that arises
suddenly, sweeps through the population in a
few months, and then wanes and disappears.
Indeed, the classical epidemic curve for many
respiratory or intestinal tract viral and
bacterial infections is bell-shaped, with an
overall duration of a few months to a year or
so. Figure 4-1 illustrates a well-documented
example, the 1665 plague in London, believed
to have killed about one-third of the
population in a few months."
The seasonal
poliomyelitis epidemics from the days prior
to the polio vaccine, and the ever new,
seasonal flu epidemics are specific modern
examples of viral epidemics.
All of these viral and
microbial epidemics have the following in
common:
(i)
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They rise exponentially
and then decline within weeks or months
as originally described by William Farr
in the early 19th century (Bregman &
Langmuir, 1990). The rise reflects the
exponential spread of contagion and the
fall reflects the resulting natural
vaccination or immunity of survivors.
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(ii) |
The epidemics spread
randomly ("heterosexually" in the words
of AIDS researchers) in the population.
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(iii) |
The resulting
infectious diseases are highly specific
reflecting the limited genetic
information of the causative microbe. As
a consequence the viral diseases are
typically more specific than those caused
by the more complex bacteria or fungi. It
is for this reason that the viruses and
microbes are typically named for the
specific disease they cause. For example
influenza virus is called after the flu,
polio virus after the poliomyelitis, and
hepatitis virus after the liver disease
it causes
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(iv) |
The microbial and
particularly the viral epidemics are
self-limiting and thus typically
seasonal, because they induce
anti-microbial and viral immunity and
select also for genetically resistant
hosts.. |
By contrast, the
following are characteristics of diseases
caused by non-contagious, chemical or
physical factors:
(i)
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They follow no specific
time course, but one that is determined
by the dose and duration of exposure to
the toxin.
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(ii) |
They spread according
to consumption or exposure to toxic
agents, but not exponentially.
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(iii) |
They spread either
non-randomly with occupational or
lifestyle factors, or randomly with
environmental or nutritional factors.
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(iv) |
They range from
relatively specific to unspecific
depending on the nature of the toxin.
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(v) |
They are limited by
discontinuation of intoxication, but not
self-limiting because they do not
generate immunity. |
For example, the
American pellagra epidemic of the rural South
in the early decades of the 20th century
lasted for decades and no immunity emerged,
until a vitamin B rich diet proved to be the
cure. And it did not spread to the industrial
North which had a diet rich in
Vitamin B.
Similarly the rather unspecific American
epidemic of lung cancer-emphysema-heart
disease-etc. rose steadily, not
exponentially, in the 1950s and has lasted
now for over 50 years without evidence for
immunity.
It did not spread randomly in the population
but was restricted to smokers. And it is now
slowly coming down as smoking slowly declines
(Greenlee et al.,2000).
Likewise the American
and European AIDS epidemics:
(i)
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rose steadily, not
exponentially,
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(ii) |
were completely
non-randomly biased 85% in favor of
males,
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(iii) |
have followed first the
over-use of recreational drugs, and then
the extensive use of anti-AIDS-viral
drugs (Duesberg & Rasnick, 1998),
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(iv) |
do not manifest in one
or even just a few specific diseases
typical of microbial epidemics,
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(v) |
do not spread to the
general non-drug using population.
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AIDS manifests in a
bewildering spectrum of 30 non-specific,
heterogeneous diseases.
This is consistent with the heterogeneity of
the causative toxins.
There is no evidence for AIDS-immunity in 18
years, but the American/European AIDS
epidemics are now coming down slowly as fewer
people use recreational drugs
(Duesberg & Rasnick, 1998).
The above summary
indicates that American and European AIDS
epidemics exhibit the characteristics of
diseases caused by non-contagious, chemical
or physical factors NOT viruses.
A F R
I C A N A I D S
AFRICAN AIDS
IN NUMBERS
Now I will briefly
analyze how African AIDS measures up with
"the historical and epidemiological
literature" described by Anderson and others
(Fenner et al.,1974).
My analysis is based on
statistical numbers from the World Health
Organization (WHO) in Geneva, the United
Nations and the U.S. Agency for International
Development & the U.S. Census Bureau (USAID).
According to the WHO's
Weekly Epidemiological Records,
the whole continent of Africa has generated
between 1991 and 1999 a rather steady yield
of 60,000 to 90,000 AIDS cases annually, on
average about 75,000 (WHO's Weekly
Epidemiological Records since 1991).
Based on the last
available data from South Africa, 8,976 cases
were reported there between 1994 and 1996 by
the WHO, corresponding to about 4,500 cases
per year (WHO's Weekly Epidemiological
Records 1998 and 1995).
The WHO does not report how many of these
cases are deaths, how many survive with, and
how many recover from AIDS.
However, it is evident
from the WHO data that the African AIDS
epidemic is not following the bell-shaped
curve of an exponential rise and subsequent
sharp drop with immunity, that are typical of
infectious epidemics. Instead it drags on
like a nutritionally or environmentally
caused disease (Seligmann et al., 1984), that
steadily affects, what appears to be only a
very small percentage of the African
population.
Given a current African
population of 616 million (United Nations
Environment Programme, June 15, 2000), and an
average of 75,000 African AIDS cases per
year, it follows that only 0.012% of the
African population is annually suffering or
dying from AIDS. Likewise only 0.01% of the
South African population was suffering from
AIDS between 1994 and 1996, based on the
4,500 annual cases and a population of
approximately 44 million (US Agency for
International Development, "HIV/AIDS in the
developing World", May 1999). This means that
the new African AIDS epidemic only represents
a very small fraction of normal African
mortality.
Based on a current
average life expectancy for Africa of about
50 years (US Agency for International
Development, "HIV/AIDS in the developing
World", May 1999), the annual mortality of
616 million people is 12.3 million. Thus even
if we assume that all AIDS cases reported by
the WHO are deaths, the African AIDS epidemic
represents only 75,000 out of 12,300,000
deaths per year, or 0.6% of all African
mortality. Thus African AIDS is certainly not
one of the historical microbial epidemics
described by Camus and Anderson (see above).
Since no immunity has emerged in over a
decade, the restriction of African AIDS to a
relatively small fraction of the large
reservoir of susceptible people indicates
non-contagious risk factors that are limited
to certain subsets of the African population.
In view of the very
small share (0.6%) that the African AIDS
epidemic seems to hold on Africa's total
mortality, the question arises whether the
mortality claimed for AIDS is in fact new
mortality, that can be distinguished from
conventional mortality, or whether it is a
minor fraction of conventional mortality
under a new name.
To answer these questions we must try to
distinguish African AIDS diseases from
conventional African diseases
(i) clinically as well as
(ii) statistically.
THE LONG LIST OF
AFRICAN AIDS DISEASES CAN NOT BE CLINICALLY
DISTINGUISHED FROM THEIR CONVENTIONAL
COUNTERPARTS
According to the WHO's
Bangui definition of AIDS (Widy-Wirski et
al., 1988; Fiala, 1998) and the "Anonymous
AIDS Notification" forms of the South African
Department of Health, African AIDS is not a
specific clinical disease, but a battery of
previously known and thus totally unspecific
diseases, for example:
(i)
(ii)
(iii)
(iv)
(v)
(vi)
(vi)
(vii)
(viii)
(ix)
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"weight loss over 10%,
chronic diarrhea for more than a month,
fever for more than a month,
persistent cough,
generalized pruritic dermatitis,
recurrent herpes zoster (shingles),
candidiasis oral and pharyngeal,
chronic or persistent herpes,
cryptococcal meningitis,
Kaposi's sarcoma" |
Since these diseases
include the most common diseases in Africa
and in much of the rest of the world, it is
impossible to distinguish clinically African
AIDS diseases from previously known, and
concurrently diagnosed, conventional African
diseases. Thus African AIDS is clinically
unspecific, unlike microbial diseases, but
just like some nutritionally and chemically
caused diseases (see above).
AFRICAN AIDS
IS TOO SMALL TO BE DETECTED STATISTICALLY
AGAINST THE BACKGROUND OF NORMAL AFRICAN
MORBIDITY, MORTALITY AND GROWTH RATES
We have already pointed
out that it is almost impossible to be
certain about the existence of a new African
AIDS epidemic that claims only 0.6% of
African mortality, particularly since all
AIDS defining diseases are profoundly
conventional African diseases.
The same is true if we
try to determine the effect of the presumably
new African AIDS epidemic on the current
growth rates of Africa. The annual population
growth rates of Africa have been between 2.4
and 2.8% per year since 1960 based on the
American Agency for International Development
& the U.S. Census Bureau's "HIV/AIDS in the
Developing World" (U.S. Agency for
International Development & U.S. Census
Bureau, Feb. & May 1999) and the United
Nations' "African population Database
Documentation" (United Nations Environment
Programme, June 15, 2000).
As a result of the high
African growth rates, the population of the
whole African continent has grown from 274
million in 1960, to 356 million in 1970, to
469 million in 1980, and to 616 million in
1990 (United Nations Environment Programme,
June 15, 2000). By comparison the annual
growth rate of the US is only 1% and that of
Europe is only 0.5% (USAID, Feb. & May 1999).
Because of the numerical
discrepancy between the relatively high
African growth rates (2.4 to 2.8%) and the
small annual deficits of these growth rates
to be expected from AIDS mortality (0.6%), an
African AIDS epidemic can not be identified
or confirmed based on its effect on the high
African growth rates. In view of this, and
the complete overlap between the complex
battery of diseases that define the AIDS
epidemic and their conventional counterparts,
it appears that the presumably new AIDS
epidemic can be neither distinguished
epidemiologically nor clinically from
conventional African diseases and mortality.
DECEPTIVE
REPORTING OBSCURES ANALYSIS OF AFRICAN AIDS
To all of us who have
been subjected to the American AIDS rhetoric,
and indeed the rhetoric of our first meeting
in Pretoria last May, about the "catastrophic
dimensions" of African AIDS (Washington Post,
April 30, 2000), the healthy African growth
rates come as a big surprise. Take as an
example of this rhetoric President Clinton's
recent designation of AIDS as a "threat to US
national security ... spurred by US
intelligence reports that looked at the
pandemic's broadest consequences, ...
particularly Africa ... [and] projected that
a quarter of southern Africa's population is
likely to die of AIDS ..." (Washington Post,
April 30, 2000).
In view of this
rhetoric, it would appear that neither
President Clinton nor the "U.S. intelligence"
are aware of information available to the
American Agency for International Development
& the U.S. Census Bureau. Indeed the USAID &
Census Bureau seem to have noticed the
discrepancy between the facts and the
rhetoric and are trying to hide it - the
possible reason why "the largest demographic
impact of AIDS" is cautiously described
either as just a relatively small reduction
in "life expectancy" or in expected
population growth (not loss!): "Differences
in population size between the AIDS-adjusted
and the non-adjusted scenarios are often
substantial ... By the year 2010 ... South
Africa will have 5.6 million fewer people
..." than expected based on current growth
rates ("HIV/AIDS in the Developing World",
U.S. Agency for International Development &
U.S. Census Bureau, May 1999). A
"catastrophe" 10 years down the road - and a
"threat to U.S. national Security" now!
The alarming tone of
WHO's joint United Nations Programme on
HIV/AIDS, "AIDS epidemic update: December
1999" (UNAIDS December 1999), announcing that
Africa had gained 23 million "living with
HIV/AIDS", because they are "estimated"
carriers of antibodies against HIV, since the
"early 80s" (WHO, Weekly Epidemiological
Record 73, 373-380, 1998) is equally
surprising in view of information available
to the agency. Neither the WHO nor the United
Nations point out that Africa had gained 147
million people during the same time in which
the continent was said to suffer from a new
AIDS epidemic. Likewise, South Africa has
grown from 17 million to 37 million in 1990
(United Nations Environment Programme, June
15, 2000), and to 44 million now ("HIV/AIDS
in the Developing World", U.S. Agency for
International Development & U.S. Census
Bureau, May 1999). In the last decade South
Africa has also gained 4 million HIV-positive
people (A. Kinghorn & M. Steinberg, South
African Department of Health, undated
document probably from 1998, provided at the
Pretoria meeting). Thus South Africa has
gained 4 million HIV-positives during the
same decade in which it grew by 7 million
people.
Moreover, although the
23 million "estimated" HIV-antibody positives
are said to be "living with HIV/AIDS" by the
WHO, the agency does not offer any evidence
for morbidity or mortality exceeding the
modest numbers, ie. about 75,000 cases
annually, reported by the it's Weekly
Epidemiological Records (see above).
The agency's estimates of HIV-positives are
indeed just "estimates", because according to
the 1985-Bangui definition of African AIDS as
well as to the current "Anonymous AIDS
Notification" forms of the South African
Department of Health - no HIV tests are
required for an AIDS diagnosis (Widy-Wirski
et al., 1988; Fiala, 1998).
In addition the WHO promotes the impression
of a microbial AIDS epidemic, by reporting
African AIDS cases cumulatively rather than
annually (WHO's Weekly Epidemiological
Records since the beginning of the epidemic).
This practice creates the deceptive
impression of an ever growing, almost
exponential epidemic, even if the annual
incidence declines (Fiala, 1998).
It would follow that the
estimated increases in African HIV antibody
(!)-positives do not correlate with decreases
in any African population. On the contrary,
they correlate with unprecedented
simultaneous increases in the country's
populations - hardly the "catastrophe"
imagined by the Washington Post and
propagated by the WHO and the American AIDS
establishment. But this deceptive AIDS
propaganda biases a scientific analysis of
African AIDS by all those who are not aware
of the facts.
CONCLUSIONS:
(1) The African AIDS
epidemic fails all criteria of a microbial or
viral epidemic:
(i) It is steady, i.e.
about 75,000 cases per year since the early
1990s, instead of growing exponentially into
the large reservoir of 617 million
susceptible people, as would be typical of a
new viral or microbial epidemic;
(ii) It is not
self-limiting via immunity within weeks or
months, as is typical of a microbial and
particularly of a viral disease. Instead it
appears to maintain for years a rather steady
share of African morbidity and mortality.
(iii) It is clinically
exceedingly heterogeneous totally lacking any
specificity of its own, unlike all
conventional viral and even bacterial
diseases. In conclusion, the African AIDS
epidemic does not have even one of the
specific characters of a viral or microbial
epidemic.
(2) Since the suspected
African AIDS epidemic of an average of 75,000
annual cases can neither be identified as a
new epidemic
(i) clinically because
of its total lack of a clinical identity, nor
(ii) numerically because
of its small share of the total African
morbidity and because of undetectable effects
on the rapid growth of the African
population,
the primary scientific
task of our AIDS panel will now be to
determine whether there is in fact a new
epidemic of AIDS defining diseases in Africa,
or whether a fraction normal morbidity and
mortality has been renamed AIDS. The answer
to this question would be the first order of
business for all AIDS prevention and
treatment programs considered by President
Mbeki. To find this answer, I second the
proposal from an African AIDS researcher
published 13 years ago, "Clinical
epidemiology, not [HIV] seroepidemiology, is
the answer to Africa's AIDS problem" (Konotey-Ahulu,
1987).
(3) The African
statistics of AIDS and HIV antibody-positives
confirm Mbeki's suspicion about discrepancies
between the African and American AIDS
epidemics (Mbeki's letter to U.S. President
Clinton, Washington Post, April 19, 2000):
In Africa 23 million
HIV-positives generate per year 75,000 AIDS
patients, ie. 1 AIDS case per 300
HIV-positives.
But in the US, 0.9
million HIV-positives (WHO, Weekly
Epidemiological Record 73, 373-380, 1998) now
generate per year about 45,000 AIDS cases
(Centers for Disease Control, 1999), ie. 1
AIDS case per 20 HIV-positives.
Thus the AIDS risk of an
American HIV-positive is about 15-times
higher than that of an African! Since over
150,000 healthy (!) HIV-positive Americans
are currently treated with DNA
chain-terminating and other anti-HIV drugs
(Duesberg & Rasnick, 1998), and since
American HIV-positives have a 15-fold higher
AIDS risk than African HIV-positives,
President Mbeki must be warned about American
advice on "treatments" of HIV-positives.
(4) The discrepancies
between African AIDS and infectious disease,
and the discrepancies between the high AIDS
risk of American compared to African
HIV-positives can both be readily explained
by the hypothesis that AIDS is caused by
non-contagious risk factors and that HIV is a
harmless passenger virus (Duesberg, 1996;
Duesberg & Rasnick, 1998).
According to this
hypothesis the African AIDS diseases are
generated by their conventional, widespread
causes, malnutrition, parasitic infections
and poor sanitation as originally proposed by
leading AIDS researchers including Fauci,
Seligmann et al. (Seligmann et al.,
1984).
This hypothesis also
offers a simple explanation for the
"heterosexual" distribution of AIDS in the
African people, a question also asked by
Mbeki in his letter to President Clinton (see
above). Malnutrition, parasitic infections
and poor sanitation do not discriminate
between sexes. By contrast, American AIDS
would be caused by recreational drugs
consumed by millions and anti-HIV drugs
prescribed to about 200,000 including 150,000
still healthy HIV-positives (Duesberg &
Rasnick, 1998). The non-random, 85%-male
epidemiology of American AIDS reflects the
male prerogative on hard recreational drugs
(heroin, cocaine) and the wide-spread use of
drugs as male homosexual stimulants (Haverkos
& Dougherty, 1988; Duesberg & Rasnick, 1998).
In the light of this
hypothesis the new epidemic of HIV-antibodies
would simply reflect a new epidemic of
HIV-antibody testing, introduced and inspired
by new American biotechnology. This
technology was developed during the last 20
years for basic research to detect the
equivalents of biological needles in a
haystack, but not to "detect" the massive
invasions of viruses that are necessary to
cause ALL conventional viral diseases
(Duesberg, 1992; Duesberg & Schwartz, 1992;
Duesberg, 1996; Mullis, 1996; Duesberg &
Rasnick, 1998; Mullis, 1998). But this
technology is now faithfully but
inappropriately used by thousands of AIDS
virus researchers and activists to detect
latent, ie. biochemically and biologically
inactive HIV or even just antibodies against
it (Duesberg & Bialy, 1996)! The same
technology also provides job security for
other virologists and doctors searching for
latent, and thus biologically inactive,
viruses as their preferred causes of Kaposi's
sarcoma, cervical cancer, leukemia, liver
cancer, and rare neurological diseases -
without ever producing any public health
benefits (Duesberg & Schwartz, 1992).
(5) President Mbeki must
also be warned about Dr. Joe Sonnabend's
answer to the president's question about the
epidemiological discrepancy between the
"heterosexual" AIDS epidemic in Africa and
the non-random, 85%- male epidemic in the
U.S. (Mbeki's letter to U.S. President
Clinton, Washington Post, April 19, 2000).
According to Sonnabend's
hypothesis, Africans acquire HIV
heterosexually, because they simultaneously
suffer from a long list of diseases,
including "tuberculosis, malaria, other
protozoal infections, bacterial diarrheal
infections, pneumonia, plasmodium, Leishmania"
etc. However, the very low AIDS risk of an
African HIV-positive, compared to an
American, calls this hypothesis into
question. If the Sonnabend-hypothesis were
correct, African HIV-positives should develop
AIDS much more readily than their American
counterparts. But the opposite is true. In
fact according to Sonnabend most Africans
should already have AIDS by the time they
pick up HIV "heterosexually".
Moreover, the Sonnabend-hypothesis
does not resolve the discrepancy between
relatively high share of children from 0-14
years in African AIDS, ie. 7%, compared to
the 1% share of AIDS by their American
counterparts (WHO, Weekly Epidemiological
Record, vol. 49, pp381-384, 4 December 1998).
According to the WHO, "AIDS in children is an
important phenomenon in many African
countries, whereas it is relatively rare in
industrialized countries."
Again AIDS in children
is not compatible with "heterosexual
transmission of HIV" while suffering from
Sonnabend's bewildering list of diseases. But
AIDS in children is very compatible with
malnutrition, parasitic infection and poor
sanitation. Therefore, President Mbeki must
be warned against treatment of these children
with DNA chain-terminators and other anti-HIV
drugs as suggested by Sonnabend's hypothesis.
Acknowledgment: I thank
Charles Geshekter, professor of history, Cal
State University Chico, Chico, California for
advice and critical statistics (see the
Geshekter posts on this panel).
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