Karl Friedrich Meyer
Karl Friedrich Meyer (19 May 1884 – 27 April 1974) was an American scientist of Swiss origin. He was one of the most prodigious scientists in many areas of infectious diseases in man and animals, the ecology of pathogens, epidemiology and public health.[1-6] Some called him the “Pasteur of the 20th century”.[1]
Early life and education
[edit]Meyer was born in Basel (Switzerland) to Theodor Meyer, 1852–1934, (a „Meyer zum Pfeil”), international cigar merchant, and Sophie, née Lichtenhahn, teacher, 1857-1936. Karl Friedrich had two younger sisters.
Meyer began his studies in 1902 at the University of Basel and soon moved to the University of Zurich where he concentrated on biology, zoology, histology, and laboratory techniques. He was greatly fostered by Heinrich Zangger, professor of comparative anatomy (and later the first professor of Medical Law in Zurich), who sent him to work with leading scientists in Munich and Bern.[2] Meyer was deeply impressed and influenced by Zangger's social consciousness. He received a doctorate of veterinary medicine in 1909 from the University of Zurich. – Later, in 1924, Meyer spent a sabbatical leave from the University of California in Zurich and obtained a Ph.D. in Bacteriology from the University of Zurich.
Scientific career
[edit]South Africa, 1908–1910
[edit]Meyer found his first employment in South Africa. The Transvaal Department of Agriculture in the (then) Union of South Africa had just established a large, special Institute devoted to research in public health and farm animal diseases, the latter being important for the economy of the country. The first director of the institute was another Swiss veterinarian, Arnold Theiler (father of the Nobel prize winner Max Theiler), famous for having successfully combated the so-called rinderpest, African horse sickness, and many other viral and bacterial infections of livestock.
Theiler employed Meyer as pathologist (i.e. to study and diagnose diseases by examination of organs, tissues, body fluids, and whole bodies). In this function he autopsied hundreds of animals and developed outstanding dexterity in doing this.[1]
In addition, Meyer had to develop vaccines, one against rabies, another to protect cattle against pleuro-pneumonia, a disease with devastating economic consequences for the farmers. In these studies he discovered a hitherto unknown type of the germ (now known as a mycoplasma) causing the disease. Moreover, he was able to answer one important question as to the lifecycle of the parasite causing African East Coast fever. And he showed that cattle could be protected against the illness.[3]
Meyer and Theiler both were strong personalities who did not get along too well. Shortly after returning to Switzerland, Meyer was offered a position as an assistant professor at the Veterinary School of the University of Pennsylvania in Philadelphia.
Pennsylvania, US, 1910–1913
[edit]Meyer taught pathology and comparative pathology at the Veterinary School of Pennsylvania. He argued with the Dean over dealing with ill-prepared students that had been admitted to the school.
Meyer was promoted to professor, and was put in charge of the diagnostic section of the Laboratory and Experimental Farm of the Pennsylvania Livestock Sanitary Board. He studied glanders, a bacterial disease in horses and mules which first affects the mucous membranes. It may be lethal, and is also dangerous to humans.
He also helped to elucidate the transmission of the bacteria causing a contagious abortion disease of cattle and also infecting humans via unsterilized milk, causing (possibly lethal) fever. This is the so-called brucellosis. Meyer never just stayed in the laboratory. He wanted to put his expertise to practical use, to the benefit of the people. So he soon consulted with the Milk Commission working on regulation to secure food safety of milk.
California, US, 1914–1974
[edit]In 1914 Meyer changed to the University of California (San Francisco and Berkeley) where he stayed for the rest of his life. – He was appointed to Prof. of Bacteriology and Protozoology and taught medical bacteriology at the Berkeley Medical School. He produced a textbook on pathology, collaborating with Frederick P. Gay and G.Y. Rusk.[4]
Starting in 1915, he worked at the George Williams Hooper Foundation Institute for Medical Research, University of California, devoted to medical research (whose first director was George H. Whipple, the Nobelist). At first, Meyer was acting director, and soon succeeded Whipple as director of the Hooper.[1] Meyer’s personality, his enormous knowledge combined with his energy and extraordinary drive were just what was needed to tackle the many pioneering tasks. He contributed significantly to the understanding, treatment, and prevention of many infectious (and other) diseases. His contributions and achievements were founded on his holistic, ecological approach. He was a generalist, meaning that he always concurrently concentrated on the interactions and interdependence of the factors involved, as they are: (i) the disease agents (biology, habitat, hosts, transmission to man, infectiousness, etc.); (ii) disease in man and animals (diagnosis, therapies, pathology, epidemiology); (iii) public health; and (iv) education.[5] His 1930s Public Health curriculum at the University of California played a large role in the creation of the UC Berkeley School of Public Health.[6]
Research and achievements
[edit]This article includes a list of general references, but it lacks sufficient corresponding inline citations. (October 2021) |
A selection of concise overviews of Meyer’s impacts on the understanding of the diseases he worked on, their diagnoses and treatments, and their prevention are presented below.
Brucellosis
[edit]Meyer contributed significantly to the understanding of the broad spectrum of the disease forms of Brucellosis. He suggested classing the various species of bacteria into one family (genus), formally named Brucella, to honor the discoverer, Sir David Bruce (microbiologist and pathologist; 1855–1931). – Meyer also worked on tests and treatments of the diseases. As a member of the San Francisco State Milk Commission he helped to develop industrial food processing standards needed for upgrading the hygiene in the milk industries.
Botulism
[edit]Meyer started his work on botulism after 1913, when home canning became popular during the war, and sterilization techniques were not sufficient. Around 1920, the entire canning industry in California (whose business in canned food then amounted to almost a billion dollars) was in jeopardy because many deaths occurred throughout the country due to lack of proper sterilization in the canneries. Meyer then convinced the National Canners Association to fund research and development of safe industrial processes. Owing to Meyer, a research institute was founded, financed by the canning industries, and directed by him from 1926 to 1930. A canning research laboratory existed in the Hooper until the 1980s. Meyer continued consulting with the industries until his death. Thus, he deserves the credit for developing safe canning procedures, for realizing effective control over industrial hygiene, and for the prevention of botulism.
Equine encephalitis
[edit]Meyer also investigated what are called arbovirus diseases, among them equine encephalitis. Several diseases transmitted from animals to humans are due to a group of viruses carried by mosquitoes. Mosquitoes belong to the ‘animal family’ (technically a ‘phylum’) called arthropods; hence the viruses carried by them are arthropod-borne. Different arboviruses may cause diverse diseases. Here, we summarize examples of Meyer’s outstanding discoveries in this area. In the early 1930s, thousands of horses in California suffered and died from a paralytic disease, later called western equine encephalitis. Meyer proved that it was of viral origin. Later it became clear that the virus can also infect humans causing encephalitis, sometimes with deadly complications. – Meyer and his colleagues at the Hooper later demonstrated that mosquitoes pick up the virus from chicken and (migratory) birds and transfer it to man and to horses. It also became clear that the disease is common near irrigated fields where mosquitoes abound. Meyer therefore qualified encephalitis as a man-made disease. Subsequently, a vaccine for horses was developed. And it turned out that the isolation of the virus by Meyer led to the discovery of similar kinds causing other types of encephalitis in man. (Other microbiologists found related types of viruses in other animals than horses.) – Effective mosquito control was the key to minimizing this problem.
Yellow fever
[edit]During the years of World War II a vaccine against yellow fever was used in the Armed Forces that produced (unexpectedly) adverse reactions such as jaundice. Meyer stepped in, discovered mistakes in its production and helped producing a safe and effective vaccine.[1]
Plague
[edit]Meyer conducted a great many investigations on the nature of the bacillus causing plague, on the important function of the different fleas (carrying the bacillus), the epidemiology of the rodents (infested by fleas), the influence of the location of their habitats, and its climate and vegetation, etc. His extensive work finally led him to define general ecological conditions for outbreaks of plague epidemics. This, in fact, was one of Meyer’s great contributions.[7] Moreover, Meyer and his scientists at the Hooper developed an effective vaccine. It was actually manufactured at the Hooper when the Army needed vaccines to protect the troops in Vietnam (one endemic area where many plague cases were seen among soldiers). The results were excellent; no epidemic was observed. – Meyer went on to develop optimal, effective therapies using antibiotics, another of his contributions.
Psittacosis
[edit]Psittacosis belongs to a group of infectious diseases transmitted from birds to man (so-called ornithoses). – Meyer isolated the agent of psittacosis (i.e. one of the Chlamydia bacterium) and later also defined antigens. In addition, in the early 1930s, Meyer fought for interstate embargo on the export of parakeets to stop propagation of the disease. He also was responsible for California-wide actions to liberate the majority of aviaries of infested birds. Towards this goal, the Hooper became a center for testing thousands of birds and selecting the ones free of the bacteria, with the result that germs and disease largely disappeared from local commerce. With the advent of antibiotics, the disease can be successfully treated. Meyer, together with colleagues, developed a system of quarantine and treatment for imported birds that was highly effective in minimizing psittacosis in imported pet birds. The incidence of psittacosis declined notably owing to the many discoveries in this area by Meyer.
Mussel Poison
[edit]Under Meyer’s guidance, methods of testing mussels for the presence of the poison, leading to the so-called paralytic shellfish poisoning, were developed at the Hooper. And the California State Department of Health decided (in 1929) to monitor the mussels closely, and to publicize a ban on harvesting of shellfish, when the annual appearance of the poison is detected.
Valley Fever
[edit]Valley fever, i.e. coccidioidomycosis (or California Valley Fever) is caused by airborne, fungal particles dwelling in the soil in certain parts of the southwestern United States and northern Mexico. Infection is caused – in about half of the people exposed – by inhalation of the fungal particles (known as arthroconidia, a form of spore). The disease is not transmitted from person to person. – The fungal particles were isolated by Meyer who also thoroughly investigated and described the epidemiology of the disease.
Leptospirosis
[edit]The disease Leptospirosis may be transmitted to humans upon exposure to water contaminated with the urine of infected animals (such as cattle, pigs, horses, dogs, rodents, and other wild animals). Meyer’s many investigations contributed greatly to the understanding of the disease. He developed a diagnostic test as well as methods of vaccination. Among other things, Meyer found about half of all dogs in San Francisco infected. Later, after Meyer’s interventions, the dog-epidemic disappeared.
Additional achievements
[edit]Meyer worked, in addition to the many fields mentioned, also on the effects of air pollution and lead on farm animals, as well as on typhoid fever (– after a spaghetti casserole served at a church dinner poisoned about 100 people). He also explored influenza and its epidemiology, looked into malaria, tetanus, viral hepatitis, anthrax, poliomyelitis, dysentery, pseudotuberculosis, common cold, and dental bacteriology.[1][3][5] Meyer was also active against the anti-vivisectionist movement.
Many scientists thought that Meyer’s outlining and discussion of the concept of latent infections was a very significant and wide-ranging contribution. His conception of the (large) reservoir of microbes in the animal kingdom, bearing many dangers to humans, was important.
Meyer’s extraordinary series of publications and papers presented at conferences (including talks on the radio) were important parts in promoting the state of the art. He published more than 800 articles in books and scientific journals (of which about 200 were written after his official retirement, when continuing his work as Honorary Director of the Hooper Institute and Honorary Professor).
Meyer served on the editorial boards of several professional journals. Thus, he kept in close contact and co-operated with many other leading medical microbiologists, medical doctors, leaders in public health, and agencies of public health.[8]
Meyer had wide-ranging interests, including history and, in particular, history of biology. He also was an accomplished photographer and fascinated by radio in its early days. Another specialty of his was philately, where he concentrated on disinfected mail, about which he wrote a book.
Teaching
[edit]In 1914, Meyer began teaching courses in medical bacteriology at Berkeley. His lectures, always most diligently prepared, were all brilliant, dynamic, captivating, and demanded a great deal from all students. Soon his lectures were famous and attracted great numbers of students (also from outside of medicine).[5]
Legacy
[edit]Friends and colleagues concluded after his death that Meyer had more influence on microbiology and epidemiology than any other scientist of his time: he was driven by a deep-seated concern for the public health He always went beyond research to implement practical measures of preventing and fighting the diseases. A former student and friend once wrote: "Meyer would have won a Nobel Prize if he hadn't worked on so many areas of discovery that nobody could keep track of all that he was doing".[1]
He was responsible, among others, for improving laws regulating hygiene in the food industries and in public health. He established training programs in Public Health in California (and the Western States of the US). He was an excellent and inspiring, though very demanding, teacher.[5]
Meyer was honored for his work by many honorary degrees, awards, medals, fellowships, honorary memberships or honorary chairmanships of scientific associations. Nine American and European universities bestowed honorary doctorates on him.[8] Many academic appointments, chairs, and consulting activities are also listed in the literature.[1]
Personal life
[edit]Meyer married Mary Elizabeth Lindsay (1883–1958) on July 16, 1913. The two had one daughter, Charlotte, born in 1918. Meyer’s second marriage (in 1960) was with Marion Grace Lewis (1916–1998). He became an American citizen in 1922.[citation needed]
References
[edit]- ^ a b c d e f Karl F. Meyer; Medical Research and Public Health, with Recollections by S. S. Elberg, J. Schachter, L. E. Foster, J. H Steele. An Interview Conducted by E. T. Daniel in 1961 and 1962. Typoscript, 439 p. The Regents of the University of California, 1976
- ^ J. H. Steele. Karl Friedrich Meyer, in J. Infect. Dis. 129, S. 404-411 (Supplement), May 1974.
- ^ a b A. D. Sabin. Karl Friedrich Meyer, May 19, 1884 – April 27, 1974. Biographical Memoirs, Vol. 42, S. 268-332. National Academy of Sciences of the United States of America. National Academy Press, Washington D.C. 1980
- ^ Karl F. Meyer, Frederick P. Gay and Glanville Y. Rusk (1915) Outline of a combined courses in pathology, including bacteriology and protozoology, infection and immunity, experimental pathology, histopathology and morbid anatomy, link from HathiTrust
- ^ a b c d J. Schachter. Karl F. Meyer, the Scientist Dedicated to Service, Bull. Schweiz. Akad. Med. Wiss. 33, S. 187-199,1977
- ^ "School of Public Health History". UC Berkeley. Archived from the original on April 15, 2012. Retrieved April 21, 2012.
- ^ D. C. Cavanaugh. Karl Friedrich Meyer (1884-1974). J. of Wildlife Dis., Vol. 10, pp. 488-490, Oct. 1974
- ^ a b U. Gessner. Karl Friedrich Meyer, 1884-1974
- Karl F. Meyer (1976) Medical Research and Public Health, with recollections by S. S. Elberg, J. Schachter, L. E. Foster, J. H Steele. An Interview Conducted by E. T. Daniel in 1961 and 1962, Typoscript, 439 p. Regents of the University of California.
- J. H. Steele (May 1974) Karl Friedrich Meyer, in Journal of Infectious Diseases 129, S. 404-411 (Supplement).
- A. D. Sabin (1980) Karl Friedrich Meyer, May 19, 1884 – April 27, 1974, Biographical Memoirs, Vol. 42, S. 268-332. National Academy of Sciences of the United States of America. National Academy Press, Washington D.C.
- J. Schachter (1977) Karl F. Meyer, the Scientist Dedicated to Service, Bull. Schweiz. Akad. Med. Wiss. 33, S. 187-199.
- D. C. Cavanaugh (October 1974) Karl Friedrich Meyer (1884–1974). J. of Wildlife Dis., Vol. 10, pp. 488–490.
- U. Gessner. Karl Friedrich Meyer, 1884-1974. REVIEW of the Swiss American Historical Society. In press.