School of Medicine


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  • Michael Fredericson, MD

    Michael Fredericson, MD

    Professor of Orthopaedic Surgery and, by courtesy, of Medicine (Stanford Prevention Research Center)

    Current Research and Scholarly InterestsMy research focuses on the etiology, prevention, and treatment of overuse sports injuries in athletes and lifestyle medicine practices for improved health and longevity.

  • Michael T. Freehill, MD, FAOA

    Michael T. Freehill, MD, FAOA

    Associate Professor of Orthopaedic Surgery

    BioDr. Freehill is a board-certified, double fellowship-trained specialist in orthopaedic surgery with a sub-specialty certification in sports medicine and serves as Chief of Shoulder & Elbow Surgery. His concentration is in shoulder and sports elbow. Dr. Freehill serves as Head Team physician for the Athletics Major League Baseball organization. He is also a team physician for Stanford University athletics and Head Team physician for the Stanford University baseball.

    Dr. Freehill’s practice focuses on all shoulder conditions including rotator cuff tears, instability, arthritis, arthropathy, complex shoulder pathology, and sports related shoulder injury. In addition, he is also passionate about sports-related elbow injuries, with an emphasis on thrower’s elbow.

    Professional and amateur athletes, as well as non-athletes, come to Dr. Freehill for expert care. His sports medicine training and specialization in shoulder replacement procedures enable him to treat patients across the lifespan. Depending on factors including the patient’s condition and occupation, he may recommend treatment ranging from non-operative solutions (such as physical therapy), to cutting-edge biologics procedures, to complex surgery.

    Previously, he was a team physician for the Detroit Tigers and the Winston-Salem Dash (affiliated with the Chicago White Sox); he assisted with the Baltimore Orioles while in residency. He has also served as Director of Sports Medicine for Wake Forest University Athletics.

    As executive director of the Stanford Baseball Science CORE, Dr. Freehill draws on his previous experience as a professional baseball player to help athletes of all skill levels and push baseball science forward. He conducts cutting edge research on the biomechanics of overhead throwers and has studied pitch counts in adolescent players funded by Major League Baseball and is currently studying post-ulnar collateral ligament surgery in professional baseball hitters funded by the American Orthopaedic Society for Sports Medicine. (AOSSM). He is a member of the MLB Team Physicians Association and its Research Committee. Additionally, he was the pioneering mind behind the Pitching Lab at Wake Forest.

    Dr. Freehill has pioneered the use of some of the latest techniques and technology for leading-edge shoulder care. Among the advanced technologies he utilizes is a virtual reality (VR) planning software system that enables him to perform a simulated shoulder arthroplasty procedure prior to entering the operating room with a patient. He is also a member of the robotics team which will revolutionize the manner in which shoulder replacement is performed.

    Dr. Freehill has over 100 peer-reviewed articles and his work has been featured in the American Journal of Sports Medicine, Orthopedic Journal of Sports Medicine, Journal of Shoulder and Elbow Surgery, Arthroscopy, and elsewhere. He has written numerous book chapters and made over 400 presentations at regional, national, and international conferences. Dr. Freehill’s honors include the Orthopaedic Residency Research Award in residency at Johns Hopkins University. He is also a Neer Award winner, denoting the highest research award selected annually by the American Shoulder and Elbow Society and was awarded a research grant from the National Institutes of Health to investigate stromal vascular fractionated mesenchymal cells and their potential for healing rotator cuff tendon tears.

    Currently, the Associate Editor for Shoulder & Elbow for the American Journal of Sports Medicine, he is also a committee member for the American Shoulder and Elbow Surgeons Society, American Orthopaedic Society for Sports Medicine, International Congress of Arthroscopy and Sports Traumatology, Arthroscopy Association of North America, and American Academy of Orthopaedic Surgeons, American Orthopaedic Association and has been elected into the Herodicus Society.

  • Shai Friedland

    Shai Friedland

    Professor of Medicine (Gastroenterology and Hepatology)

    Current Research and Scholarly Interests1. Gastrointestinal Endoscopy- Techniques and Outcomes
    2. Noninvasive colorectal cancer screening
    3. Medical device development in gastroenterology

  • Jason Alan Fries

    Jason Alan Fries

    Assistant Professor of Biomedical Data Science and of Medicine (Computational Medicine)

    BioJason Fries' research focuses on training and evaluating foundation models for healthcare, positioned at the intersection of computer science, medical informatics, and hospital systems. His work explores the use of electronic health record (EHR) data to contextualize human health, leveraging longitudinal patient information to inform model development and evaluation. His research has been published in venues such as NeurIPS, ICLR, AAAI, Nature Communications, Nature Medicine and npj Digital Medicine.

  • Richard Frock

    Richard Frock

    Assistant Professor of Radiation Oncology (Radiation and Cancer Biology)

    Current Research and Scholarly InterestsWe are a functional genomics laboratory interested in elucidating mechanisms of DNA repair pathway choice and genome instability. We use genome-wide repair fate maps of targeted DNA double strand breaks (DSBs) to develop pathway-specific models and combinatorial therapies. Our expertise overlaps many different fields including: genome editing, ionizing radiation, cancer therapeutics, V(D)J and IgH class switch recombination, repair during transcription and replication, and meiosis.

  • Victor Froelicher, MD

    Victor Froelicher, MD

    Professor of Medicine (Cardiovascular) at the Veterans Affairs Palo Alto Health Care System, Emeritus

    Current Research and Scholarly InterestsScreening of athletes for sudden cardiac death, Computerized ECG and clinical data management; exercise Physiology including expired gas analysis; the effect of chronic and acute exercise on the heart; digital recording of biological signals; diagnostic use of exercise testing; development of Expert Medical System software and educational tools.

  • Judith Frydman

    Judith Frydman

    Donald Kennedy Chair in the School of Humanities and Sciences and Professor of Genetics

    Current Research and Scholarly InterestsThe long term goal of our research is to understand how proteins fold in living cells. My lab uses a multidisciplinary approach to address fundamental questions about molecular chaperones, protein folding and degradation. In addition to basic mechanistic principles, we aim to define how impairment of cellular folding and quality control are linked to disease, including cancer and neurodegenerative diseases and examine whether reengineering chaperone networks can provide therapeutic strategies.

  • Adam Frymoyer

    Adam Frymoyer

    Clinical Professor, Pediatrics - Neonatology

    Current Research and Scholarly InterestsMy research interests focus on understanding the clinical pharmacokinetics (PK) and pharmacodynamics (PD) of medicines used in complex pediatric populations. This includes identifying sources of variation in drug response through the application of population PK-PD modeling and simulation approaches. The goal is to ultimately apply this quantitative understanding to guide therapeutic decision-making in infants and children.

  • Janene Fuerch

    Janene Fuerch

    Clinical Professor, Pediatrics - Neonatology

    BioJanene H. Fuerch, MD is a Clinical Professor of Neonatology at Stanford University Medical Center, as well as an innovator, educator, researcher and physician entrepreneur. She has an undergraduate degree in Neuroscience from Brown University and a medical degree from the Jacobs School of Medicine at SUNY Buffalo. At Stanford University she completed a pediatrics residency, neonatal-perinatal medicine fellowship and the Byers Center for Biodesign Innovation Fellowship.

    She is also Assistant Director of the Biodesign Innovation Fellowship Program at Stanford University, and Co-Director of Impact1 where she mentors and advises new entrepreneurs through all aspects of medical device development, from identifying clinical needs to commercialization. Her specific areas of investigational interest include the development and commercialization process of neonatal, pediatric and maternal health medical devices as well as the utilization of a simulated environment to develop and test medical devices. She is a national leader in neonatal resuscitation, ECMO, device development and has been an AHRQ and FDA funded investigator. But her work extends outside of the academic realm to industry having co-founded EMME (acquired by Simple Health 2022) an award-winning reproductive health company, medical director for Novonate (acquired by Laborie 2023) a neonatal umbilical catheter securement company and notable consultant for Vitara (EXTEND - artificial environment to decrease complications of prematurity), and Avanos™. Janene is passionate about improving the health of children and newborns through medical device innovation and research.

  • Eri Fukaya

    Eri Fukaya

    Clinical Professor, Surgery - Vascular Surgery
    Clinical Professor, Medicine - Primary Care and Population Health

    BioDr. Fukaya practices Vascular Medicine at the Stanford Vascular Clinics and Advanced Wound Care Center. She received her medical education in Tokyo and completed her medical training both in the US and Japan. She joined Stanford in 2015.

    Vascular Medicine covers a wide range of vascular disorders including chronic venous insufficiency, varicose veins, deep vein thrombosis, post thrombotic syndrome, peripheral artery disease, carotid artery disease, cardiovascular risk evaluation, fibromuscular dysplasia, rare vascular disease, lymphedema, arterial/venous/diabetic ulcers, and wound care.

    Dr. Fukaya has a special interest in venous disease and started the Stanford Vascular and Vein Clinic in 2016.

    Board Certified in Vascular Medicine
    Board Certified in Internal Medicine
    Board Certified in Internal Medicine (Japan)
    Board Certified in Plastic and Reconstructive Surgery (Japan)

  • Gerald Fuller

    Gerald Fuller

    Fletcher Jones Professor in the School of Engineering

    BioThe processing of complex liquids (polymers, suspensions, emulsions, biological fluids) alters their microstructure through orientation and deformation of their constitutive elements. In the case of polymeric liquids, it is of interest to obtain in situ measurements of segmental orientation and optical methods have proven to be an excellent means of acquiring this information. Research in our laboratory has resulted in a number of techniques in optical rheometry such as high-speed polarimetry (birefringence and dichroism) and various microscopy methods (fluorescence, phase contrast, and atomic force microscopy).

    The microstructure of polymeric and other complex materials also cause them to have interesting physical properties and respond to different flow conditions in unusual manners. In our laboratory, we are equipped with instruments that are able to characterize these materials such as shear rheometer, capillary break up extensional rheometer, and 2D extensional rheometer. Then, the response of these materials to different flow conditions can be visualized and analyzed in detail using high speed imaging devices at up to 2,000 frames per second.

    There are numerous processes encountered in nature and industry where the deformation of fluid-fluid interfaces is of central importance. Examples from nature include deformation of the red blood cell in small capillaries, cell division and structure and composition of the tear film. Industrial applications include the processing of emulsions and foams, and the atomization of droplets in ink-jet printing. In our laboratory, fundamental research is in progress to understand the orientation and deformation of monolayers at the molecular level. These experiments employ state of the art optical methods such as polarization modulated dichroism, fluorescence microscopy, and Brewster angle microscopy to obtain in situ measurements of polymer films and small molecule amphiphile monolayers subject to flow. Langmuir troughs are used as the experimental platform so that the thermodynamic state of the monolayers can be systematically controlled. For the first time, well characterized, homogeneous surface flows have been developed, and real time measurements of molecular and microdomain orientation have been obtained. These microstructural experiments are complemented by measurements of the macroscopic, mechanical properties of the films.

  • Margaret T. Fuller

    Margaret T. Fuller

    Reed-Hodgson Professor of Human Biology, Katharine Dexter McCormick and Stanley McCormick Memorial Professor and Professor of Genetics and of Obstetrics/Gynecology (Reproductive and Stem Cell Biology)

    Current Research and Scholarly InterestsRegulation of self-renewal, proliferation and differentiation in adult stem cell lineages. Developmental tumor suppressor mechanisms and regulation of the switch from proliferation to differentiation. Cell type specific transcription machinery and regulation of cell differentiation. Developmental regulation of cell cycle progression during male meiosis.