RESUMO
BACKGROUND: Historical review on the early development of organotherapy for diabetes [pancreatic extracts (PE)] and its relationship with the social and political circumstances. AREAS OF UNCERTAINTY: The diagnosis of diabetes relied only in the presence of glycosuria and cardinal symptoms. Blood glucose determinations were not regularly available, requiring large volumes for sampling. Micromethods for glycemia were developed just in the last years of the investigated period. Hypoglycemia remains undiscovered. Isolation and purification of PE were difficult tasks due to the unknown chemical structure of the antidiabetic hormone. DATA SOURCES: (1) Berliner Medizinhistoriches Museum der Charité (Humboldt University). (2) GeDenKort Charité-Wissenschaft in Verantwortung. (3) Geheim Staatsarchiv Preußischer Kulturbesitz. (4) Archival Collections, University of Toronto: Thomas Fisher Rare Book Library. Academy of Medicine Collection, F. G. Banting Papers, C. H. Best Papers, J. J. R. Macleod Papers. (5) National Library of Medicine: Pubmed search for the topic of history of insulin. History of Medicine-on syllabus archive. (6) Selected books: The Discovery of Insulin (M. Bliss); Diabetes, Its Medical and Cultural History (D. von Engelhardt); Brown-Séquard (M. J. Aminoff); Diabetes: The Biography (R. Tattersall); The Endocrine Organs (E. Schäfer); The Internal Secretions (E. Gley); Health, race and German politics between national unification and Nazism, 1870-1945 (P. Weindling). THERAPEUTIC ADVANCES: Demonstration that diabetes is a pancreatic disease. The outstanding progress of medical physiology led to the birth of endocrinology and the key concepts of homeostasis. Experimental scientists designed new procedures for complete pancreatectomy and elaboration of PE containing the antidiabetic principle. Organotherapy achieved complete success in the treatment of myxedema and partial success in the treatment of experimental and clinical diabetes. CONCLUSIONS: The organotherapy of diabetes was an obliged step to facilitate the identification of the antidiabetic hormone. Organotherapy of diabetes was a paradigm for the integration of basic and applied knowledge about hormone action and development of endocrine pharmacology.
Assuntos
Diabetes Mellitus/história , Hipoglicemiantes/história , Extratos Pancreáticos/história , Glicemia , Diabetes Mellitus/diagnóstico , Diabetes Mellitus/tratamento farmacológico , Endocrinologia/história , História do Século XIX , História do Século XX , Humanos , Hipoglicemiantes/uso terapêutico , Pâncreas/fisiopatologia , Extratos Pancreáticos/uso terapêuticoRESUMO
BACKGROUND: Historical description of first insulin trials just after its discovery. AREAS OF UNCERTAINTY: The review includes first initiatives of insulin treatment. The probability of other trials, not reported to the Insulin Committee of the University of Toronto and conducted in the years 1922 and 1923, is quite low. DATA SOURCES: (1) Archival Collections, University of Toronto: Insulin Discovery and Early Developments of Insulin (University of Toronto Libraries digital special collection, with a particular section entitled "From a Patient's Point of View" containing letters, patient charts, newspaper clippings, and photographs). (2) Thomas Fisher Rare Book Library: Academy of Medicine Collection, F. G. Banting Papers, C. H. Best Papers, J. B.Collip Papers, W. R. Feasby Papers, E. Hugues Papers, J. J. R. Macleod Papers. (3) National Library of Medicine: PubMed search for the topic of history of insulin, History of Medicine-on syllabus archive. (4) Selected Journals for History of Medicine: Bulletin of the History of Medicine, Journal of the History of Medicine and Allied Sciences, Medical History. (5) Selected books: The Discovery of Insulin (M. Bliss); Diabetes, Its Medical and Cultural History (D. von Engelhardt); H. C. Hagedorn and Danish Insulin (T.Deckert), Continuing Quest (W. A. Tomkins). THERAPEUTIC ADVANCES: This historical review shows the quick progress from impure pancreatic extract to the selective isoelectric precipitation of the hormone, which made possible the introduction of insulin in the clinic. CONCLUSIONS: The coordination between the Departments of Physiology (Connaught Laboratories) and Medicine (Toronto General Hospital) was essential for the discovery and implementation of insulin therapy. The Insulin Committee was decisive for the negotiation with the pharmaceutical industry, the purification, grand-scale production, patents' achievement, and provision of licenses to expert clinicians and prestigious health centers. At the end of the year 1923, insulin treatment was already extended to Europe (mainly Scandinavia, Great Britain, and Spain). Insulin discovery and treatment changed the clinical spectrum of diabetes.
Assuntos
Diabetes Mellitus/história , Hipoglicemiantes/história , Insulina/história , Diabetes Mellitus/tratamento farmacológico , História do Século XX , Humanos , Hipoglicemiantes/uso terapêutico , Insulina/uso terapêuticoRESUMO
AIMS: Since the Nobel Prize in Physiology or Medicine was awarded in 1923 to FG Banting and JJR Macleod, many voices have been raised against this decision. The bitterest protest was that of the Romanian scientist Nicolae C. Paulescu. In 2002, The Romanian Academy of Sciences, the European Association for the Study of Diabetes (EASD) and the International Diabetes Federation (IDF) planned to hold a series of academic events the following year in Paris to acknowledge Paulescu's scientific merits in the discovery of the antidiabetic hormone. However, the initiative was cancelled in August 2003, when the European Center of the Simon Wiesenthal Foundation (SWC) accused Paulescu of being antisemitic. The authors of this manuscript have decided to approach "the Paulescu case" from its double aspect, scientific and sociopolitical, to analyze the circumstances surrounding the discovery of the antidiabetic hormone, and Paulescu's alleged antisemitic past in the historical context of the Romanian nation in the interwar period. METHODS: We contacted the SWC and people related to the 2003 events in Paris. We performed a comparative review of the documents published by the Toronto group and by Paulescu and analyzed the correspondence and articles generated by international experts from the scientific community interested in the controversy. We carried out an exhaustive bibliographic search through several online catalogs (INDEXCAT, NLM Gateway, EUREKA, MEDHIST). We travelled to Bucharest, where we visited Paulescu's house-museum, interviewed a former student of the Romanian professor, and a prominent medical historian who was knowledgeable about Paulescu's scientific and political biography. Dan Angelescu, son of Dr. Constantin Angelescu (1904-1990), Paulescu's nephew and collaborator, provided us with a copy of all the available documentation from Paulescu's personal archive. It constitutes an essential source for understanding Paulescu's personal, political and academic biography. Archives consulted: RomânÇ Academy (Bucharest). Personal Archive of Paulescu, House -Museum (Bucharest)*. Romanian Jewish Heritage (Bucharest). http://romanianjewish.org/ **. Simon Wiesenthal Center (Los Angeles, CA) http://www.wiesenthal.com **. Romanian Patent Office. Oficiul de Stat pentru InvenÈii si MÇrci (OSIM) (Bucharest)***. Nobel Archives (Stockholm) https://www.nobelprize.org . Internet Archive (San Francisco, CA) https://archive.org **. Wellcome Library (London) https://wellcomelibrary.org **. The European Library https://www.theeuropeanlibrary.org/ **. US National Library of Medicine, NLM historical collections http://www.nlm.nih.gov/hmd/index.html **. US. Holocaust Memorial Museum http://www.ushmm.org/ (*: archive consulted on site; **: material found in the online catalog of the archive; ***: archivists sent us digitized copies of archival material). Books consulted for information on the history of Romania and antisemitism: "Nationalist ideology and antisemitism. The case of Romanian intellectuals in the 1930s", by Leon Volovici; "The mystique of ultranationalism: History of the Iron Guard, Romania, 1919-1941" by Francisco Vega; "Romania 1866-1947", by Keith Hitchins; "History of Romania. Compendium", by Ioan-Aurel Pop and Joan Bolovan; "The Holocaust in Romania. The destruction of Jews and Gypsies under the Antonescu regime, 1940-1944", by Radu Ioanid; "The Jews of East Central Europe between the World Wars", by Ezra Mendelson; "Cultural Politics in Greater Romania. Regionalism, Nation Building and Ethnic Struggle, 1918-1930", by Irina Livezeanu, and "Judeophobia. How and when it is born, where and why it survives", by Gustavo Daniel Perednik. Articles are referenced in the bibliography section at the end of the manuscript. RESULTS: A-Nicolae Paulescu developed an intense long-term research activity, which included complete pancreatectomy and preparation of a pancreatic extract (PE) containing the antidiabetic hormone he called pancreina. Parenteral administration of the PE achieved excellent results in the treatment of experimental diabetes in dogs and induction of hypoglycemia in the healthy animal. This work was initiated before 1916 and published at least eight months antedating the publication of the first article by Banting and Best (February 1922), who were acquainted with Paulescu's results, but misinterpreted them. The pancreatic extract of the two Canadian researchers, -iletin/insulin-, only achieved similar results to that of the Romanian scientist once they abandoned the use of the "degenerated pancreas" extract (ligation of the ductal system), replacing it with the pancreas of adult or fetal bovine. Pancreina and insulin were very similar. The award of the Nobel Prize in Physiology or Medicine to FG Banting and JJR Macleod in October 1923 honored the successful clinical use of insulin in patients with diabetes mellitus. Paulescu's achievements were ignored. B-Nicolae Paulescu publicly manifested his Judeophobic ideology on multiple occasions in academic and political interventions and in publications and participated with other figures from the Romanian intellectual sphere in the founding of the Uniunea NaÈional CrestinÇ (UNC, National Christian Union) in 1922 and of the Liga ApÇrÇrii NaÈional CresÈine (LANC, League for Christian National Defense) in 1923, antisemitic far-right political parties, associated with an irrational Christian orthodoxy and hatred of Jews. Paulescu played a pivotal role in the spread of antisemitism. CONCLUSIONS: A-The Romanian scientist NC Paulescu started an intense research program aimed at the isolation of the antidiabetic hormone before 1916, including an original procedure of pancreatectomy in the dog and the elaboration of a pancreatic extract that achieved excellent results in the treatment of experimental diabetes, demonstrating its beneficial effects on the metabolism of carbohydrates, proteins and fats and reducing both glycosuria and glycemia and the urinary excretion of ketone bodies of depancreatized dogs toward normality. The results of these investigations were published in 1920 and 1921, predating the first report published by FG ââBanting and CH Best in February 1922. It has been sufficiently demonstrated that Canadian researchers were aware of Paulescu's excellent results, mentioning them only in passing, albeit erroneously misrepresenting key results of the Romanian scientist's publication in the aforementioned seminal Canadian article. Expert historians and international scientists have recognized that the pancreatic extract that Paulescu called pancreina and that obtained by Banting and Best, insulin, were very similar. The October 1923 award of the Nobel Prize in Physiology or Medicine to FG Banting and JJR Macleod ignored Paulescu's scientific achievements in the treatment of experimental diabetes and rewarded the extraordinary advance of insulin treatment in human diabetes. B-At the end of August 2003, a few days before the date of the celebration at the Hôtel Dieu in Paris of the scheduled program of tribute to the scientific merits of NC Paulescu and his important contribution to the discovery of the antidiabetic hormone, convened by the Romanian Academy and the International Diabetes Federation, the Wiesenthal Foundation publicly accused the Romanian scientist of being an antisemite, an act that determined the cancellation of the announced events. The exhaustive investigation of the personal convictions and antisemitic behavior of Nicolae C. Paulescu has undoubtedly documented the Judeophobic ideology of the Romanian scientist, linked to his orthodox religious radicalism, manifested in multiple documents (mostly pamphlets) and interventions in collaboration with other relevant personalities of the Romanian intelligentsia of his time. Furthermore, Paulescu participated in the creation of political organizations of the most radical extreme right that played a fundamental role in the spread of antisemitism amongst the Romanian population and the university community.
Assuntos
Medicina , Prêmio Nobel , Fisiologia , Humanos , Aniversários e Eventos Especiais , RomêniaRESUMO
AIMS: The general objective has been the historiographical investigation of the organotherapy of diabetes mellitus between 1906 and 1923 in its scientific, social and political dimensions, with special emphasis on the most relevant contributions of researchers and institutions and on the controversies generated on the priority of the "discovery" of antidiabetic hormone. METHODS: We have analyzed the experimental procedures and determination of biological parameters used by researchers during the investigated period (1906-1923): pancreatic ablation techniques, induction of acinar atrophy with preservation of pancreatic islets, preparation of pancreatic extracts (PE) with antidiabetic activity, clinical chemistry procedures (glycemia, glycosuria, ketonemia, ketonuria, etc.). The field investigation has included on-site and online visits to cities, towns, buildings, laboratories, universities, museums and research centers where the reported events took place, obtaining documents, photographic images, audiovisual recordings, as well as personal interviews complementary to the documentation consulted (primary sources, critical bibliography, reference works). The documentary archival sources have been classified according to theme, including those consulted in situ with those extracted online and digitized copies received mainly by email. Among the many archives contacted, those listed below have been most useful and have been consulted on site and on repeated visits: National Library of Medicine-Historical Archives (Bethesda, MD, USA); Archives, University of Toronto and Thomas Fisher Rare Books Library (Toronto, Ontario, Canada); Francis A. County Library of Medicine, Harvard University (Boston, Mass, USA); Zentralbibliothek der Humboldt-Universität (Berlin, DE), Geheimarchiv des Preußischen Staates (Berlin, DE); Landesamt für Bürger-und Ordnungsangelegenheiten (LABO) (Berlin, DE); Arhivele Academiei Române si UniversitÇÈii Carol Davila (Bucharest, RO). MAIN RESULTS AND CONCLUSIONS: A) The European researchers Zülzer (Z Exp Path Ther 23:307-318, 1908) and Paulescu (CR Seances Soc Biol Fil 85:558, 1921) meet the requirements of the priority rule in the discovery of the antidiabetic hormone. B) Factors of socioeconomic and political nature related with the First World War and the inter-war period delayed the process of purification of the antidiabetic hormone in Europe. C) The Canadian scientist J. Collip, University of Alberta, temporarily assimilated to the University of Toronto, and the American chemist and researcher G. Walden, with the expert collaboration of Eli Lilly & Co., were the main authors of the purification process of the antidiabetic hormone. D) The scientific evidence, reflected in the heuristics of this research, allows to assert that the basic investigation carried out by the Department of Physiology of the University of Toronto, directed by the Scottish J. Macleod, in conjunction with the clinical research undertaken by the Department of Medicine of the University of Toronto (W. Campbell, A. Fletcher, D. Graham) made it possible in record time the successful treatment of patients with what was until then a deadly disease.
Assuntos
Diabetes Mellitus , Insulina , Humanos , História do Século XX , Insulina/uso terapêutico , Canadá , Diabetes Mellitus/tratamento farmacológico , Diabetes Mellitus/história , Hipoglicemiantes/uso terapêutico , Pâncreas , GlucagonRESUMO
AIMS: To analyze the main contributions to the discovery of the antidiabetic hormone in the period between 1889, the year in which Oskar Minkowski demonstrated that complete pancreatectomy in dogs caused diabetes, and the year 1923, the date in which the clinical use of insulin was consolidated. A main objective has been to review the controversies that followed the Nobel Prize and to outline the role of the priority rule in Science. METHODS: We have considered the priority rule defined by Robert Merton in 1957, which takes into account the date of acceptance of the report of a discovery in an accredited scientific journal and/or the granting of a patent, complemented by the criteria set out by Ronald Vale and Anthony Hyman (2016) regarding the transfer of information to the scientific community and its validation by it. The awarding of the Nobel Prize in Physiology or Medicine in October 1923 has represented a frame of reference. The claims and disputes regarding the prioritization of the contributions of the main researchers in the organotherapy of diabetes have been analyzed through the study of their scientific production and the debate generated in academic institutions. MAIN RESULTS AND CONCLUSIONS: (1) According to the criteria of Merton, Vale and Hyman, the priority of the discovery of the antidiabetic hormone corresponds to the investigations developed in Europe by E. Gley (1900), GL Zülzer (1908) and NC Paulescu (1920). (2) The active principle of the pancreatic extracts developed by Zülzer (acomatol), Paulescu (pancreina) and Banting and Best (insulin) was the same. (3) JB Collip succeeded in isolating the active ingredient from the pancreatic extract in January 1922, eliminating impurities to the point of enabling its use in the clinic. (4) In 1972, the Nobel Foundation modified the purpose of the 1923 Physiology or Medicine award to Banting and Macleod by introducing a new wording: "the credit for having produced the pancreatic hormone in a practical available form" (instead of "for the discovery of insulin").
Assuntos
Diabetes Mellitus , Prêmio Nobel , Animais , Cães , História do Século XX , Insulina/uso terapêutico , Diabetes Mellitus/tratamento farmacológico , Diabetes Mellitus/história , Glucagon , Extratos Pancreáticos/uso terapêutico , Hipoglicemiantes/uso terapêuticoRESUMO
AIMS: The introduction of hormonal treatment in severe diabetes in 1922 represented a clinical and social impact similar to that of antibiotic therapy. In October 1923, the Assembly of the Karolinska Institute decided to award the Nobel Prize in Physiology or Medicine to the Canadian Frederick Grant Banting and the Scottish John James Rickard Macleod, researchers at the University of Toronto (UT), for "the discovery of insulin a year before". A few weeks later, European and American researchers protested the decision. The controversy remains to this day. METHODS: We have conducted a comprehensive review of primary and critical sources focused on the organotherapy of animal and human diabetes mellitus since 1889, when Oskar Minkowski demonstrated the induction of experimental diabetes by total pancreatectomy in the dog, until the spring of 1923, when the Nobel Foundation had already received all the nominations for the award in Physiology or Medicine. RESULTS: The in-depth analysis of all these sources revealed that Europe was the cradle of the discovery of the antidiabetic hormone. The discovery involved multiple research steps headed by a long list of key investigators, mainly European. CONCLUSION: Marcel Eugène Émile Gley was the first to demonstrate the presence of the "antidiabetic principle" in extracts from "sclerosed" pancreas. The French physiologist pioneered the successful reduction of glycosuria and diabetic symptoms by the parenteral administration of pancreatic extracts to depancreatized dogs in experiments developed between 1890 and 1905, antedating insulin in two decades.
Assuntos
Glucagon , Insulina , Cães , Humanos , Animais , Canadá , Hipoglicemiantes/uso terapêutico , Extratos Pancreáticos , AntibacterianosRESUMO
Lois Jovanovic (1947-2018) was a trailblazing and relentless clinical endocrinologist and researcher whose innovative approaches to diabetes and pregnancy changed the lives of thousands of women and their babies. Of her many accomplishments, she is best known for devising the diabetes and pregnancy protocols of intensive insulin delivery and glucose control that have made it possible for thousands of women with diabetes to deliver healthy babies and for pioneering the use of insulin analogues in pregnancy. Her research also paved the way for the development of the artificial pancreas. This biographical portrait describes her personal involvement with diabetes, her beginnings as a medical doctor, and highlights her main contributions to the field of diabetes.
Assuntos
Endocrinologia , Obstetrícia , Gravidez em Diabéticas/terapia , Glicemia/metabolismo , Escolha da Profissão , Diabetes Mellitus Tipo 1/sangue , Diabetes Mellitus Tipo 1/tratamento farmacológico , Endocrinologia/história , Feminino , História do Século XX , História do Século XXI , Humanos , Insulina/uso terapêutico , Minnesota , Obstetrícia/história , GravidezRESUMO
The outbreak of the Spanish Civil War in 1936 had repercussions throughout the world. Even though Western democracies had signed a Non-Intervention Agreement, thousands of foreign volunteers fought on the Republican side. This paper briefly summarizes the issues that directly led to the war, and focuses on the intervention of the International Brigades, the origins of the International Sanitary Service (ISS) and the role played by women at the ISS. These women implemented and collaborated in important and innovative procedures in military medicine, that we analyze below.