Evolutionary Medicine 313On a positive note, treatments can also be allowed to
flow freely. For example, Brazil’s HIV/AIDS program is in-
ternationally recognized as a model for prevention, educa-
tion, and treatment for several reasons. Through a national
policy of developing generic alternative antiretroviral agents
and negotiating for reduced prices on patented agents, in
1996 Brazil became the first country to guarantee free anti-
retroviral access to all its citizens. At the same time, Brazilian
public health officials developed counseling and prevention
programs in collaboration with community groups and reli-
gious organizations. Their AIDS program’s success is in part
due to the candid public education on disease transmission
targeted at heterosexual women and young people, who are
now the fastest-growing groups affected by HIV.
In 2004, Brazil continued its innovations with the South
to South Initiative providing assistance to the HIV and
AIDS programs in the Portuguese-speaking African coun-
tries of Mozambique and Angola. The Brazilian approach
of providing free antiretroviral agents and collaborating
with civil and religious groups to develop appropriate
counseling, education, and prevention programs has been
replicated directly in these African countries.^13particularly those in the broccoli and cabbage family, nat-
urally contain toxins developed through the plants’ evo-
lutionary process to prevent them from being eaten by
animals. Profet suggests that eating these plants during the
first weeks of pregnancy, when the developing embryo is
rapidly creating new cells through mitosis and differenti-
ating into specific body parts, makes the embryo vulner-
able to mutation. Therefore, a heightened sense of smell
and lowered nausea threshold serve as natural defenses for
the body. Pregnant women tend to avoid these foods, thus
protecting the developing embryo.Evolution and Infectious Disease
Understanding infectious disease is all the more important
in a globalizing world where people, viruses, and bacteria
cross national boundaries freely. Evolutionary medicine
provides key insights with regard to infectious disease.
First, if infectious disease is viewed as competition
between microorganisms and humans—as it is in bio-
medicine where patients and doctors “fight” infectious
disease—microorganisms possess one very clear advan-
tage. Viruses, bacteria, fungi, and parasites all have very
short life cycles compared to humans. Therefore, when
competing on an evolutionary level, they will continue to
pose new threats to health, because any new genetic vari-
ants appearing through a random mutation will quickly
become incorporated in the population’s genome. This
notion is of particular importance with regard to the use
of antibiotics to fight infectious disease.
While antibiotics do kill many bacteria, increasingly
resistant strains are becoming more common. “Resistant
strains” refers to genetic variants of a specific bacterium that
are not killed by antibiotics. If a resistant strain appears in
an infected individual who is being treated with antibiotics,
the removal of all the nonresistant strains essentially opens
up an entire ecological niche for that resistant strain inside
the infected human. Here, without competition from the
original form of the bacterium wiped out by the antibiotic,
this mutant can proliferate easily and then spread to other
individuals. The practice of taking antibiotics artificially al-
ters the environment inside the human body.
In order to avoid the development of resistant strains,
complex lengthy treatment regimes, often of multiple drugs,
must be followed exactly. These expensive treatments are
cost-prohibitive in many parts of the world. The unfortu-
nate result is not only increased human suffering but also
the possibility of creating environments for the development
of resistant strains as individuals receive partial treatments.
Another problem is that although individuals seek
treatment within their own country’s health care system,
infectious microbes do not observe these same national
boundaries. To eradicate or control any infectious process,
the world has to be considered in its entirety.(^13) D’Adesky, A.-C. (2004). Moving mountains: The race to treat global AIDS.
New York: Verso.
Medical anthropologist Emily Martin has shown that scientific depic-
tions of infectious disease draw upon military imagery common to the
culture of the United States. Biomedical treatments involve taking
antibiotics to kill “invading” organisms. An evolutionary perspec-
tive suggests that the quick life cycle of microorganisms makes this
“battle” a losing proposition for humans.
© With permission from Alberta Heritage Foundation for Medical Research. Artist: Carla Andrews.
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