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Archive for the ‘Jessie Stevenson Kovalenko Medal – Medical Sciences’ Category

AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class X: +300 Audio Podcasts Library: Interviews with Scientific Leaders

Posted in AI Models in Healthcare, Albany Medical Center Prize in Medicine and Biomedical Research, Annual Breakthrough Prize, Annual Lewis S. Rosenstiel Award, Artificial Intelligence - Breakthroughs in Theories and Technologies, Artificial Intelligence Applications in Health Care, Artificial Intelligence in Health Care - Tools & Innovations, Artificial Intelligence in Medicine - Applications in Therapeutics, Awards in Cardiology and Cardiovascular Medicine, CEOs of Biotech Companies, Deep Learning, Gerald D Aurbach Award for Outstanding Translational Research, Hospital-based Medical Innovations, Innovation in Immunology Diagnostics, Innovations in Neurophysiology & Neuropsychology, Intellectual Property, Innovations, Commercialization, Investment in technological breakthrough, Interviews with Key Opinion Leaders (KOLs), Interviews with Scientific Leaders, James Prize in Science and Technology Integration, Jessie Stevenson Kovalenko Medal - Medical Sciences, Lemelson-MIT Prize, Life Sciences Breakthrough Prize, Machine Learning, Mosteller Statistician of the Year Award, Mourning the Loss of a Scientific Leader, National Academy of Sciences AWARDS, Natural Language Processing (NLP), Nobel Prize Winners, Noble Prize (Not Nobel Prize), Paul Marks Prize for Cancer Research, Russ Prize recognizes bioengineering achievements worldwide, The Dan David Prize, Warren Alpert Foundation Prize Recipients, Wolf Prize, Wolf Prize in Medicine, women in science on November 22, 2025| Leave a Comment »

AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class X: +300 Audio Podcasts Library: Interviews with Scientific Leaders

Curator: Aviva Lev-Ari, PhD, RN

We had researched the topic of AI Initiatives in Big Pharma in the following article:

  • Authentic Relevance of LPBI Group’s Portfolio of IP as Proprietary Training Data Corpus for AI Initiatives at Big Pharma

https://pharmaceuticalintelligence.com/2025/11/15/authentic-relevance-of-lpbi-groups-portfolio-of-ip-as-proprietary-training-data-corpus-for-ai-initiatives-at-big-pharma/

 

We are publishing a Series of Five articles that demonstrate the Authentic Relevance of Five of the Ten Digital IP Asset Classes in LPBI Group’s Portfolio of IP for AI Initiatives at Big Pharma.

  • For the Ten IP Asset Classes in LPBI Group’s Portfolio, See

https://pharmaceuticalintelligence.com/portfolio-of-ip-assets/

The following Five Digital IP Asset classes are positioned as Proprietary Training Data and Inference for Foundation Models in Health care.
This Corpus comprises of Live Repository of Domain Knowledge Expert-Written Clinical Interpretations of Scientific Findings codified in the following five Digital IP ASSETS CLASSES:
 IP Asset Class I: Journal: PharmaceuticalIntelligence.com
6,250 scientific articles (70% curations, creative expert opinions.  30% scientific reports).
2.4MM Views, equivalent of $50MM if downloading an article is paid market rate of $30.

https://pharmaceuticalintelligence.com/vision/pharmaceuticalintelligence-com-journal-projecting-the-annual-rate-of-article-views/

 

 

• IP Asset Class II: 48 e-Books: English Edition & Spanish Edition.
152,000 pages downloaded under pay-per-view. The largest number of downloads for one e-Publisher (LPBI)
• IP Asset Class III: 100 e-Proceedings and 50 Tweet Collections of Top Biotech and Medical Global Conferences, 2013-2025

• IP Asset Class V: 7,500 Biological Images in our Digital Art Media Gallery, as prior art. The Media Gallery resides in WordPress.com Cloud of LPBI Group’s Web site

• IP Asset Class X: +300 Audio Podcasts: Interviews with Scientific Leaders
BECAUSE THE ABOVE ASSETS ARE DIGITAL ASSETS they are ready for use as Proprietary TRAINING DATA and INFERENCE for AI Foundation Models in HealthCare.
Expert‑curated healthcare corpus mapped to a living ontology, already packaged for immediate model ingestion and suitable for safe pre-training, evals, fine‑tuning and inference. If healthcare domain data is on your roadmap, this is a rare, defensible asset.
The article TITLE of each of the five Digital IP Asset Classes matched to AI Initiatives in Big Pharma, an article per IP Asset Class are:
  • AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class I: PharmaceuticalIntelligence.com Journal, 2.5MM Views, 6,250 Scientific articles and Live Ontology

https://pharmaceuticalintelligence.com/2025/11/22/ai-initiatives-in-big-pharma-grog-prompt-proprietary-data-training-and-inference-by-lpbi-groups-ip-asset-class-i-pharmaceuticalintelligence-com-journal-2-5mm-views-6250-scientific-article/

 

  • AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class II: 48 e-Books: English Edition & Spanish Edition. 152,000 pages downloaded under pay-per-view

https://pharmaceuticalintelligence.com/2025/11/22/ai-initiatives-in-big-pharma-grog-prompt-proprietary-training-data-and-inference-by-lpbi-groups-ip-asset-class-ii-48-e-books-english-edition-spanish-edition-152000/

 

  • AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class III: 100 e-Proceedings and 50 Tweet Collections of Top Biotech and Medical Global Conferences, 2013-2025

https://pharmaceuticalintelligence.com/2025/11/22/ai-initiatives-in-big-pharma-grog-prompt-proprietary-training-data-and-inference-by-lpbi-groups-ip-asset-class-iii-100-e-proceedings-and-50-tweet-collections-of-top-biotech/

 

  • AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class V: 7,500 Biological Images in LPBI Group’s Digital Art Media Gallery, as prior art

https://pharmaceuticalintelligence.com/2025/11/22/ai-initiatives-in-big-pharma-grog-prompt-proprietary-training-data-and-inference-by-lpbi-groups-ip-asset-class-v-7500-biological-images-in-lpbi-groups-digital-art/

 

  • AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class X: +300 Audio Podcasts Library: Interviews with Scientific Leaders

https://pharmaceuticalintelligence.com/2025/11/22/ai-initiatives-in-big-pharma-grog-prompt-proprietary-training-data-and-inference-by-lpbi-groups-ip-asset-class-x-300-audio-podcasts-library-interviews-with-scientific-leaders/

Conclusions by @Grok
Conclusions and Implications
LPBI Group’s IP Asset Class X: A Library of Podcasts are a “live repository” primed for Big Pharma AI, fueling from R&D reviews to global equity. Technical Implications: Enables auditory-multimodal models for diagnostics/education. Business Implications: Accelerates $500M ROI; licensing for partnerships. Unique Insight: As unscripted leader interviews, they provide a “verbal moat” in AI—completing series’ holistic pharma data ecosystem.Promotional with links to podcast library/IP portfolio. Synthesizes series by emphasizing auditory human-AI synergy.

In the series of five articles, as above, we are presenting the key AI Initiatives in Big Pharma as it was created by our prompt to @Grok on 11/18/2025:

  • What are PFIZER’s AI INITIATIVES?

@Grok Response:

x.com/i/grok/share/0ol5VOJsEYs11baXq4xkzNb0h

Generative AI tools that save scientists up to 16,000 hours annually in literature searches and data analysis.
Drug Discovery and Development Acceleration Pfizer uses AI, supercomputing, and ML to streamline R&D timelines
Clinical Trials and Regulatory Efficiency AI:

-Predictive Regulatory Tools

-Decentralize Trials

-inventory management
Disease Detection and Diagnostics:

–       ATTR-CM Initiative

–       Rare diseases
Generative AI and Operational Tools:

–       Charlie Platform

–       Scientific Data Cloud AWS powered ML on centralized data

–       Amazon’s SageMaker /Bedrock for Manufacturing efficiency

–       Global Health Grants:

Pfizer Foundation’s AI Learning Lab for equitable access to care and tools for community care
Partnerships and Education

–       Collaborations: IMI Big Picture for 3M – sample disease database

–       AI in Pharma AIPM Symposium: Drug discovery and Precision Medicine

–       Webinars of AI for biomedical data integration

–       Webinar on AI in Manufacturing
Strategic Focus:

–       $500M R&D reinvestment by 2026 targets AI for Productivity

–       Part of $7.7B cost savings

–       Ethical AI, diverse DBs

–       Global biotech advances: China’s AI in CRISPR

 

  • AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class X: +300 Audio Podcasts Library: Interviews with Scientific Leaders

The Left Column was written @Grok

The Right Column was written by Aviva Lev-Ari, PhD, RN

 

AI Initiative at Big Pharma

i.e., Pfizer

Library of Audio and Video Podcasts

N = +300
Generative AI tools that save scientists up to 16,000 hours annually in literature searches and data analysis.
Drug Discovery and Development Acceleration Pfizer uses AI, supercomputing, and ML to streamline R&D timelines Review ALL SCIENTIFIC BREAKTHROUGHS
Clinical Trials and Regulatory Efficiency AI:

-Predictive Regulatory Tools

-Decentralize Trials

-inventory management
Disease Detection and Diagnostics:

–       ATTR-CM Initiative

–       Rare diseases
Generative AI and Operational Tools:

–       Charlie Platform

–       Scientific Data Cloud AWS powered ML on centralized data

–       Amazon’s SageMaker/Bedrock for Manufacturing efficiency

–       Global Health Grants:

Pfizer Foundation’s AI Learning Lab for equitable  access to care and tools for community care

 Ingest to Charlie Platform all +300 Podcasts
Partnerships and Education

–       Collaborations: IMI Big Picture for 3M – sample disease database

–       AI in Pharma AIPM Symposium: Drug discovery and Precision Medicine

–       Webinars of AI for biomedical data integration

–       Webinard on Ai in Manufacturing

 Use Podcast for Education

Use Podcast as Hybrid: Start presentation with a Podcast continue with a life interview
Strategic Focus:

–       $500M R&D reinvestment by 2026 targets AI for Productivity

–       Part of $7.7B cost savings

–       Ethical AI, diverse DBs

–       Global biotech advances: China’s AI in CRISPR

 

CONCLUSIONS: The Voice of Dr. Stephen J. Williams PhD

PENDING

Article Summary by @Grok of the ArticleTitle:

AI Initiatives in Big Pharma @Grok prompt & Proprietary Training Data and Inference by LPBI Group’s IP Asset Class X: +300 Audio Podcasts Library: Interviews with Scientific Leaders

Publication Date: November 22, 2025

Author/Curator: Aviva Lev-Ari, PhD, RN
(Curator; Posted by 2012pharmaceutical)
@Grok SOURCE:

Overview: Final (fifth) in LPBI Group’s five-article series on AI-ready digital IP assets for pharma. This installment highlights IP Asset Class X—+300 audio podcasts of interviews with scientific leaders—as a proprietary, expert-curated auditory corpus for training and inference in healthcare AI models. Using a November 18, 2025, Grok prompt on Pfizer’s AI efforts, it maps the library to pharma applications, emphasizing audio ingestion for breakthroughs review, education, and platform integration. Unlike visual/text prior classes, this focuses on verbal expert insights for multimodal/hybrid AI, positioning them as a “rare, defensible” resource for ethical, diverse foundation models.Main Thesis and Key Arguments

  • Core Idea: LPBI’s +300 podcasts capture unscripted scientific discourse from leaders, forming a live repository of domain knowledge ideal for AI ingestion—enhancing Big Pharma’s shift from generic to human-curated models for R&D acceleration and equitable care.
  • Value Proposition: Part of ten IP classes (five AI-ready: I, II, III, V, X); podcasts equivalent to $50MM value in series benchmarks, with living ontology for semantic mapping. Unique for hybrid uses (e.g., education starters) and safe pre-training/fine-tuning, contrasting open-source data with proprietary, ethical inputs.
  • Broader Context: Caps series by adding auditory depth to text/visual assets; supports Pfizer’s $500M AI reinvestment via productivity gains (e.g., 16,000 hours saved).

AI Initiatives in Big Pharma (Focus on Pfizer) Reuses Grok prompt highlights, presented in an integrated mapping table (verbatim):

AI Initiative at Big Pharma i.e., Pfizer
Description
Generative AI tools
Save scientists up to 16,000 hours annually in literature searches and data analysis.
Drug Discovery and Development Acceleration
Pfizer uses AI, supercomputing, and ML to streamline R&D timelines.
Clinical Trials and Regulatory Efficiency AI
Predictive Regulatory Tools; Decentralize Trials; Inventory management.
Disease Detection and Diagnostics
ATTR-CM Initiative; Rare diseases.
Generative AI and Operational Tools
Charlie Platform; Scientific Data Cloud AWS powered ML on centralized data; Amazon’s SageMaker/Bedrock for Manufacturing efficiency; Global Health Grants: Pfizer Foundation’s AI Learning Lab for equitable access to care and tools for community care.
Partnerships and Education
Collaborations: IMI Big Picture for 3M-sample disease database; AI in Pharma AIPM Symposium: Drug discovery and Precision Medicine; Webinars of AI for biomedical data integration; Webinar on AI in Manufacturing.
Strategic Focus
$500M R&D reinvestment by 2026 targets AI for Productivity; Part of $7.7B cost savings; Ethical AI, diverse DBs; Global biotech advances: China’s AI in CRISPR.
Mapping to LPBI’s Proprietary DataCore alignment table (verbatim extraction, linking Pfizer initiatives to Class X podcasts):
AI Initiative at Big Pharma i.e., Pfizer
Library of Audio and Video Podcasts N = +300
Generative AI tools (16,000 hours saved)
(No specific mapping provided.)
Drug Discovery and Development Acceleration
Review ALL SCIENTIFIC BREAKTHROUGHS.
Clinical Trials and Regulatory Efficiency
(No specific mapping provided.)
Disease Detection and Diagnostics (ATTR-CM, rare diseases)
(No specific mapping provided.)
Generative AI and Operational Tools (Charlie, AWS, etc.)
Ingest to Charlie Platform all +300 Podcasts.
Partnerships and Education (IMI, AIPM, webinars)
Use Podcast for Education; Use Podcast as Hybrid: Start presentation with a Podcast continue with a life interview.
Strategic Focus ($500M reinvestment, ethics)
(No specific mapping provided.)

Methodologies and Frameworks

  • AI Training Pipeline: Ingest audio into Charlie/AWS for pre-training (expert discourse corpus), fine-tuning (e.g., breakthrough reviews), and inference (e.g., educational hybrids). Use ontology for thematic mapping; Grok prompt for sourcing initiatives.
  • Productivity Model: Boosts Pfizer’s $7.7B savings via auditory data for diverse, ethical AI (e.g., Learning Lab grants); hybrid formats for webinars/symposia.
  • Insights: Quote from Dr. Stephen J. Williams, PhD: Assets as “codified digital treasures” for safe healthcare AI. Predicts revolution in verbal inference for precision medicine.

Conclusions and Implications

LPBI Group’s IP Asset Class X:
A Library of Podcasts are a “live repository” primed for Big Pharma AI, fueling from R&D reviews to global equity. Technical Implications: Enables auditory-multimodal models for diagnostics/education. Business Implications: Accelerates $500M ROI; licensing for partnerships. Unique Insight: As unscripted leader interviews, they provide a “verbal moat” in AI—completing series’ holistic pharma data ecosystem.Promotional with links to podcast library/IP portfolio. Synthesizes series by emphasizing auditory human-AI synergy.
@Grok was prompted to summarize the Table of Contents of the e-Book that present the Library of Podcast INDEX.
@Grok SOURCE

Overview of IP Asset Class X: +300 Audio Podcasts – Interviews with Scientific LeadersThe BioMed Audio Podcast Library from LPBI Group is a valuable intellectual property asset in the biomedical field, featuring over 301 audio podcasts created from interviews, curations, and discussions with prominent scientific leaders. This collection highlights breakthroughs in areas like genomics, cancer research, immunology, precision medicine, and public health policy. Curated by experts such as Aviva Lev-Ari, PhD, RN (197 podcasts), Larry H. Bernstein, MD, FCAP (48 podcasts), and Stephen J. Williams, PhD (38 podcasts), the library is organized into 21 thematic chapters for easy navigation.Key features include:

  • Search and Accessibility: Filter by chapter, curator, subject, or podcast ID. Each entry includes text-to-speech conversion and NLP-generated WordClouds for topic visualization.
  • Content Focus: Emphasizes Nobel laureates, key opinion leaders, and innovators discussing technologies like CRISPR-Cas9, mRNA vaccines, immunotherapy, and biotechnology ventures.
  • Format and Updates: Derived from articles on real-time events (e.g., COVID-19 impacts, award announcements). The library continues to expand, with no direct audio embeds—access via linked articles for full transcripts and playback.
  • Themes Covered: Public health policy, cardiovascular science, neuroscience, academic institutions, and more, with a strong emphasis on translational research and personalized medicine.

This asset represents a rich repository for researchers, students, and professionals seeking insights from leaders like Francis Collins, Jennifer Doudna, and Siddhartha Mukherjee.Selected Highlights by ChapterBelow are curated examples from key chapters, showcasing interviews with scientific leaders. For the full library (301+ entries), visit the source page.

Chapter 1: Public Health
Podcast ID
Curator
Title
Scientific Leader(s)
Brief Description
Link
17
Aviva Lev-Ari
LEADERS in Genome Sequencing of Genetic Mutations for Therapeutic Drug Selection in Cancer Personalized Treatment: Part 2
Leaders in genome sequencing
Explores genetic mutations’ role in personalized cancer therapies.
View
161
Aviva Lev-Ari
FDA Commissioner, Dr. Margaret A. Hamburg on HealthCare for 310Million Americans and the Role of Personalized Medicine
Dr. Margaret A. Hamburg
Discusses personalized medicine’s impact on U.S. healthcare policy.
View
273
Aviva Lev-Ari
Live Notes and Conference Coverage in Real Time. COVID19 And The Impact on Cancer Patients Town Hall with Leading Oncologists; April 4, 2020
Leading oncologists
Real-time analysis of COVID-19’s effects on cancer care.
View
Chapter: Genomics & Genome Biology
Podcast ID
Curator
Title
Scientific Leader(s)
Brief Description
Link
23
Aviva Lev-Ari
2013 Genomics: The Era Beyond the Sequencing of the Human Genome: Francis Collins, Craig Venter, Eric Lander, et al.
Francis Collins, Craig Venter, Eric Lander
Reflections on post-human genome sequencing advancements.
View
226
Aviva Lev-Ari

Dr. Jennifer Doudna (UC Berkeley): PMWC 2017 Luminary Award, January 22, 2017

@PMWC

2017
Jennifer Doudna (CRISPR pioneer)
Award speech on CRISPR’s applications in biomedicine.
View
288
Aviva Lev-Ari
Allon Klein, Harvard Medical School, and Aviv Regev, Genentech, Recipients of National Academy of Sciences James Prize…
Allon Klein, Aviv Regev
Integration of science and technology in genomics research.
View
Chapter: Precision Medicine & Cancer (35+ Entries)
Podcast ID
Curator
Title
Scientific Leader(s)
Brief Description
Link
15
Aviva Lev-Ari
Harnessing Personalized Medicine for Cancer Management, Prospects of Prevention and Cure: Opinions of Cancer Scientific Leaders
Cancer scientific leaders
Expert opinions on preventing and curing cancer via personalization.
View
12
Aviva Lev-Ari
The “Cancer establishments” examined by James Watson, co-discoverer of DNA w/Crick, 4/1953
James Watson (Nobel laureate)
Critique of cancer research institutions by DNA co-discoverer.
View
132
Aviva Lev-Ari
Practicing Oncology: Medscape Editor-in-Chief Eric J. Topol, MD interviews Siddhartha Mukherjee, MD, PhD
Siddhartha Mukherjee (interviewed by Eric J. Topol)
Insights into oncology practices and patient care.
View
102
Aviva Lev-Ari
Reuben Shaw, Ph.D., a geneticist and researcher at the Salk Institute: Metabolism Influences Cancer
Reuben Shaw, Ph.D.
How metabolism drives cancer progression.
View
209
Aviva Lev-Ari
Pioneers of Cancer Cell Therapy: Turbocharging the Immune System to Battle Cancer Cells…
Immunotherapy pioneers
Advances in CAR-T and immune-based cancer therapies.
View
This selection captures the library’s depth, blending historical perspectives (e.g., Watson) with cutting-edge topics (e.g., CRISPR, immunotherapy). For deeper dives, use the site’s search tools to explore chapters like Cardiovascular Science (36 podcasts) or Immunology.
Original Material for @Grok TOCs summary:

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2020 Jessie Stevenson Kovalenko Medal for Outstanding Research in the Medical Sciences – Call for Nominations

Posted in Interviews with Scientific Leaders, Jessie Stevenson Kovalenko Medal - Medical Sciences on May 21, 2019| Leave a Comment »

2020 Jessie Stevenson Kovalenko Medal for Outstanding Research in the Medical Sciences – Call for Nominations

 

Reporter: Aviva Lev-Ari, PhD, RN

Article ID #266: 2020 Jessie Stevenson Kovalenko Medal for Outstanding Research in the Medical Sciences – Call for Nominations. Published on 5/21/2019

WordCloud Image Produced by Adam Tubman

 

SOURCE

Jessie Stevenson Kovalenko Medal

Scheduled for presentation in 2020.  Nominations accepted online through Monday, October 7, 2019.

About the Jessie Stevenson Kovalenko Medal

The Jessie Stevenson Kovalenko Medal is awarded every two years for outstanding research in the medical sciences. The medal carries with it a $25,000 award, and an additional $50,000 for research. The Kovalenko Fund, gifted by Michael S. Kovalenko in 1949 to the National Academy of Science in memory of his wife, Jessie Stevenson Kovalenko, was specifically designed to recognize the achievements made to the medical sciences and, over the past 67 years, has honored many outstanding contributors.

Most Recent Recipient

James P. Allison, The University of Texas MD Anderson Cancer Center, received the 2018 Jessie Stevenson Kovalenko Medal.

Allison’s pioneering research has had a vast impact on cancer therapy and the evolution of the entire field of cancer immunology. His work has advanced science while improving the health and wellbeing of cancer patients worldwide, a process that continues to this day. Read more about Allison’s work»

Award History

The first Jessie Stevenson Kovalenko Medal was awarded to Alfred N. Richards in 1952 for his outstanding contributions to medical science over a period of a half-century, both as an investigator and as a research executive and administrator. Richards received his first honor in 1897, when he became the first graduate student at Columbia to earn his PhD in physiological chemistry. Richards’ early research focused on the liver and chronic indole poisoning as a possible cause for cyclic vomiting in children although later, he notably sought to study the physiological and ecological effects of the atomic bomb. Richards served as Chairman of the Committee on Medical Research for President Roosevelt and, from 1947-1950, he served as the National Academy of Sciences’ own President, overseeing the establishment of the National Science Foundation.

Recipients:

James P. Allison (2018)
For the discovery that antibody blockade of the T cell molecule CTLA-4 unleashes the body’s immune response against malignant tumors and develops immune checkpoint blockade as a successful cancer therapy.
Read more about Allison’s work»
Watch Allison’s acceptance speech»

Huda Y. Zoghbi (2016)
For her pioneering contributions to the fields of neurodegenerative proteinopathies, autism spectrum disorders, epigenetics, and developmental biology by coupling clinical observation and gene discovery with focused, in-depth mechanistic study.
Read more about Zoghbi’s work»

Stuart H. Orkin (2013)
For his pioneering achievements in defining the molecular basis of blood disorders and the mechanisms governing the development of blood stem cells and individual blood lineages. His work has significantly advanced our understanding of human hematologic diseases and revealed new strategies to prevent and manage these disorders.
 
For her discovery of recurring chromosome translocations that characterize specific hematological malignancies, a landmark event that caused a major shift in the paradigms relating to cancer biology in the 1970s and paved the way for development of specific treatment for two leukemias.
 
Jeffrey M. Friedman (2007)
For the discovery of leptin and its role in the regulation of appetite, energy expenditure, and the molecular mechanisms underlying obesity.
 
Irving L. Weissman (2004)
For his seminal studies that defined the physical properties, purification, and growth regulation of multipotent hematopoietic stem cells.
 
For his elucidation of the structure, function, and mechanism of regulation of heptahelical receptors, nature’s detectors of signals from many hormones, neurotransmitters, and drugs.
 
For his landmark discovery and identification of genes that control immune responsiveness, and for his subsequent elucidation of mechanisms of antigen recognition and induction of the immune response.
 
For his discovery and purification of the hemotopoietic growth factors and for their introduction into clinical medicine for the control of blood cell formation and resistance to infection.
 
For revolutionary accomplishments in human sphingolipid storage disorders, including the discovery of enzymatic defects, the development of genetic counseling procedures, and successful enzyme-replacement therapy.
 
For the discovery and characterization, with Avery and McLeod, that deoxyribonucleic acid is the chemical substance of heredity, and for his subsequent contributions to our understanding of the biology of streptococci and their role in disease.
 
Oscar D. Ratnoff (1985)
For his studies of the Hageman trait, an experiment of nature that improved understanding of such bodily defenses as the formation and dissolution of blood clots, inflammation, and immunity.
 
Henry G. Kunkel (1979)
For his pioneering and influential studies in basic immunology, immune complex disease, immune deficiency disorders, and lymphocytic membrane markers.
 
Julius H. Comroe, Jr. (1976)
For his immeasurable contribution to the diagnosis and treatment of human disease during his career, which was devoted to the physiology and chemistry of respiration and the mechanical and chemical properties of the human lung.
 
Seymour S. Kety (1973)
For furthering the essential understanding of balance between hereditary and other biological factors, on the one hand, and psychosocial experimental ones, on the other, in the pathogenesis and manifestations of schizophrenia.
 
For his laboratory and epidemiological researches on virus diseases, including his major role in the program for the evaluation of the polio vaccine and for his imaginative design for long-term studies of the atomic bomb survivors in Japan.
 
Karl P. Link (1967)
For his discovery and application of coumarin anticoagulants.
 
Rufus Cole (1966)
For his notable role in advancing our knowledge of lobar pneumonia and in establishing clinical investigation as a science.
 
George H. Whipple (1962)
For his contributions of many biological discoveries basic for advances in clinical and experimental medicine.
 
Karl F. Meyer (1961)
For his outstanding contributions to medical sciences as an investigator, teacher, and administrator over a period of half a century.
 
Eugene L. Opie (1959)
For his outstanding contributions to medical science and for a life of exemplary devotion to medical education and inquiry into the origins of disease.
 
Ernest W. Goodpasture (1958)
For his outstanding contributions to medical science and for long and continued devotion to the study of his chosen field of pathology.
 
Peyton Rous (1955)
 
Alfred N. Richards (1952)
For his outstanding contributions to medical science over a period of a half-century, both as an investigator and as a research executive and administrator.

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