| 460 BCE |
Birth of Hippocrates, Greek
physician and founder of the first university. Considered the father
of medicine. Hippocrates bases medicine on objective observation and
deductive reasoning, although he does accept the commonly held
belief that disease results from an imbalance of the four bodily
humors (an idea that
persists for centuries). |
| c.130 CE |
Birth of Galen, considered by
many to be the most important contributor to medicine following
Hippocrates. Born of Greek parents, Galen resides primarily in Rome
where he is physician to the gladiators and personal physician to
several emperors. He publishes some 500 treatises and is still
respected for his contributions to anatomy, physiology, and
pharmacology. |
| 910 |
Persian physician Rhazes is the first
to identify smallpox, as distinguished from measles, and to suggest
blood as the cause of infectious disease. |
| 1590 |
Dutch lens grinder Zacharius Jannssen
invents the microscope |
| 1628 |
William Harvey publishes An Anatomical Study of the Motion of the Heart and of
the Blood in Animals, describing how blood is pumped throughout
the body by the heart, and then returns to the heart and
recirculates. The book is very controversial but becomes the basis
for modern research on the heart and blood vessels. |
| 1656 |
Experimenting on dogs, English
architect Sir Christopher Wren is the first to administer medications intravenously by means of an
animal bladder attached to a sharpened quill. Wren also experiments
with canine blood transfusions (although safe human blood
transfusions only became feasible after Karl Landsteiner develops
the ABO blood-typing system in 1900). |
| 1670 |
Anton van Leeuwenhoek refines the microscope and fashions nearly 500 models. Discovers
blood cells and observes animal and plant tissues and
microorganisms. |
| 1747 |
James Lind , a
Scottish naval surgeon, discovers that citrus fruits prevent scurvy. He publishes
his Treatise of the Scurvy in 1754, identifying the cure for
this common and dangerous disease of sailors, although it takes
another 40 years before an official Admiralty order dictates the
supply of lemon juice to ships. |
| 1796 |
Edward Jenner develops
a method to protect people from smallpox by exposing
them to the cowpox virus. In his famous experiment, he rubs pus from
a dairymaid's cowpox postule into scratches on the arm of his
gardener's 8-year-old son, and then exposes him to smallpox six
weeks later (which he does not develop). The process becomes known
as vaccination from the
Latin vacca for cow. Vaccination with cowpox is made
compulsory in Britain in 1853. Jenner is sometimes called the
founding father of immunology. |
| 1800 |
Sir Humphry Davy announces the anesthetic properties of nitrous oxide, although
dentists do not begin using the gas as an anesthetic for almost 45
years. |
| 1816 |
René Laënnec invents
the stethoscope. |
| 1818 |
British obstetrician James Blundell
performs the first successful transfusion of human blood. |
| 1842 |
American surgeon Crawford W. Long uses ether as a general anesthetic during surgery but does not
publish his results. Credit goes to dentist William Morton. |
| 1844 |
Dr. Horace Wells, American dentist,
uses nitrous oxide as an anesthetic. |
| 1846 |
Boston dentist Dr. William Morton demonstrates ether's anesthetic properties during a tooth
extraction. |
| 1849 |
Elizabeth Blackwell is the first woman to receive a medical degree (from Geneva Medical
College in Geneva, New York). |
| 1867 |
Joseph Lister publishes Antiseptic Principle of the Practice of Surgery,
one of the most important developments in medicine. Lister was
convinced of the need for cleanliness in the operating room, a
revolutionary idea at the time. He develops antiseptic surgical
methods, using carbolic acid to clean wounds and surgical
instruments. The immediate success of his methods leads to general
adoption. In one hospital that adopts his methods, deaths from
infection decrease from nearly 60% to just 4%. |
| 1870s |
Louis Pasteur and
Robert Koch establish
the germ theory of disease. According to germ theory, a specific
disease is caused by a specific organism. Before this discovery,
most doctors believe diseases are caused by spontaneous generation.
In fact, doctors would perform autopsies on people who died of
infectious diseases and then care for living patients without
washing their hands, not realizing that they were therefore
transmitting the disease. |
| 1879 |
First vaccine for cholera |
| 1881 |
First vaccine for anthrax |
| 1882 |
First vaccine for rabies |
| 1890 |
Emil von Behring discovers antitoxins and uses
them to develop tetanus and diphtheria vaccines. |
| 1895 |
German physicist Wilhelm Conrad Roentgen discovers X rays. |
| 1896 |
First vaccine for typhoid fever. |
| 1897 |
Ronald Ross, a
British officer in the Indian Medical Service, demonstrates that
malaria parasites are
transmitted via mosquitoes, although French army surgeon Charles
Louis Alphonse Laveran identified parasites in the blood of a malaria patient in 1880. The
treatment for malaria
was identified much earlier (and is still used today). The Qinghao
plant (Artemisia annua) was described in a Chinese medical treatise
from the 2nd century BCE; the active
ingredient, known as artemisinin, was isolated by Chinese scientists
in 1971 and is still used today. The more commonly known treatment,
quinine, was derived from the bark of a tree called Peruvian bark or
Cinchona and was introduced to the Spanish by indigenous people in
South America during the 17th century. |
| 1897 |
First vaccine for plague. |
| 1899 |
Felix Hoffman develops aspirin (acetyl
salicylic acid). The juice from willow tree bark had been used as
early as 400 BC to relieve pain. 19th century scientists knew that
it was the salicylic acid in the willow that made it work, but it
irritated the lining of the mouth and stomach. Hoffman synthesizes
acetyl salicylic acid, developing what is now the most widely used
medicine in the world. |
| 1901 |
Austrian-American Karl Landsteiner describes blood compatibility and rejection (i.e., what happens when
a person receives a blood transfusion from another human of either
compatible or incompatible blood type),
developing the ABO system of blood typing. This
system classifies the bloods of human beings into A, B, AB, and O
groups. Landsteiner receives the 1930 Nobel Prize for Physiology or
Medicine for this discovery. |
| 1906 |
Sir Frederick Gowland Hopkins suggests the existence of vitamins and concludes they are essential
to health. Receives the 1929 Nobel Prize for Physiology or
Medicine. |
| 1907 |
First successful human blood transfusion using Landsteiner's ABO blood typing technique |
| 1913 |
Dr. Paul Dudley White becomes one of
America's first cardiologists, a doctor specializing in the heart
and its functions, and a pioneer in use of the electrocardiograph,
exploring its potential as a diagnostic tool. |
| 1921 |
Edward Mellanby discovers vitamin D and shows
that its absence causes rickets. |
| 1922 |
Insulin first used to
treat diabetes. |
| 1923 |
First vaccine for diphtheria. |
| 1926 |
First vaccine for pertussis (whooping
cough). |
| 1927 |
First vaccine for tuberculosis. |
| 1927 |
First vaccine for tetanus. |
| 1928 |
Scottish bacteriologist Sir Alexander Fleming discovers penicillin. He shares
the 1945 Nobel Prize for Physiology or Medicine with Ernst Chain and
Sir Howard Florey. |
| 1935 |
First vaccine for yellow fever. |
| 1935 |
Dr. John H. Gibbon, Jr. ,
successfully uses a heart-lung machine for extracorporeal
circulation of a cat (i.e., all the heart and lung functions are
handled by the machine while surgery is performed). Dr. Gibbon uses
this method successfully on a human in 1953. It is now commonly used
in open heart surgery. |
| 1937 |
First vaccine for typhus. |
| 1937 |
Bernard Fantus starts the first blood bank at Cook
County Hospital in Chicago, using a 2% solution of sodium citrate to
preserve the blood. Refrigerated blood lasts ten days. |
| 1943 |
Microbiologist Selman A. Waksman discovers the antibiotic streptomycin, later
used in the treatment of tuberculosis and other diseases. |
| 1945 |
First vaccine for influenza. |
| 1952 |
Paul Zoll develops the first cardiac
pacemaker to control
irregular heartbeat. |
| 1953 |
James Watson and
Francis Crick at
Cambridge University describe the structure of the DNA molecule. Maurice Wilkins and
Rosalind Franklin at King's College in London are also studying DNA.
(Wilkins in fact shares Franklin's data with Watson and Crick
without her knowledge.) Watson, Crick, and Wilkins share the Nobel
Prize for Physiology or Medicine in 1962 (Franklin had died and the
Nobel Prize only goes to living recipients). |
| 1954 |
Dr. Joseph E. Murray performs the first kidney transplant between identical twins. |
| 1955 |
Jonas Salk develops
the first polio. |
| 1957 |
Dr. Willem Kolff and Dr. Tetsuzo
Akutzu implant the first artificial heart in
a dog. The animal survives 90 minutes. |
| 1962 |
First oral polio vaccine (as an
alternative to the injected vaccine). |
| 1964 |
Firstvaccine for measles. |
| 1967 |
First vaccine for mumps. |
| 1967 |
South African heart surgeon Dr. Christiaan Barnard performs the first human heart transplant. |
| 1970 |
First vaccine for rubella. |
| 1974 |
First vaccine for chicken pox. |
| 1977 |
First vaccine for pneumonia. |
| 1978 |
First test-tube baby is
born in the U.K. |
| 1978 |
First vaccine for meningitis. |
| 1980 |
W.H.O. (World Health Organization)
announces smallpox is eradicated. |
| 1981 |
First vaccine for hepatitis B. |
| 1982 |
Dr. William DeVries implants the Jarvik-7 artificial
heart into patient Barney Clark. Clark lives 112 days. |
| 1983 |
HIV, the virus that causes AIDS, is
identified. |
| 1992 |
First vaccine for hepatitis A. |
| 1996 |
Dolly the sheep becomes the first
mammal cloned from an adult
cell (dies in 2003). |
| 1998 |
First vaccine for lyme disease. |
| 2007 |
Scientists discover how to use human
skin cells to create embryonic stem cells. |
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