The astrological roots of mesmerism

Franz Anton Mesmer’s 1766 thesis on the influence of the planets on the human body, in which he first publicly presented his account of the harmonic forces at work in the microcosm, was substantially copied from the London physician Richard Mead’s early eighteenth century tract on solar and lunar effects on the body. The relation between the two texts poses intriguing problems for the historiography of medical astrology: Mesmer’s use of Mead has been taken as a sign of the Vienna physician’s enlightened modernity while Mead’s use of astro-meteorology has been seen as evidence of the survival of antiquated astral medicine in the eighteenth century.Two aspects of this problem are discussed. First, French critics of mesmerism in the 1780s found precedents for animal magnetism in the work of Paracelsus, Fludd and other early modern writers; in so doing, they began to develop a sophisticated history for astrology and astro-meteorology.Second, the close relations between astro-meteorology and Mead’s project illustrate how the environmental medical programmes emerged. The making of a history for astrology accompanied the construction of various models of the relation between occult knowledge and its contexts in the enlightenment.     

Genetic analysis of the breeding system of an invasive subterranean termite, Reticulitermes santonensis, in urban and natural habitats

Reticulitermes santonensis is a subterranean termite that invades urban areas in France and elsewhere where it causes damage to human-built structures. We investigated the breeding system, colony and population genetic structure, and mode of dispersal of two French populations of R. santonensis. Termite workers were sampled from 43 and 31 collection points, respectively, from a natural population in west-central France (in and around the island of Oleron) and an urban population (Paris). Ten to 20 workers per collection point were genotyped at nine variable microsatellite loci to determine colony identity and to infer colony breeding structure. There was a total of 26 colonies, some of which were spatially expansive, extending up to 320 linear metres. Altogether, the analysis of genotype distribution, F-statistics and relatedness coefficients suggested that all colonies were extended families headed by numerous neotenics (nonwinged precocious reproductives) probably descended from pairs of primary (winged) reproductives. Isolation by distance among collection points within two large colonies from both populations suggested spatially separated reproductive centres with restricted movement of workers and neotenics. There was a moderate level of genetic differentiation (F(ST) = 0.10) between the Oleron and Paris populations, and the number of alleles was significantly higher in Oleron than in Paris, as expected if the Paris population went through bottlenecks when it was introduced from western France. We hypothesize that the diverse and flexible breeding systems found in subterranean termites pre-adapt them to invade new or marginal habitats. Considering that R. santonensis may be an introduced population of the North American species R. flavipes, a breeding system consisting primarily of extended family colonies containing many neotenic reproductives may facilitate human-mediated spread and establishment of R. santonensis in urban areas with harsh climates.     

A conversation with John Sulston

Sir John Sulston was a co-winner of the Nobel Prize for Medicine in 2002. He won the prize for his discoveries concerning "genetic regulation of organ development and programmed cell death," along with his colleagues sydney Brenner and H. Robert Horvitz. Dr. Sulston was founding director of the Sanger Centre, Cambridge, England, which he headed from 1992 to 2000. From 1993 to 2000, he led the British arm of the international team selected to work on the Human Genome Project. He is co-author of the book The Common Thread: A Story of Science, Politics, Ethics, and the Human Genome, published by Joseph Henry Press in 2002.This interview was conducted on December 20, 2002, shortly after Dr. Sulston was awarded his Nobel Prize and was originally broadcast on that date on radio station WPKN-FM in Bridgeport, Connecticut. The interview was conducted by Valerie Richardson, the Managing Editor of The Yale Journal of Biology and Medicine.Dr. Sulston has been an outspoken advocate against letting the data from the Human Genome Project become property of commercial interests that would charge the world's scientific community for its use. Since leaving the Sanger Institute, he has worked with OxFam, the Oxford Campaign for Famine Relief.     

When did Louis Pasteur present his memoir on the discovery of molecular chirality to the Académie des sciences? Analysis of a discrepancy

Louis Pasteur presented his historic memoir on the discovery of molecular chirality to the Académie des sciences in Paris on May 22nd, 1848. The literature, however, nearly completely ignores this date, widely claiming instead May 15th, 1848, which first surfaced in 1922 in Pasteur's collected works edited by his grandson Louis Pasteur Vallery-Radot. On May 21st, 1848, i.e., one day before Pasteur's presentation in Paris, his mother died in Arbois, eastern France. Informed at an unknown point in time that she was "very ill," Pasteur left for Arbois only after his presentation. Biographies of Pasteur by his son-in-law René Vallery-Radot or the grandson, and Pasteur's collected correspondence edited by the grandson are incomprehensibly laconic or silent about the historic presentation. While no definite conclusions are possible, the evidence strongly suggests a deliberate alteration of the record by the biographer relatives, presumably for fear of adverse public judgment of Pasteur for a real or perceived insensitivity to a grave family medical emergency. Such fear would have been in accord with their hagiographic portrayal of Pasteur, and the findings raise questions concerning the extent of their zeal in protecting his "demigod" image. Universal recognition of the true date of Pasteur's announcement of molecular chirality is long overdue.     

Dr. R. J. McKinlay Gardner Interviewed by Dr. Hon Fong L. Mark

Dr. Mac Gardner graduated in medicine from the University of Otago, Dunedin, New Zealand in 1968. After hospital residencies he undertook training in clinical genetics in New Zealand, and then the U.K., France and Canada. He returned to New Zealand as a specialist in genetics in 1977, but for the past 14 years he has been a consultant in medical genetics with Genetic Health Services Victoria in Melbourne, Australia.     

Response of Insect Relative Growth Rate to Temperature and Host-Plant Phenology: Estimation and Validation from Field Data

Between 1975 to 2011, aphid Relative Growth Rates (RGR) were modelled as a function of mean outdoor temperature and host plant phenology. The model was applied to the grain aphid Sitobion avenae using data on aphid counts in winter wheat at two different climate regions in France (oceanic climate, Rennes (western France); continental climate, Paris). Mean observed aphid RGR was higher in Paris compared to the Rennes region. RGR increased with mean temperature, which is explained by aphid reproduction, growth and development being dependent on ambient temperature. From the stem extension to the heading stage in wheat, there was either a plateau in RGR values (Rennes) or an increase with a maximum at heading (Paris) due to high intrinsic rates of increase in aphids and also to aphid immigration. From the wheat flowering to the ripening stage, RGR decreased in both regions due to the low intrinsic rate of increase in aphids and high emigration rate linked to reduced nutrient quality in maturing wheat. The model validation process showed that the fitted models have more predictive power in the Paris region than in the Rennes region.     

Charles-Edouard Brown-Séquard: an eventful life and a significant contribution to the study of the nervous system

This is an account of the life of a 19th-century physiologist who was born in 1817 in Port-Louis (Mauritius Island, formerly 'Ile de France') and died in Paris in 1894. His mother tongue, education and medical training were French, but as the 'Ile de France' had become British a few years before his birth, he was a British citizen and therefore ineligible for a permanent position in a French institution. This explains, partly at least, his eventful life, during which he restlessly wandered during several decades between France, the United States, Great Britain and Mauritius, without ever finding a position that would satisfy him. This difficult period lasted until 1879 when, having finally acquired French nationality, he succeeded Claude Bernard in the chair of experimental medicine at the 'Collège de France'. Some of his contributions to the physiology of the nervous system are analysed: sensory pathways in the spinal cord, vasoconstrictor innervation, nervous inhibition and experimental epilepsy.     

Scientific research at the Laboratoire Arago (Banyuls, France) in the twentieth Century: Edouard Chatton, the "master", and André Lwoff, the "pupil"

Edouard Chatton (1883–1947) began his scientific career in the Pasteur Institute, where he made several important discoveries regarding pathogenic protists (trypanosomids, Plasmodium, toxoplasms, Leishmania). In 1908 he married a "Banyulencque", Marie Herre; from 1920, he focused his research on marine protists. He finished his career as Professor at the Sorbonne (Paris) and director of the Laboratoire Arago in Banyuls-sur-mer, where he died in 1947. André Lwoff (1902–1994) lived several scientific lives in addition to his artistic and family life. But it is the study of protists that filled his first life after he encountered the exceptional Master who was Chatton. Lwoff's father was a psychiatrist and his mother an artist sculptor. He became a Doctor of Medicine in 1927 and then a Doctor of Sciences in 1932, his thesis dealing with biochemical aspects of protozoa nutrition. He met Chatton in 1921 and – until Chatton's death – their meetings, first in Roscoff and then in Banyuls-sur-mer, were numerous and their collaboration very close. Their monograph on apostome ciliates was one of the peaks of this collaboration. In 1938, Lwoff was made director of the Microbial Physiology Department at the Pasteur Institute in Paris, where he began a new life devoted to bacteria, and then to viruses, before pursuing his career as director of the Cancer Research Institute in Villejuif (France). Lwoff was awarded the Nobel Prize in Physiology or Medicine in 1965. He died in Banyuls in 1994. "Master" and "pupil" had in common perseverance in their scientific work, conception and observation, a critical sense and rigor but also a great artistic sensibility that painting and drawing in the exceptional surroundings of Banyuls-sur-mer had fulfilled. Electronic Publication     

Learning from cholera: medical and social responses to the first great Paris epidemic in 1832

This essay explores responses to the Paris cholera epidemic of 1832 to show how medical ideas shaped popular conceptions of the social world, while at the same time this world influenced how scientists posed their basic hypotheses. It demonstrates how responses to the epidemic were shaped by two major realities: the population of Paris was exploding and France had recently experienced a second major revolution.     

Beyond frontiers and time: the scientific and cultural heritage of Alcide d’Orbigny (1802–1857)

Alcide Dessalines d’Orbigny was born on 6 September 1802 in Couëron (near Nantes), France. In his early youth, he developed a life interest in the study of a group of microscopic animals that he named ‘Foraminifera’. In his first scientific work, devoted to this group, he established the basis of a new science, micropaleontology. All his life, he worked on foraminifera, but his concern in natural sciences widely exceeded the domain of micropaleontology. Impressed by his first work on foraminifera, published at the age of 23, the scientists of the Muséum National d’Histoire Naturelle (MNHN) chose him as the naturalist explorer for an expedition to South America. Alcide d’Orbigny explored Brazil, Argentina, Uruguay, Chile, Bolivia, and Peru from 1826 to 1833. He was a great humanist and applied the view of an ethnologist and historian to the communities with which he shared his daily life in South America. A precursor in biogeography and ecology, he contributed greatly to the advancement of knowledge of the animal and vegetal kingdoms by describing several thousand living species in the nine volumes of his ‘Voyage dans l’Amérique Méridionale’ (1835–1847). Back in France, he turned his research towards paleontology and stratigraphy. He undertook the immense task of describing all species of fossil invertebrates found in France in the eight volumes of ‘La Paléontologie française’ (1840–1860). He arranged 18 000 species in stratigraphic order in the three volumes of ‘Prodrome de Paléontologie stratigraphique’ (1850–1852), and published three volumes entitled ‘Cours élémentaire de paléontologie et de géologie stratigraphiques’ (1849–1852). These important works led him to create the first geological and stratigraphical scale. Many of the 27 stages established are still used in the standard chronostratigraphic scale. The Chair of Paleontology of the MNHN in Paris was created for him in 1853. He died on 30 June 1857 at the age of 55, in Pierrefitte (France), leaving behind him a huge scientific and cultural heritage. Alcide d’Orbigny bequeathed to posterity a collection of more than 100 000 vegetable and animal specimens. This exceptionally rich heritage, deposited in the MNHN, is an international reference collection, and it is actively consulted by specialists from around the world. The application of his work extends to various fields of academic research (such as earth history, paleoceanography and paleoclimatology), to economics and practical applications in stratigraphy and micropaleontology that greatly contribute to oil and other resource exploration as well as major earth construction. The bicentennial of the birth of Alcide d’Orbigny was celebrated in France during the year 2002 under the patronage of the highest authorities of the state, along with scientific and cultural institutions. A traveling exhibition presented the different facets of his life’s work and international congresses were held in the three places dearest to Alcide d’Orbigny: Santa Cruz (Bolivia), La Rochelle (France) and Paris (France). This year (2003) marks the 150th anniversary of his appointment to the Chair of Paleontology of the MNHN.     

The 'experimental stable' of the BCG vaccine: safety, efficacy, proof, and standards, 1921-1933

The anti-tuberculosis BCG (Bacille Calmette-Guérin) vaccine was conceived and developed between 1905 and 1921 at Pasteur Institutes in France. Between 1921 and A. Calmette's death in 1933, the vaccine went through a first period of national and international production and distribution for its use in humans. In France these activities were exclusively carried out by Calmette and his collaborators at the Pasteur Institute in Paris. Initially improvised production in a small room in the cellar gave way in 1931 to the construction of the spacious and magnificent 'New laboratories for research on tuberculosis and the preparation of the BCG' within the premises of the Pasteur Institute. Presentation and image-building of the vaccine in France insisted on the fact that the BCG was not a commercial specialty but distributed free of charge. The technical monopoly of its production nevertheless lay with the Paris Pasteur Institute and standardization of scientific proof of safety, efficacy and stability was dominated by that Institute in France. In contrast, the international production and distribution of the vaccine was entrusted and transferred, free of charge, to trustworthy laboratories outside France. Multiplication of producers and users led to an increased need for standardization. For this process the analysis distinguishes between the standardization of scientific proof concerning safety, efficacy and stability of the vaccine and standardization of its medical uses. Whereas standardization was rather successful in the inter-war period in France, the international efforts remained rather unsuccessful. Only after world war II under Scandinavian leadership and in the context of mass vaccination programs supported by the WHO and UNICEF was the international standardization effectively implemented and succeeded at least to some extend.     

The ‘experimental stable’ of the BCG vaccine: safety, efficacy, proof, and standards, 1921–1933

The anti-tuberculosis BCG (Bacille Calmette-Guérin) vaccine was conceived and developed between 1905 and 1921 at Pasteur Institutes in France. Between 1921 and A. Calmette’s death in 1933, the vaccine went through a first period of national and international production and distribution for its use in humans. In France these activities were exclusively carried out by Calmette and his collaborators at the Pasteur Institute in Paris. Initially improvised production in a small room in the cellar gave way in 1931 to the construction of the spacious and magnificent ‘New laboratories for research on tuberculosis and the preparation of the BCG’ within the premises of the Pasteur Institute. Presentation and image-building of the vaccine in France insisted on the fact that the BCG was not a commercial specialty but distributed free of charge. The technical monopoly of its production nevertheless lay with the Paris Pasteur Institute and standardization of scientific proof of safety, efficacy and stability was dominated by that Institute in France. In contrast, the international production and distribution of the vaccine was entrusted and transferred, free of charge, to trustworthy laboratories outside France. Multiplication of producers and users led to an increased need for standardization. For this process the analysis distinguishes between the standardization of scientific proof concerning safety, efficacy and stability of the vaccine and standardization of its medical uses. Whereas standardization was rather successful in the inter-war period in France, the international efforts remained rather unsuccessful. Only after world war II under Scandinavian leadership and in the context of mass vaccination programs supported by the WHO and UNICEF was the international standardization effectively implemented and succeeded at least to some extend.     

Does French Islam Have Borders? Dilemmas of Domestication in a Global Religious Field

Although many accounts of transnational religious movements emphasize mobility and communication, equally important are efforts by both political actors and religious leaders to carve out distinctive national forms of religion. In this article I examine dilemmas faced by Muslims in France who seek both to remain part of the global Muslimcommunity and to satisfy French demands for conformity to political and cultural norms. I consider the history of immigration and the importance of French notions of laïcité but emphasize the structural problem of articulating a global religious field onto a self-consciously bounded French nation-state. I then draw on recent fieldwork in Paris to analyze two recent public events in which attempts by Muslim public intellectuals to develop an "Islam of France" are frustrated by internal, structural tensions concerning religious authority and political legitimacy, and not simply by a conflict between "Muslims" and "France."     

Paul Bert, scientist and politician

Paul Bert worked with Claude Bernard, one of the leading physiologists of the 19th century. In his laboratory at the Collège de France in Paris, Paul Bert carried out fascinating experiments in particular on respiratory processes, leading him to publish "La pression barométrique" in 1878. In this book are recalled his discovery of oxygen pressure decrease with altitude, divers diseases, the improved safety protocols in hyperbaric conditions, and the first development of gas anaesthetics for surgery. He was the third President of the Société de Biologie. Paul Bert was also a politician with strong convictions. Minister of Education under Gambetta's short term government, he initiated the fight for social equality and secular education and became one of the most prestigious figures of the developing socialist party. He received many distinctions and was given a state funeral.     

Henry Ingersoll Bowditch and Oliver Wendell Holmes: stethoscopists and reformers

Two Bostonians, Henry Ingersoll Bowditch (1808-1892) and Oliver Wendell Holmes (1809-1894), went to Paris for advanced medical training and came home ardent disciples of Pierre Charles Alexandre Louis, leader of the French school that derived its eminence from expert auscultation and careful correlation of bedside and autopsy findings. Both Bowditch and Holmes became leaders in 19th-century American medicine. Bowditch, a successful practitioner and prolific medical writer, wrote the first important American text on physical examination and became our first specialist in pulmonary disease. He pioneered in the public health movement, was a charter member and later president of the American Medical Association, and was an abolitionist and an advocate for equal rights for women in medicine. Holmes left practice to become a medical educator. As Dean of Harvard Medical School, he tried unsuccessfully to admit white women and free black men to the school. Although his greatest fame came as a man of letters, Holmes considered himself first a physician and medical educator, and was justifiably proud of his definitive study, "The Contagiousness of Puerperal Fever" (1843). Today, Bowditch and Holmes are little appreciated as pioneers and reformers, but we remain in debt to them both.     

Issues addressed by tuberculosis in France in 2003

The incidence of tuberculosis in France has not declined since 4 years. In fact, there is a constant decline in the whole country but a slight increase in the Paris region. As in other big cities in the world, the recent increase in cases in Paris is mainly due to immigrants. In contrast, HIV coinfection accounts for a small and decreasing part of the cases. Moreover, the rates of resistance and multiresistance to antituberculous drugs are low and stable indicating that the treatment of active diseases is satisfactory. The respective part of cases due either to primary infections or to reactivations is unknown. In order to control tuberculosis in Paris, we need to implement better infection control policy with active screening of contacts of patients with active tuberculosis as well as treatment of latent tuberculosis infections.     

Views from the periphery: discourses of race and place in French military medicine

Numerous authors have interpreted the history of anthropological and medical conceptions of race in nineteenth century France as following a path mapped out by phrenology, anthropometry, and Paul Broca's version of physical anthropology. On balance, this has resulted in an historical narrative centered on Parisian intellectual life and one leaving the impression that by the 1890s anthropological theories had moved away from ethnological and cultural explanations toward more biological views of race. This article, by contrast, examines the world beyond Paris and the literatures of naval and army medicine from about 1830 to 1920. It describes the contours of a medical and anthropological pluralism in matters of race and ethnicity and argues that cultural and ethnological perspectives remained important to theorists of race through World War I.     

Ami Boué (1794–1881), géoscientifique du XIXe siècle

Born on 16 March 1794 in Hamburg as a son of a Huguenot family whose members made big fortune as ship-owners, Ami Boué took his doctor’s degree in medicine in 1817 at the University of Edinburgh. During the following years, he completed his knowledge in the field of natural sciences, especially in Geoscience. In 1830, after having founded, with other scientists, among whom Constant Prévost and Gérard-Paul Deshayes, the Geological Society of France, in which Boué became the first president, he left Paris in 1835 and settled in Vienna. In 1836, 1837 and 1838 he crossed the Balkans. In his masterpiece La Turquie d’Europe (Paris, 1840, four volumes), he published the results of this research. In his study, Ami Boué intended to join the Austrian empire with Turkey by railways. Anyway, Boué’s works concerning the Balkans were fundamental for the future generations of Austrian geoscientists.     

Volodymyr Oleksandrovych Bielitser--a gifted scientist and outstanding biochemist, a founder of the scientific school

Professor V. O. Belitser, Doctor of Science (biology), (30.09.1906, Ryazan, RF-04.03.1988 Kyiv, Ukraine), Member of the National Academy of Sciences of Ukraine, graduated from the physico-mathematical faculty of the Moscow University in speciality "physico-chemical biology". In 1934-1943 he worked at the All-Union Institute of Experimental Medicine (Moscow) where he was engaged in research of the relation between the respiratory system and glycolytic reactions in the animal tissues. V. O. Belitser established the effect of creatin on the muscular respiration on the role of creative phosphate in this process. He was the first to demonstrate that the anaerobic phosphorylation is bound to respiration. He investigated stechiometric relations between the joint phosphate binding and oxygen absorption and estimated thermodynamic importance of this process, he showed that the energy of electron transfer from the substrate to oxygen is a source of formation of three ATP molecules per one atom of absorbed oxygen. From 1944 to 1988 V. O. Belitser worked at the Institute of Biochemistry of the Academy of Sciences of the Ukr.SSR (Kyiv), where he headed the Laboratory of Enzymes (then proteins), and from 1966 he headed the Department of Protein Structure and Function; for a certain period (1969-1972) he headed the Institute as its director. Investigations of properties of native and denaturated proteins jointly with K. I. Kotkova led to the creation of blood substitute from blood serum proteins of cattle--BK-8. The school of V. O. Belitser is known by studying the molecular mechanism of one of the basic reactions of blood coagulation--fibrinogen transformation to fibrin, by finding out the organization and function of fibrinogen and fibrin. It was proved experimentally that the specific polymerization centres significance for the fibrin lattice formation are of essential significance for the fibrin lattice formation, that fibrinogen to fibrin transformation occurs in two stages--enzymatic and polymerizational ones. V. O. Belitser proposed the mechanism of fibrinogen transformation to fibrin, as soon as he had substantiated the kinetic theory of this reaction; domain structure of fibrinogen has been investigated. Such diagnostic tests as the methods of definition of the products of fibrinogen and fibrin splitting in urine (for differential diagnosis of cardiovascular diseases) were developed and put into medical practice under his guidance. V. O. Belitser and members of his school have published above 300 scientific works, prepared 5 doctors and 25 candidates of science. The selfless work of the scientists was honoured with high state awards--the Orders of Lenin, the Order of the Labour Red Banner, the Order of Oktober Revolution, that of Friendship of Peoples and with numerous medals.