Louis Pasteur.
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Louis Pasteur.
I
INTRODUCTION
Louis Pasteur (1822-1895), world-renowned French chemist and biologist, who founded the science of microbiology, proved the germ theory of disease, invented the
process of pasteurization, and developed vaccines for several diseases, including rabies.
Pasteur was born in Dôle on December 27, 1822, the son of a tanner, and grew up in the small town of Arbois. In 1847 he earned a doctorate at the École Normale in
Paris, with a focus on both physics and chemistry. Becoming an assistant to one of his teachers, he began research that led to a significant discovery. He found that a
beam of polarized light (see Optics) was rotated to either the right or the left as it passed through a pure solution of naturally produced organic nutrients, whereas
when polarized light was passed through a solution of artificially synthesized organic nutrients, no rotation took place. If, however, bacteria or other microorganisms
were placed in the latter solution, after a while it would also rotate light to the right or left.
Pasteur concluded that organic molecules can exist in one of two forms, called isomers (that is, having the same structure and differing only in mirror images of each
other), which he referred to as "left-handed" and "right-handed" forms. When chemists synthesize an organic compound, both of these forms are produced in equal
proportions, canceling each other's optical effects. Living systems, however, which have a high degree of chemical specificity, can discriminate between the two forms,
metabolizing one and leaving the other untouched and free to rotate light.
II
WORK ON FERMENTATION
After spending several years of research and teaching at Dijon and Strasbourg, Pasteur moved in 1854 to the University of Lille, where he was named professor of
chemistry and dean of the faculty of sciences. This faculty had been set up partly to serve as a means of applying science to the practical problems of the industries of
the region, especially the manufacture of alcoholic beverages. Pasteur immediately devoted himself to research on the process of fermentation. Although his belief that
yeast plays some kind of role in this process was not original, he was able to demonstrate, from his earlier work on chemical specificity, that the desired production of
alcohol in fermentation is indeed due to yeast and that the undesired production of substances (such as lactic acid or acetic acid) that make wine sour is due to the
presence of additional organisms such as bacteria. The souring of wine and beer had been a major economic problem in France; Pasteur contributed to solving the
problem by showing that bacteria can be eliminated by heating the starting sugar solutions to a high temperature.
Pasteur extended these studies to such other problems as the souring of milk, and he proposed a similar solution: heating the milk to a high temperature and pressure
before bottling. This process is now called pasteurization.
III
DISPROOF OF SPONTANEOUS GENERATION
Fully aware of the presence of microorganisms in nature, Pasteur undertook several experiments designed to address the question of where these "germs" came from.
Were they spontaneously produced in substances themselves, or were they introduced into substances from the environment? Pasteur concluded that the latter was
always the case. His findings resulted in a fierce debate with the French biologist Félix Pouchet--and later with the noted English bacteriologist Henry Bastion--who
maintained that under appropriate conditions instances of spontaneous generation could be found. These debates, which lasted well into the 1870s, although a
commission of the Académie des Sciences officially accepted Pasteur's results in 1864, gave great impetus to improving experimental techniques in microbiology.
IV
SILKWORM STUDIES
In 1865, Pasteur was summoned from Paris, where he had become administrator and director of scientific studies at the École Normale, to come to the aid of the silk
industry in southern France. The country's enormous production of silk had suddenly been curtailed because of an epidemic illness among the silkworms. Despite having
no prior experience with animal biology, Pasteur determined the silkworms were dying from two parasitic infections: pébrine and flacherie. Suspecting that certain
microscopic objects found in the diseased silkworms (and in the moths and their eggs) were disease-producing organisms, Pasteur experimented with the separation of
uninfected from infected silkworms, the cleanliness of silkworm colonies, and controlled breeding. He concluded that only in diseased and living eggs was the cause of
the disease maintained; therefore, selection of disease-free eggs was the solution. Through his work with silkworms, Pasteur not only saved the French silk industry, but
also made great progress in the studies of infectious disease and immunology.
V
GERM THEORY OF DISEASE
Pasteur's work on fermentation and spontaneous generation had considerable implications for medicine, because he believed that the origin and development of disease
are analogous to the origin and process of fermentation. That is, disease arises from germs attacking the body from outside, just as unwanted microorganisms invade
milk and cause fermentation. This concept, called the germ theory of disease, was strongly debated by physicians and scientists around the world. One of the main
arguments against it was the contention that the role germs played during the course of disease was secondary and unimportant; the notion that tiny organisms could
kill vastly larger ones seemed ridiculous to many people. Pasteur's studies convinced him that he was right, however, and in the course of his career he extended the
germ theory to explain the causes of many diseases.
VI
ANTHRAX RESEARCH
Pasteur also determined the natural history of anthrax, a fatal disease of cattle. He proved that anthrax is caused by a particular bacillus and suggested that animals
could be given anthrax in a mild form by vaccinating them with attenuated (weakened) bacilli, thus providing immunity from potentially fatal attacks. In order to prove
his theory, Pasteur began by inoculating 25 sheep; a few days later he inoculated these and 25 more sheep with an especially strong inoculant, and he left 10 sheep
untreated. He predicted that the second 25 sheep would all perish and concluded the experiment dramatically by showing, to a skeptical crowd, the carcasses of the 25
sheep lying side by side.
VII
RABIES VACCINE
Pasteur spent the rest of his life working on the causes of various diseases--including septicemia, cholera, diphtheria, fowl cholera, tuberculosis, and smallpox--and their
prevention by means of vaccination. He is best known for his investigations concerning the prevention of rabies, otherwise known in humans as hydrophobia. After
experimenting with the saliva of animals suffering from this disease, Pasteur concluded that the disease rests in the nerve centers of the body; when an extract from
the spinal column of a rabid dog was injected into the bodies of healthy animals, symptoms of rabies were produced. By studying the tissues of infected animals,
particularly rabbits, Pasteur was able to develop an attenuated form of the virus that could be used for inoculation.
In 1885, a young boy and his mother arrived at Pasteur's laboratory; the boy had been bitten badly by a rabid dog, and Pasteur was urged to treat him with his new
method. At the end of the treatment, which lasted ten days, the boy was being inoculated with the most potent rabies virus known; he recovered and remained
healthy. Since that time, thousands of people have been saved from rabies by this treatment.
Pasteur's research on rabies resulted, in 1888, in the founding of a special institute in Paris for the treatment of the disease. This became known as the Institut Pasteur,
and it was directed by Pasteur himself until he died. (The institute still flourishes and is one of the most important centers in the world for the study of infectious
diseases and other subjects related to microorganisms, including molecular genetics.) By the time of his death in Saint-Cloud on September 28, 1895, Pasteur had long
since become a national hero and had been honored in many ways. He was given a state funeral at the Cathedral of Notre Dame, and his body was placed in a
permanent crypt in his institute.
Contributed By:
Garland E. Allen
Randy Bird
Microsoft ® Encarta ® 2009. © 1993-2008 Microsoft Corporation. All rights reserved.
Louis Pasteur.
I
INTRODUCTION
Louis Pasteur (1822-1895), world-renowned French chemist and biologist, who founded the science of microbiology, proved the germ theory of disease, invented the
process of pasteurization, and developed vaccines for several diseases, including rabies.
Pasteur was born in Dôle on December 27, 1822, the son of a tanner, and grew up in the small town of Arbois. In 1847 he earned a doctorate at the École Normale in
Paris, with a focus on both physics and chemistry. Becoming an assistant to one of his teachers, he began research that led to a significant discovery. He found that a
beam of polarized light (see Optics) was rotated to either the right or the left as it passed through a pure solution of naturally produced organic nutrients, whereas
when polarized light was passed through a solution of artificially synthesized organic nutrients, no rotation took place. If, however, bacteria or other microorganisms
were placed in the latter solution, after a while it would also rotate light to the right or left.
Pasteur concluded that organic molecules can exist in one of two forms, called isomers (that is, having the same structure and differing only in mirror images of each
other), which he referred to as "left-handed" and "right-handed" forms. When chemists synthesize an organic compound, both of these forms are produced in equal
proportions, canceling each other's optical effects. Living systems, however, which have a high degree of chemical specificity, can discriminate between the two forms,
metabolizing one and leaving the other untouched and free to rotate light.
II
WORK ON FERMENTATION
After spending several years of research and teaching at Dijon and Strasbourg, Pasteur moved in 1854 to the University of Lille, where he was named professor of
chemistry and dean of the faculty of sciences. This faculty had been set up partly to serve as a means of applying science to the practical problems of the industries of
the region, especially the manufacture of alcoholic beverages. Pasteur immediately devoted himself to research on the process of fermentation. Although his belief that
yeast plays some kind of role in this process was not original, he was able to demonstrate, from his earlier work on chemical specificity, that the desired production of
alcohol in fermentation is indeed due to yeast and that the undesired production of substances (such as lactic acid or acetic acid) that make wine sour is due to the
presence of additional organisms such as bacteria. The souring of wine and beer had been a major economic problem in France; Pasteur contributed to solving the
problem by showing that bacteria can be eliminated by heating the starting sugar solutions to a high temperature.
Pasteur extended these studies to such other problems as the souring of milk, and he proposed a similar solution: heating the milk to a high temperature and pressure
before bottling. This process is now called pasteurization.
III
DISPROOF OF SPONTANEOUS GENERATION
Fully aware of the presence of microorganisms in nature, Pasteur undertook several experiments designed to address the question of where these "germs" came from.
Were they spontaneously produced in substances themselves, or were they introduced into substances from the environment? Pasteur concluded that the latter was
always the case. His findings resulted in a fierce debate with the French biologist Félix Pouchet--and later with the noted English bacteriologist Henry Bastion--who
maintained that under appropriate conditions instances of spontaneous generation could be found. These debates, which lasted well into the 1870s, although a
commission of the Académie des Sciences officially accepted Pasteur's results in 1864, gave great impetus to improving experimental techniques in microbiology.
IV
SILKWORM STUDIES
In 1865, Pasteur was summoned from Paris, where he had become administrator and director of scientific studies at the École Normale, to come to the aid of the silk
industry in southern France. The country's enormous production of silk had suddenly been curtailed because of an epidemic illness among the silkworms. Despite having
no prior experience with animal biology, Pasteur determined the silkworms were dying from two parasitic infections: pébrine and flacherie. Suspecting that certain
microscopic objects found in the diseased silkworms (and in the moths and their eggs) were disease-producing organisms, Pasteur experimented with the separation of
uninfected from infected silkworms, the cleanliness of silkworm colonies, and controlled breeding. He concluded that only in diseased and living eggs was the cause of
the disease maintained; therefore, selection of disease-free eggs was the solution. Through his work with silkworms, Pasteur not only saved the French silk industry, but
also made great progress in the studies of infectious disease and immunology.
V
GERM THEORY OF DISEASE
Pasteur's work on fermentation and spontaneous generation had considerable implications for medicine, because he believed that the origin and development of disease
are analogous to the origin and process of fermentation. That is, disease arises from germs attacking the body from outside, just as unwanted microorganisms invade
milk and cause fermentation. This concept, called the germ theory of disease, was strongly debated by physicians and scientists around the world. One of the main
arguments against it was the contention that the role germs played during the course of disease was secondary and unimportant; the notion that tiny organisms could
kill vastly larger ones seemed ridiculous to many people. Pasteur's studies convinced him that he was right, however, and in the course of his career he extended the
germ theory to explain the causes of many diseases.
VI
ANTHRAX RESEARCH
Pasteur also determined the natural history of anthrax, a fatal disease of cattle. He proved that anthrax is caused by a particular bacillus and suggested that animals
could be given anthrax in a mild form by vaccinating them with attenuated (weakened) bacilli, thus providing immunity from potentially fatal attacks. In order to prove
his theory, Pasteur began by inoculating 25 sheep; a few days later he inoculated these and 25 more sheep with an especially strong inoculant, and he left 10 sheep
untreated. He predicted that the second 25 sheep would all perish and concluded the experiment dramatically by showing, to a skeptical crowd, the carcasses of the 25
sheep lying side by side.
VII
RABIES VACCINE
Pasteur spent the rest of his life working on the causes of various diseases--including septicemia, cholera, diphtheria, fowl cholera, tuberculosis, and smallpox--and their
prevention by means of vaccination. He is best known for his investigations concerning the prevention of rabies, otherwise known in humans as hydrophobia. After
experimenting with the saliva of animals suffering from this disease, Pasteur concluded that the disease rests in the nerve centers of the body; when an extract from
the spinal column of a rabid dog was injected into the bodies of healthy animals, symptoms of rabies were produced. By studying the tissues of infected animals,
particularly rabbits, Pasteur was able to develop an attenuated form of the virus that could be used for inoculation.
In 1885, a young boy and his mother arrived at Pasteur's laboratory; the boy had been bitten badly by a rabid dog, and Pasteur was urged to treat him with his new
method. At the end of the treatment, which lasted ten days, the boy was being inoculated with the most potent rabies virus known; he recovered and remained
healthy. Since that time, thousands of people have been saved from rabies by this treatment.
Pasteur's research on rabies resulted, in 1888, in the founding of a special institute in Paris for the treatment of the disease. This became known as the Institut Pasteur,
and it was directed by Pasteur himself until he died. (The institute still flourishes and is one of the most important centers in the world for the study of infectious
diseases and other subjects related to microorganisms, including molecular genetics.) By the time of his death in Saint-Cloud on September 28, 1895, Pasteur had long
since become a national hero and had been honored in many ways. He was given a state funeral at the Cathedral of Notre Dame, and his body was placed in a
permanent crypt in his institute.
Contributed By:
Garland E. Allen
Randy Bird
Microsoft ® Encarta ® 2009. © 1993-2008 Microsoft Corporation. All rights reserved.
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Liens utiles
- Louis Pasteur
- Louis Pasteur Pasteur, surtout célèbre pour ses travaux sur le développement des vaccins,notamment contre la rage, et pour son invention de la pasteurisation, étudiad'abord la cristallographie et la polarisation de la lumière.
- LA VERITE MEDICALE (7)Claude Bernard, Louis Pasteur, Sigmund Freud: légendes et réalités de notre médecineLouise L.
- LA VERITE MEDICALE (4)Claude Bernard, Louis Pasteur, Sigmund Freud: légendes et réalités de notre médecineLouise L.
- LA VERITE MEDICALE (7)Claude Bernard, Louis Pasteur, Sigmund Freud: légendes et réalités de notre médecineLouise L.