An Interactive Annotated World Bibliography of Printed and Digital Works in the History of Medicine and the Life Sciences from Circa 2000 BCE to 2024 by Fielding H. Garrison (1870-1935), Leslie T. Morton (1907-2004), and Jeremy M. Norman (1945- ) Traditionally Known as “Garrison-Morton”

16062 entries, 14145 authors and 1947 subjects. Updated: December 23, 2024

Browse by Entry Number 14300–14399

31 entries
  • 14300

Design of a novel globular protein fold with atomic-level accuracy.

Science, 302, 1364-1368, 2003.

Called, "the breakthrough in computational de novo protein design." This was the proof of concept paper that computers and AI could be used to predict protein structures accurately and much faster than with conventional cryoEM or crystallography. In 2024 Baker shared half of the Nobel Prize in Chemistry with Demis Hassabis and John Jumper for "revealing protein's secrets through computing and artificial intelligence."

Order of authorship in the original publication: Kuhlman, Dantas, Ireton, Varani...Baker. 

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: Artificial Intelligence in Medicine , BIOLOGY › MOLECULAR BIOLOGY › Protein Structure, NOBEL PRIZES › Nobel Prize in Chemistry (selected)
  • 14301

Posttranscriptional regulation of the heterochronic gene lin-14 by lin-4 mediates temporal pattern formation in C. elegans.

Cell, 75, 855-862, 1993.

The authors cloned and generated the sequence of the lin-14 gene. They discovered that a
segment in lin-14 mRNA (messenger RNA), was necessary for its inhibition by lin-4.

Ruvkun and Ambros (No. 14010) then compared results and shared the sequences of lin-4 and lin-14 genes and noticed that the short lin-4 mRNA matched complementarity sequences in the critical segment of the lin-14 mRNA. Both performed further experiments showing that the lin-4 microRNA turns off the lin-14 by binding to the complementary sequences of its mRNA thus blocking the production of lin-14 protein.

Ambros and Ruvkun concurrently discovered a novel principle of gene regulation,
mediated by a previously unknown type of RNA that they named "microRNA."
Initially the scientific community considered their data a peculiarity of the C.
elegans worm and likely irrelevant to humans and other more complex animals. 

In 2024 Ruvkun and Ambros shared the Nobel Prize in Physiology or Medicine for "the discovery of microRNA and its role in post-transcriptional gene regulation."

Order authorship in the original publication: Wightman, Ha, Ruvkun.

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: BIOLOGY › MOLECULAR BIOLOGY › Molecular Biology, NOBEL PRIZES › Nobel Prize in Physiology or Medicine
  • 14302

Conservation of the sequence and temporal expression of let-7 heterochronic regulatory RNA.

Nature, 408, 86-89, 2000.

Working with the let-7 gene, the authors led by Ruvkun showed that microRNA encoded by the let-7 gene was highly conserved, and present throughout the animal kingdom, proving that gene regulation by microRNA is universal among unicellular organisms on Earth. This paper, published seven years after the initial discovery (No. 14301) provided the evidence to convince skeptics of the existence of microRNA.

Order of authorship in the original publication: Pasquinelli, Reinhart, Slack, Ruvkun.

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: BIOLOGY › MOLECULAR BIOLOGY › Molecular Biology
  • 14303

Oral maintenance therapy for cholera in adults.

Lancet, 292, 370-372, 1968.

Abstract:
"An oral solution containing glucose, sodium chloride, sodium bicarbonate, and potassium chloride or citrate was used as maintenance therapy for acute cholera. In comparison with control patients who received only intravenous replacement of their stool losses, the patients who received the oral solution required 80% less intravenous fluids for cure. This reduction in requirements for intravenous fluids could make therapy for acute cholera in adults more widely available."

Nalin and Cash are credited with introducing Oral Hydration Therapy for cholera.

Order of authorship in the original publication: Nalin, Cash, Islam, et al, Phillips.



Subjects: EPIDEMIOLOGY › Pandemics › Cholera, INFECTIOUS DISEASE › Cholera, THERAPEUTICS › Oral Rehydration Therapy
  • 14304

Oral or nasogastric maintenance therapy in pediatric cholera patients.

J. Pediat., 78, 355-358, 1971.


Subjects: EPIDEMIOLOGY › Pandemics › Cholera, INFECTIOUS DISEASE › Cholera, PEDIATRICS, THERAPEUTICS › Oral Rehydration Therapy
  • 14305

The genetic control of tertiary protein structure studies with mode systems.

Cold Spring Harbor Symposium in Quantitative Biology, 28, 439-449, 1963.

In 1972 Anfinsen shared half of the Nobel Prize in Chemistry with Stanford Moore and William H. Stein for "for his work on ribonuclease, especially concerning the connection between the amino acid sequence and biologically active conformation."  Anfinsen's discovery became known as Anfinsen's dogma.

Order of authorship in the original publication: Epstein, Goldberger, Ainfinsen.

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: BIOLOGY › MOLECULAR BIOLOGY › Molecular Biology, BIOLOGY › MOLECULAR BIOLOGY › Protein Structure, NOBEL PRIZES › Nobel Prize in Chemistry (selected)
  • 14306

The sequence of the amino acid residues in performic acid-oxidized ribonuclease.

J. Bio. Chem., 235, 633-647, 1960.

In 1959 Moore and Stein announced the first determination of the complete amino acid sequence of an enzyme, ribonuclease.

In 1972 Moore and Stein shared half of the Nobel Prize in Chemistry with Christian B. Anfinsen "for their contribution to the understanding of the connection between chemical structure and catalytic activity of the active centre of the ribonuclease molecule."



Subjects: BIOLOGY › MOLECULAR BIOLOGY › Molecular Biology, NOBEL PRIZES › Nobel Prize in Chemistry (selected)
  • 14307

Corps du papier. L'Anatomie en papier mâché du Docteur Auzoux. Text: Christophe Degueurce. Photos: Didier Gaillard. Préface: Philippe Comar.

Paris: Éditions de la Martinière, 2012.

Outstanding color photographs.



Subjects: ANATOMY › 19th Century
  • 14308

De Vrouw: Haar bouw en haar inwendige organen. Een populaire schets.

Deventer: A. E. Kluwer, 1897.

Jacobs was the first woman in the Netherlands to graduate from medical school. In 1882 she founded the first birth control clinic in the Netherlands and "the first clinic in the world devoted solely to dissemtinating information on the topic" (Wikipedia). This was a popular work on woman's health illustrated with color plates with movable flaps.

See Jacobs, Memories: My life as an international leader in health, suffrage, and peace. Edited by Harriet Feinberg. Translated by Annie Wright. Historical afterward by Harriet Pass Freidenreich. Literary afterward by Harriet Feinberg. New York: Feminist Press at CUNY, 1996.



Subjects: OBSTETRICS & GYNECOLOGY › GYNECOLOGY, Popularization of Medicine, WOMEN, Publications by › Years 1800 - 1899
  • 14309

Centenaire de la faculté de médecine de Paris (1794-1894).

Paris: Imprimerie nationale, 1896.

Digital facsimile from Google Books at this link.



Subjects: COUNTRIES, CONTINENTS AND REGIONS › France, Education, Biomedical, & Biomedical Profession › History of Biomedical Education & Medical Profession
  • 14310

Argon, a new constituent of the atmosphere.

Proc. roy. Soc. (Lond.), 57, 265-287., 1895.

Discovery of argon, the first discovery of an inert gas. In 1904 Ramsay was awarded the Nobel Prize in Chemistry "in recognition of his services in the discovery of the inert gaseous elements in air, and his determination of their place in the periodic system."

For the same discovery Lord Rayleigh received the 1904 Nobel Prize in Physics "for his investigations of the densities of the most important gases and for his discovery of argon in connection with these studies."

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: NOBEL PRIZES › Nobel Prize in Chemistry (selected), NOBEL PRIZES › Nobel Prize in Physics (selected)
  • 14311

Enzymatic basis for the active transport of sodium and potassium across the cell membrane.

Physiological Reviews, 45, 596-617, 1965.

Skou discovered that the active transport of sodium and potassium is carried out in the cell membrane by an enzyme that serves as a sodium and potassium "pump," that catalyzes ATP hydrolysis. He named the enzyme
"sodium and potassium ATPase."

In 1997 Jens Skou shared the Nobel Prize in Chemistry with Paul D. Boyer and John E. Walker "for the first discovery of an ion-transporting enzyme, Na+, K+ -ATPase.”

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: NOBEL PRIZES › Nobel Prize in Chemistry (selected), PHYSIOLOGY › Physiology
  • 14312

The maser - new type of microwave amplifier, frequency standard, and spectrometer.

Physical Review, 99, 1264-1274, 1955.

In 1964 Townes shared the Nobel Prize in Physics with Nicolay Gennadiyevich Basov and Alexandr Mihailovich Prokhorov "for fundamental work in the field of quantum electronics, which has led to the construction of oscillators and amplifiers based on the maser-laser principle."

Order of authorship in the original publication: Gordon, Zeiger, Townes.



Subjects: INSTRUMENTS & TECHNOLOGIES › Surgical Instruments › Lasers, NOBEL PRIZES › Nobel Prize in Physics (selected)
  • 14313

Studies in intracranial physiology & surgery. The third circulation. The hypophysis. The gliomas. The Cameron Prize Lectures delivered at the University of Edinburgh October 19, 20, 22, 1925.

London: Oxford University Press & Humphrey Milford, 1926.

This series of three lectures was an analytical review by Cushing of the three main categories of scientific work that he had accomplished during the previous 25 years. Remarkably, Cushing completed this review and delivered the lectures during the same year in which his biography of Osler was published. Prior Cameron lecturers included Pasteur (1889), Lister (1890), Ferrier (1891) and Horsley (1891).

(Thanks to Malcolm Kottler for this reference.)



Subjects: ENDOCRINOLOGY › Pituitary, NEUROSCIENCE › NERVOUS SYSTEM › Brain, including Medulla: Cerebrospinal Fluid, NEUROSURGERY › Neuro-oncology
  • 14314

Structure at 2.8 Â resolution of F1-ATPase from bovine heart mitochondria.

Nature, 370, 621-628, 1994.

Walker used X-ray crystallography to determine the structure of ATP synthase (ATPase or adenosine triphosphatase). In 1997 Walker shared the Nobel Prize in Chemistry with Paul Boyer and Jens C. Skou “for their elucidation of the enzymatic mechanism underlying the synthesis of adenosine triphosphate (ATP).”

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: BIOLOGY › MOLECULAR BIOLOGY › Molecular Biology, NOBEL PRIZES › Nobel Prize in Chemistry (selected)
  • 14315

"Conformational Coupling in Biological Energy Transductions." In L. Ernster et al. (eds.), Dynamics of Energy-Transducing Membranes, pp. 289-301.

Amsterdam: Elzevier, 1974.

In 1997 Boyer shared the Nobel Prize in Chemistry with John Walker and Jens C. Skou “for their elucidation of the enzymatic mechanism underlying the synthesis of adenosine triphosphate (ATP).” The Nobel Prize committee stated that "In 1974 Paul Boyer presented a theory explaining how ATP synthase works. The theory was substantiated in 1994 when John Walker used X-ray crystalography to determine the structure of ATP synthase."

Regarding Boyer's discovery, see Douglas Allchin, "To err and win a Nobel Prize: Paul Boyer, ATP synthase and the emergence of bioenergetics," Journal of the History of Biology, 35, 2002, 149-172.

Boyer published his 1974 paper, and others later on the subject, as single author papers. His most comprehensive review, issued the year of the Nobel award, was "ATP synthase -- A splendid molecular machine," Ann. Rev. of Biochem., 66, 1997, 717-749.

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: BIOLOGY › MOLECULAR BIOLOGY › Molecular Biology, NOBEL PRIZES › Nobel Prize in Chemistry (selected)
  • 14316

On the osteology of the chimpanzee and orang utan.

Trans. Zool. Soc. Lond., 1, 343-379, 11 plates, 1835.

Owen was the first anatomist, after Petrus Camper, to distinguish decisively between the chimpanzee and the orangutan. He began studying the anatomy of non-human primates in the 1830s, when the Regent’s Park Zoo in London obtained its first orangutan (1830) and chimpanzee (1835). “Because of the primitive conditions of care under which the animals were held captive, they died from a few days to a few years after entering the zoo. To Owen, the cloud of these deaths had a silver lining in that the carcasses provided him an opportunity to dissect and describe the animals. His first zoological—as distinct from medical—paper was ‘On the anatomy of the orang-outang,’ presented to the Zoological Society in 1830; and in 1835 the death of the Society’s first chimpanzee enabled Owen to start his classic series on the comparative osteology of the orang and chimpanzee . . . His work on the chimps and orangs from Regent’s Park Zoo, combined with [his later work] on the Gabon gorillas . . . made Owen one of very few European authorities on primates and the foremost authority on primate osteology” (Rupke, Richard Owen, Victorian Naturalist, pp. 260; 262).



Subjects: ANATOMY › Comparative Anatomy, ZOOLOGY › Mammalogy › Primatology
  • 14317

Radioactive Element 94 from deuterons on uranium.

Phys. Rev., 69, 366-367 , 1946.

"This letter was received for publication on the date indicated (January 28, 1941), but was voluntarily withheld from publication until the end of the war."
Seaborg and McMillan discovered element 94, which they named plutonium. In 1951 Seaborg and McMillan shared the Nobel Prize in Chemistry "for their discoveries in the chemistry of the transuranium elements."

Order of authorship in the original publication: Seaborg, McMillan, Kennedy, Wahl.

(Thanks to Juan Weiss for this reference and its interpretation.)



Subjects: NOBEL PRIZES › Nobel Prize in Chemistry (selected)
  • 14318

Coming home: How midwives changed birth.

New York: Oxford University Press, 2021.


Subjects: OBSTETRICS & GYNECOLOGY › OBSTETRICS › History of Obstetrics, OBSTETRICS & GYNECOLOGY › OBSTETRICS › Midwives, WOMEN, Publications by › Years 2000 -
  • 14319

Exposed: The hidden history of the pelvic exam.

New York: Polity, 2024.


Subjects: OBSTETRICS & GYNECOLOGY › GYNECOLOGY › History of Gynecology, WOMEN, Publications by › Years 2000 -
  • 14320

Chirurgie de la main.

Paris: Asselin & Cie, 1882.

The first manual on hand surgery.
Digital facsimile from wellcomecollection.org at this link.



Subjects: ORTHOPEDICS › Orthopedic Surgery & Treatments › Hand / Wrist, PLASTIC & RECONSTRUCTIVE SURGERY › Hand, Surgery of
  • 14321

Arsenal de la chirurgie contemporaine. Description, mode d'emploi et appréciation des appareils et instruments en usage pour le diagnostic et le traitement des maladies chirurgicales, l'orthopédie, la prothèse, les opérations simples, générales, spéciales et obstétricales. 2 vols.

Paris: J.-B. Baillière et fils, 18671872.

Digital facsimile from Google Books at this link.



Subjects: DENTISTRY › Dental Instruments & Apparatus, INSTRUMENTS & TECHNOLOGIES › Medical Instruments › Anesthesia Inhalers, INSTRUMENTS & TECHNOLOGIES › Surgical Instruments › Electrosurgery
  • 14322

Les femmes et la progrès des sciences médicales.

Paris: Masson & Cie, 1930.


Subjects: WOMEN in Medicine & the Life Sciences, Publications About, WOMEN, Publications by › Years 1900 - 1999
  • 14323

Traité de l'auscultation médiate ou traité diagnostic des maladies des poumons et du coeur. 2 vols.

Paris: J.-S. Chaudé, 1826.

Second edition, hugely revised, expanded, and improved. The pagination of the first edition (1819) was 456 pp. in vol. 1 and 472 pp. in vol. 2. The second edition was expanded to 728pp. in vol. 1 and 790 pp. in vol. 2.

Laennec’s invention of the stethoscope, announced in the first edition of De l’Auscultation médiate (No. 2673) provided the first adequate method for diagnosing diseases of the thorax, and represented the greatest advance in physical diagnosis between Auenbrugger’s percussion and Röntgen’s discovery of x-rays. The second edition, 1826, is even more important, since it gives not only the various physical signs elicited in the chest, but adds the pathological anatomy, diagnosis, and treatment of each disease encountered.

“In the first edition [of De l’Auscultation médiate] (1819), Laennec pursues the analytic method, giving the different signs elicited by percussion and auscultation, with the corresponding anatomic lesions . . . In the second edition (1826), the process is turned about and the method is synthetic, each disease being described in detail in respect of diagnosis, pathology, and (most intelligent) treatment, so that this edition is, in effect, the most important treatise on diseases of the thoracic organs ever written” (Garrison, History of Medicine, p. 412; emphasis ours). Some copies of the second edition were sold with colored plates at a higher price.



Subjects: INFECTIOUS DISEASE › Pneumonia, INSTRUMENTS & TECHNOLOGIES › Medical Instruments › Stethoscope, PHYSICAL DIAGNOSIS › Auscultation, PULMONOLOGY › Lung Diseases › Pulmonary Tuberculosis
  • 14324

Directory of History of Medicine Collections.

Bethesda, MD: U.S. National Library of Medicine, 2024.

https://hmddirectory.nlm.nih.gov/

A world directory of history of medicine libraries edited and published online by NLM. The date this was first published is not stated. I entered it into this database in 2024 and arbitrarily assigned that date to the entry.



Subjects: DIGITAL RESOURCES › Digital Archives & Libraries , LIBRARIES of the HISTORY OF MEDICINE, Directory of
  • 14325

Extramukose cardiaplastik beim chronischen cardiospasmus mit dilatation des esophagus.

Mitt Grenzgeb Med. Chir., 27, 141-149, 1913.
Heller myotomy for the treatment of achalasia.


Subjects: GASTROENTEROLOGY › Diseases of the Digestive System › Achalasia
  • 14326

Three epochs of artificial intelligence in health care.

JAMA, 331, January 16, 2024, 242-244, 2024.
https://jamanetwork.com/journals/jama/fullarticle/2813874

Abstract:
"Importance  Interest in artificial intelligence (AI) has reached an all-time high, and health care leaders across the ecosystem are faced with questions about where, when, and how to deploy AI and how to understand its risks, problems, and possibilities.
"Observations  While AI as a concept has existed since the 1950s, all AI is not the same. Capabilities and risks of various kinds of AI differ markedly, and on examination 3 epochs of AI emerge. AI 1.0 includes symbolic AI, which attempts to encode human knowledge into computational rules, as well as probabilistic models. The era of AI 2.0 began with deep learning, in which models learn from examples labeled with ground truth. This era brought about many advances both in people’s daily lives and in health care. Deep learning models are task-specific, meaning they do one thing at a time, and they primarily focus on classification and prediction. AI 3.0 is the era of foundation models and generative AI. Models in AI 3.0 have fundamentally new (and potentially transformative) capabilities, as well as new kinds of risks, such as hallucinations. These models can do many different kinds of tasks without being retrained on a new dataset. For example, a simple text instruction will change the model’s behavior. Prompts such as “Write this note for a specialist consultant” and “Write this note for the patient’s mother” will produce markedly different content.
"Conclusions and Relevance  Foundation models and generative AI represent a major revolution in AI’s capabilities, offering tremendous potential to improve care. Health care leaders are making decisions about AI today. While any heuristic omits details and loses nuance, the framework of AI 1.0, 2.0, and 3.0 may be helpful to decision-makers because each epoch has fundamentally different capabilities and risks."

Order of authorship in the original publication: Howell, Corrado, DeSalvo.





Subjects: Artificial Intelligence in Medicine
  • 14327

Effects of chloroform and of strong chloric ether, as narcotic agents.

Boston: William D. Ticknor, 1849.

“On October 16, 1846, at Massachusetts General Hospital, Warren participated in the first public demonstration of anesthesia for surgery. He was the surgeon for the first surgical patient given ether anesthesia, and William T. G. Morton was the anesthetist…. More than a year later, in November 1847, Sir James Young Simpson of Edinburgh discovered the anesthetic properties of chloroform. However, on January 28, 1848, the first fatal chloroform anesthesia was reported. Within a year, reports of more than 10 such cases appeared. As an authority on surgical anesthesia, Warren was often asked by concerned physicians about the safety of this new anesthetic. To draw his own conclusions, Warren reviewed and analyzed all of the fatal cases of chloroform anesthesia….Because of the potential hazards of chloroform, Warren proposed that the agent not be used in minor surgical cases and encouraged its substitution with chloric ether and sulfuric ether” (Sim, The Heritage of Anesthesia, pp. 85-86, 135). 

(Thanks to Malcolm Kottler for this reference.)



Subjects: ANESTHESIA › Chloroform
  • 14328

The gray zones of medicine: Healers & history in Latin America. Edited by Diego Armus & Pablo F. Gómez.

Pittsburgh, PA: University of Pittsburgh Press, 2021.


Subjects: COUNTRIES, CONTINENTS AND REGIONS › Brazil, COUNTRIES, CONTINENTS AND REGIONS › Caribbean, COUNTRIES, CONTINENTS AND REGIONS › Colombia, COUNTRIES, CONTINENTS AND REGIONS › Guatemala, COUNTRIES, CONTINENTS AND REGIONS › Mexico, COUNTRIES, CONTINENTS AND REGIONS › Peru, Latin American Medicine › History of Latin American Medicine
  • 14329

Chinese medicinal identification: An illustrated approach.

Taos, NM: Paradigm Publications, 2014.

"For centuries, pharmacists and clinicians have relied on the traditional method of macroscopic identification to assess the quality and authenticity of medicinal materials. Macroscopic identification uses the naked senses to assess herbal quality, combining appearance, texture, aroma, and taste with traditional methods of fire and water testing. For the first time, this text brings this specialized discipline of knowledge to English readers using a concise, illustrated format that distills the experience of China’s foremost authorities in visually rich, easy-to-understand format. Chinese Medicinal Identification: An Illustrated Approach records 429 commonly used Chinese medicinal materials (including associated medicinals), using the Chinese Pharmacopoeia (2005) combined with domestic and international market investigation as a basis for determining medicinal nomenclature. For each medicinal, details are provided on nomenclature, origin, harvesting and post-harvest handling, functions and properties, macroscopic characteristics, and decoction pieces. The book can be referenced via a Chinese stroke order index, a Pinyin index, and indexes organized by Latin Pharmaceutical names and Latin binomials. This book emphasizes the experience-based differentiation of Chinese medicinal materials, which is a treasure of China’s cultural heritage that has been inherited and systematized, combining the technical terms derived from experience in differentiation with a modern scientific perspective. At the same time, the authors draw upon a foundation of years of field research and experiments related to medicinal materials, synthesizing information on trade, literature, and techniques, dissecting each detail. The book visually illustrates the art and science of macroscopic identification of medicinal materials in a way that is easy to learn, easy to remember, and easy to disseminate, supplementing the insufficient state of illustrations in the current literature" (publisher).



Subjects: Chinese Medicine
  • 14330

Bio-Bibliography of XVI. century medical authors. Fasciculus 1, Abarbanel-Albert, S.

Washington, DC, 1941.


Subjects: BIBLIOGRAPHY › Catalogues of Institutional Life Sciences Libraries