Microbiology and Immunology

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WORLD OF MICROBIOLOGY AND IMMUNOLOGY Medical training and careers in microbiology

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In the years following publication of the research,
Medawar accepted several honors, including the Royal Medal
from the Royal Society in 1959. A year later, he and Burnet
accepted the Nobel Prize for Physiology or Medicine for their
discovery of acquired immunological tolerance: Burnet devel-
oped the theory and Medawar proved it. Medawar shared the
prize money with Billingham and Brent.
Medawar’s scientific concerns extended beyond
immunology, even during the years of his work toward
acquired immunological tolerance. While at Birmingham, he
and Billingham also investigated pigment spread, a phenome-
non seen in some guinea pigs and cattle where the dark spots
spread into the light areas of the skin. “Thus if a dark skin graft
were transplanted into the middle of a pale area of skin it
would soon come to be surrounded by a progressively widen-
ing ring of dark skin,” Medawar asserted in his autobiography.
The team conducted a variety of experiments, hoping to show
that the dark pigment cells were somehow “infecting” the pale
pigment cells. The tests never panned out.
Medawar also delved into animal behavior at
Birmingham. He edited a book on the subject by noted scien-
tist Nikolaas Tinbergen, who ultimately netted a Nobel Prize
in 1973. In 1957, Medawar also became a book author with his
first offering, The Uniqueness of the Individual,which was
actually a collection of essays. In 1959, his second book, The
Future of Man,was issued, containing a compilation of a
series of broadcasts he read for British Broadcasting
Corporation (BBC) radio. The series examined the impacts of
evolutionon man.
Medawar remained at University College until 1962
when he took the post of director of the National Institute for
Medical Research in London, where he continued his study of
transplants and immunology. While there, he continued writ-
ing with mainly philosophical themes. The Art of the Soluble,
published in 1967, is an assembly of essays, while his 1969
book, Induction and Intuition in Scientific Thought,is a
sequence of lectures examining the thought processes of sci-
entists. In 1969 Medawar, then president of the British
Association for the Advancement of Science, experienced the
first of a series of strokes while speaking at the group’s annual
meeting. He finally retired from his position as director of the
National Institute for Medical Research in 1971. In spite of his
physical limitations, he went ahead with scientific research in
his lab at the clinical research center of the Medical Research
Council. There he began studying cancer.
Through the 1970s and 1980s, Medawar produced sev-
eral other books—some with his wife as co-author—in addi-
tion to his many essays on growth, aging, immunity, and
cellular transformations. In one of his most well-known
books, Advice to a Young Scientist,Medawar asserted that for
scientists, curiosity was more important that genius.

See alsoAntibody and antigen; Antibody-antigen, biochemical
and molecular reactions; Antibody formation and kinetics;
Antibody, monoclonal; Immunity, active, passive and delayed;
Immunity, cell mediated; Immunity, humoral regulation;
Immunochemistry; Immunogenetics; Major histocompatibility
complex (MHC); Transplantation genetics and immunology

MEDICAL TRAINING AND CAREERS IN

MICROBIOLOGYMedical training and careers in microbiology

The world of microbiology overlaps the world of medicine. As
a result, trained microbiologists find a diversity of career paths
and opportunity in medicine.
Research in medical microbiology can involve clinical
or basic science. Clinical microbiologyfocuses on the micro-
biological basis of various diseases and how to alleviate the
suffering caused by the infectious microorganism. Basic med-
ical research is concerned more with the molecular events
associated with infectious diseases or illnesses.
Both medical training and microbiology contain many
different areas of study. Medical microbiology is likewise an
area of many specialties. A medical bacteriologist can study
how bacteriacan infect humans and cause disease, and how
these disease processes can be dealt with. A medical mycolo-
gist can study pathogenic (disease-causing) fungi, molds and
yeastto find out how they cause disease. A parasitologist is
concerned with how parasitic microorganisms(those that
require a host in order to live) cause disease. A medical virol-
ogist can study the diseases attributed to infection by a virus,
such as the hemorrhagic fever caused by the Ebola virus.
The paths to these varied disciplines of study are also
varied. One route that a student can take to incorporate both
research training and medical education is the combined M.D.-
PhD. program. In several years of rigorous study, students
become physician-scientists. Often, graduates develop a clini-
cal practice combined with basic research. The experience
gained at the bedside can provide research ideas. Conversely,
laboratory techniques can be brought to bear on unraveling the
basis of human disease. The M.D.–PhD. training exemplifies
what is known as the transdisciplinary approach. Incorporating
different approaches to an issue can suggest treatment or
research strategies that might otherwise not be evident if an
issue were addressed from only one perspective.
The training for a career in the area of medicine and
medical microbiology begins in high school. Courses in the
sciences lay the foundation for the more in-depth training that
will follow in university or technical institution. With under-
graduate level training, career paths can include research
assistant, providing key technical support to a research team,
quality assurance in the food, industrial or environmental
microbiology areas, and medical technology.
Medical microbiology training at the undergraduate and
graduate levels, in the absence of simultaneous medical train-
ing, can also lead to a career as a clinical microbiologist. Such
scientists are employed in universities, hospitals and in the
public sector. For example, the United Kingdom has an exten-
sive Public Health Laboratory Service. The PHLS employs
clinical microbiologists in reference laboratories, to develop
or augment test methods, and as epidemiologists. The latter
are involved in determining the underlying causes of disease
outbreaks and in uncovering potential microbiological health
threats. Training in medical microbiology can be at the
Baccalaureate level, and in research that leads to a Masters or
a Doctoral degree. The latter is usually undertaken if the aim

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