Stanford University
Showing 1,951-2,000 of 7,810 Results
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Gary S. Fanton, MD
Clinical Professor, Orthopaedic Surgery
Current Research and Scholarly InterestsDr. Gary Fanton is the Chief of the Section of Sports Medicine at Stanfords Department of Orthopedic Surgery. His practice primarily involves the diagnostic evaluation and treatment of sports and trauma-related injuries of the upper extremity, knee, and ankle. He is Board Certified by the American Board of Orthopedic Surgery and is currently the Team Physician in Orthopedics for the San Francisco 49ers. Dr. Fanton's past experience includes positions as team orthopedist for the San Francisco Giants, company physician for the San Jose Ballet, head team orthopedist for Stanford University football and basketball, and team orthopedist for Stanfords additional 29 varsity sports. He co-founded the SOAR clinic where he was an active partner in private practice since 1983. He holds a B.S. degree from the University of Michigan and M.D. degree from the Medical College of Wisconsin.
Dr. Fanton's special interests include arthroscopic surgery of the knee and shoulder...specifically, injuries to the anterior cruciate ligament of the knee, cartilage injuries, rotator cuff tears, and shoulder instability. He has done extensive research on knee ligament tears, explored new techniques for shoulder stabilization and tendon repair, and he utilizes state-of-the-art surgical procedures to enhance rehabilitation and recovery after surgery. He is frequently asked to be a guest lecturer both nationally and internationally on these and other sports-medicine related topics. He has also authored dozens of articles on sports injuries and new surgical techniques.
Dr. Fanton was a co-founder and board member of Oratec Interventions, a medical device start-up for minimally invasive spine and joint procedures that went public in April, 2000, which was subsequently purchased by Smith-Nephew in 2002. He actively serves on the medical advisory board for several public and private surgical device companies in the Orthopedic industry and he continues to design and develop unique surgical devices for minimally invasive surgery. He has co-authored several device patents and has several others pending.
Dr. Fanton has been a member in good standing with the American Academy of Orthopedic surgeons since 1985 and he is a Diplomat of the American Board of Orthopedic Surgery. He is also member of the Orthopedic Research Society, NFL Team Physicians Society, the American Orthopedic Society of Sports Medicine, The International Knee Society, International Cartilage Repair Society, and a founding member of the International Musculoskeletal Laser Society. -
Charbel Farhat
Vivian Church Hoff Professor of Aircraft Structures and Professor of Aeronautics and Astronautics
Current Research and Scholarly InterestsCharbel Farhat and his Research Group (FRG) develop mathematical models, advanced computational algorithms, and high-performance software for the design, analysis, and digital twinning of complex systems in aerospace, marine, mechanical, and naval engineering. They contribute major advances to Simulation-Based Engineering Science. Current engineering foci in research are on reliable autonomous carrier landing in rough seas; dissipation of vertical landing energies through structural flexibility; nonlinear aeroelasticity of N+3 aircraft with High Aspect Ratio (HAR) wings; pulsation and flutter of a parachute; pendulum motion in main parachute clusters; coupled fluid-structure interaction (FSI) in supersonic inflatable aerodynamic decelerators for Mars landing; flight dynamics of hypersonic systems and their trajectories; and advanced digital twinning. Current theoretical and computational emphases in research are on high-performance, multi-scale modeling for the high-fidelity analysis of multi-component, multi-physics problems; discrete-event-free embedded boundary methods for CFD and FSI; efficient Bayesian optimization using physics-based surrogate models; modeling and quantifying model-form uncertainty; probabilistic, physics-based machine learning; mechanics-informed artificial neural networks for data-driven constitutive modeling; and efficient nonlinear projection-based model order reduction for time-critical applications such as design, active control, and digital twinning.
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Diana Farid
Clinical Associate Professor, Medicine - Vaden Health Center
BioDiana Farid MD, MPH is a physician, filmmaker, an award-winning author and poet. She is a Clinical Associate Professor in the Department of Medicine and Faculty in the Medical Humanities and Arts Program at Stanford's School of Medicine. After earning a BA in Peace and Conflict Studies at UC Berkeley, MD at Northwestern University, and Family Medicine specialty training at UCLA, she was awarded a U.S. Department of Health and Human Services Child and Family Health Leadership Fellowship, during which she earned a Masters in Public Health focused on community health and storytelling.
Since then, Diana has continued to care for patients while creating and championing the vital role of story and the arts in medicine and health. After serving as a physician consultant for television shows like Grey's Anatomy, she produced the feature length documentary film, American Rhythms, exploring the positive impact of music on elementary school student health. At Stanford, she has integrated medicine and the mediums of film, creative writing, and poetry into student and community experiences while leading and presenting arts programs across Stanford. As Assistant Director of Stanford School of Medicine’s Program in Bioethics and Film, she produced film screenings and panel discussions exploring films with vital bioethical implications. She established the first Stanford Film and Medicine Interest group for medical students to study film as a health promotion tool and has mentored medical student film projects. She produced the Stanford Medicine and the Muse, Medical Humanities and the Arts' 2018 Frankenstein@200 year-long cross-campus film screening and panel series.
Her poetry has been featured in gallery exhibits, storytelling events, anthologies, and journals. Her multi-award-winning picture book, When You Breathe (Abrams), melds respiratory science with poetry. Her novel written in verse, Wave (Abrams), celebrating medicine, music and poetry and noted as “Raw and powerful…Rich, layered and heart-rending” — Kirkus, has won numerous awards including the Cybils Award for Novel in Verse, was named a Best Middle Grade Book of 2022 by the School Library Journal, and is on state education board reading lists across the United States. Her latest picture book, The Light of Home (Scholastic) is a lyrical story about painting and belonging. Her debut board book Already All the Love (Little Bee Books) is a poem for presence. She is an Editorial Board Member for poetry for the medical humanities journal, The Pharos. In 2025, she created a first-of-its-kind Women in Medicine participatory poem for the Stanford School of Medicine. In 2026, she is co-teaching Peds 129: Little Libraries: Improving Children’s Literacy through Service and Storytelling. For 2025-2026, she is one of the inaugural artsCatalyst Fellows of the Stanford Arts Institute. -
Kayvon Fatahalian
Associate Professor of Computer Science
BioKayvon Fatahalian is an Associate Professor in the Computer Science Department at Stanford University. Kayvon's research focuses on the design of systems for real-time graphics, high-efficiency simulation engines for applications in entertainment and AI, and platforms for the analysis of images and videos at scale.
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C. Garrison Fathman
Professor of Medicine (Immunology and Rheumatology), Emeritus
Current Research and Scholarly InterestsMy lab of molecular and cellular immunology is interested in research in the general field of T cell activation and autoimmunity. We have identified and characterized a gene (GRAIL) that seems to control regulatory T cell (Treg) responsiveness by inhibiting the Treg IL-2 receptor desensitization. We have characterized a gene (Deaf1) that plays a major role in peripheral tolerance in T1D. Using PBC gene expression, we have provisionally identified a signature of risk and progression in T1D.
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Mohsen Fathzadeh
Genomic Scientist, Institute For International Studies, Loyalka, Prashant's Program
BioMohsen Fathzadeh is a medical geneticist with 20+ years of experience bridging science, care, and innovation.
His academic journey began at Yale University, where he completed his Ph.D. thesis under Prof. Arya Mani, focusing on a genetic form of familial Metabolic Syndrome. From 2015 to 2021, he served as a Postdoctoral Fellow at Stanford University, specializing in Cardiovascular Medicine, Psychiatry, and Public Health Sciences. During this tenure, he conducted comprehensive functional genomic analyses under the mentorship of esteemed professors.
Mohsen's collaborative efforts with Merck & Co., Inc. led to the identification of a gene regulator associated with body fat distribution. His research scope also includes the characterization of genes linked to insulin resistance and obesity. Recently, he explored the (epi)genetic link between newborn body fat distribution and high maternal gestational glucose levels, focusing on mother-child cohorts from diverse and underserved communities.
His primary goal is to utilize his findings to enhance our understanding of the genes and evolutionary pathways influencing healthspan and age-related diseases, thereby improving patient lives.
After completing his postdoctoral research in 2021, Mohsen spent two years in the biotech industry, specializing in genetic testing and variant assessment. He has an ongoing research project with Stanford's Population Health Center, studying epigenetic disease mechanisms in mother-child cohorts.
Mohsen recently joined Stanford's Graduate School of Education and the Freeman Spogli Institute for International Studies to work with Prof. Prashant Loyalka on a pioneering study that explores how educational interventions in genetic counseling can empower families—particularly in the context of autism spectrum disorders. This new chapter reflects his deepening commitment to integrating genomic science with public health education, leveraging AI and evidence-based learning to promote equity, early intervention, and informed decision-making across diverse populations. As the field of genetic counseling evolves, Mohsen envisions a future where accessible education and responsible innovation in educational AI can help every individual—and every story—be seen, heard, and supported.
Outside his professional life, Mohsen leads an active lifestyle and enjoys learning about diverse cultures. -
Michael Fayer
David Mulvane Ehrsam and Edward Curtis Franklin Professor of Chemistry
BioMy research group studies complex molecular systems by using ultrafast multi-dimensional infrared and non-linear UV/Vis methods. A basic theme is to understand the role of mesoscopic structure on the properties of molecular systems. Many systems have structure on length scales large compare to molecules but small compared to macroscopic dimensions. The mesoscopic structures occur on distance scales of a few nanometers to a few tens of nanometers. The properties of systems, such as water in nanoscopic environments, room temperature ionic liquids, functionalized surfaces, liquid crystals, metal organic frameworks, water and other liquids in nanoporous silica, polyelectrolyte fuel cell membranes, vesicles, and micelles depend on molecular level dynamics and intermolecular interactions. Our ultrafast measurements provide direct observables for understanding the relationships among dynamics, structure, and intermolecular interactions.
Bulk properties are frequently a very poor guide to understanding the molecular level details that determine the nature of a chemical process and its dynamics. Because molecules are small, molecular motions are inherently very fast. Recent advances in methodology developed in our labs make it possible for us to observe important processes as they occur. These measurements act like stop-action photography. To focus on a particular aspect of a time evolving system, we employ sequences of ultrashort pulses of light as the basis for non-linear methods such as ultrafast infrared two dimensional vibrational echoes, optical Kerr effect methods, and ultrafast IR transient absorption experiments.
We are using ultrafast 2D IR vibrational echo spectroscopy and other multi-dimensional IR methods, which we have pioneered, to study dynamics of molecular complexes, water confined on nm lengths scales with a variety of topographies, molecules bound to surfaces, ionic liquids, and materials such as metal organic frameworks and porous silica. We can probe the dynamic structures these systems. The methods are somewhat akin to multidimensional NMR, but they probe molecular structural evolution in real time on the relevant fast time scales, eight to ten orders of magnitude faster than NMR. We are obtaining direct information on how nanoscopic confinement of water changes its properties, a topic of great importance in chemistry, biology, geology, and materials. For the first time, we are observing the motions of molecular bound to surfaces. In biological membranes, we are using the vibrational echo methods to study dynamics and the relationship among dynamics, structure, and function. We are also developing and applying theory to these problems frequently in collaboration with top theoreticians.
We are studying dynamics in complex liquids, in particular room temperature ionic liquids, liquid crystals, supercooled liquids, as well as in influence of small quantities of water on liquid dynamics. Using ultrafast optical heterodyne detected optical Kerr effect methods, we can follow processes from tens of femtoseconds to ten microseconds. Our ability to look over such a wide range of time scales is unprecedented. The change in molecular dynamics when a system undergoes a phase change is of fundamental and practical importance. We are developing detailed theory as the companion to the experiments.
We are studying photo-induced proton transfer in nanoscopic water environments such as polyelectrolyte fuel cell membranes, using ultrafast UV/Vis fluorescence and multidimensional IR measurements to understand the proton transfer and other processes and how they are influenced by nanoscopic confinement. We want to understand the role of the solvent and the systems topology on proton transfer dynamics. -
Mark Fearing
Winter CSP Instructor
BioMark grew up in Minnesota, received a BFA from the University of Wisconsin, continued studies at the Graduate School of Film at UCLA in the MFA in animation program, taking additional classes at the Art Center College of Design in Pasadena and the Los Angeles Animation Institute.
Working in design, illustration and animation Mark was a manager at Walt Disney Television Animation, an art director for Sony Online Entertainment and a creative director at Pearson Television. Mark worked on international and interactive versions of gameshows including: The Wheel of Fortune, JEOPARDY!, The Price is Right and many, many others.
Mark’s animated short films have been seen in film festivals around the country, broadcast on Nickelodeon Nicktoons and the G4 Network in the U.S. and on World of Wonder in the U.K.
His writing and illustrations have been published by Penguin Books for Young Readers, Candlewick Press, Hyperion, Chronicle Books, Knopf and a few others he can’t think of right now. -
James Fearon
Theodore and Frances Geballe Professor in the School of Humanities and Sciences and Senior Fellow at the Freeman Spogli Institute for International Studies
Current Research and Scholarly Interestspolitical violence
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William Fearon, MD
Professor of Medicine (Cardiovascular Medicine)
Current Research and Scholarly InterestsDr. Fearon's general research interest is coronary physiology. In particular, he is investigating invasive methods for evaluating the coronary microcirculation. His research is currently funded by an NIH R01 Award.
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Ron Fedkiw
Canon Professor in the School of Engineering
BioFedkiw's research is focused on the design of new computational algorithms for a variety of applications including computational fluid dynamics, computer graphics, and biomechanics.
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Vivian Feig
Assistant Professor of Mechanical Engineering and, by courtesy, of Materials Science and Engineering
BioThe Feig lab aims to develop low-cost, noninvasive, and widely-accessible medical technologies that integrate seamlessly with the human body. We accomplish this by developing functional materials and devices with dynamic mechanical properties, leveraging chemistry and physics insights to engineer novel systems at multiple length scales. In pursuit of our goals, we maintain a strong emphasis on integrity and diversity, while nurturing the intellectual curiosity and holistic growth of our team members as researchers, communicators, and leaders.
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Jeffrey A. Feinstein, MD, MPH
Dunlevie Family Professor of Pulmonary Vascular Disease and Professor, by courtesy, of Bioengineering
Current Research and Scholarly InterestsResearch interests include (1) computer simulation and modeling of cardiovascular physiology with specific attention paid to congenital heart disease and its treatment, (2) the evaluation and treatment of pulmonary hypertension/pulmonary vascular diseases, and (3) development and testing of medical devices/therapies for the treatment of congenital heart disease and pulmonary vascular diseases.
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Ben Feldman
Associate Professor of Physics
Current Research and Scholarly InterestsHow do material properties change as a result of interactions among electrons, and what is the nature of the new phases that result? What novel physical phenomena and functionality (e.g., symmetry breaking or topological excitations) can be realized by combining materials and device elements to produce emergent behavior? How can we leverage nontraditional measurement techniques to gain new insight into quantum materials? These are some of the overarching questions we seek to address in our research.
We are interested in a variety of quantum systems, especially those composed of two-dimensional flakes and heterostructures. This class of materials has been shown to exhibit an incredible variability in their properties, with the further benefit that they are highly tunable through gating and applied fields. -
David Feldman
Professor of Medicine (Endocrinology, Gerontology and Metabolism), Emeritus
Current Research and Scholarly InterestsStudies of the role of the vitamin D receptor in the action of 1,25-dihydroxyvitamin D, the active vitamin D hormone. Current efforts are evaluating the vitamin D receptor in breast and prostate cancer, osteoporosis and rickets.
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Heidi M. Feldman
Ballinger-Swindells Endowed Professor of Developmental and Behavioral Pediatrics
Current Research and Scholarly InterestsMy current research program focuses on infants born preterm, before 32 weeks gestation from two language environments: English and Spanish. The study considers how neurobiological factors, specifically properties of the white matter circuits in the brain, interact with social, psychological, and economic factors to predict language processing efficiency at 18 months of age.
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Jessica Feldman
Associate Professor of Biology
Current Research and Scholarly InterestsCell differentiation requires cells to polarize, translating developmental information into cell-type specific arrangements of intracellular structures. The major goal of the research in my laboratory is to understand how cells build these functional intracellular patterns during development, specifically focusing on the molecules and mechanisms that build microtubules at cell-type specific locations and the polarity cues that guide this patterning in epithelial cells.
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Marcus Feldman
Burnet C. and Mildred Finley Wohlford Professor
Current Research and Scholarly InterestsHuman genetic and cultural evolution, mathematical biology, demography of China
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Dean W. Felsher
Professor of Medicine (Oncology) and of Pathology
Current Research and Scholarly InterestsMy laboratory studies the molecular basis of cancer with a focus on understanding when cancer can be reversed through targeted oncogene inactivation.
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Lindsey Felt
Advanced Lecturer
Current Research and Scholarly InterestsSPECIALIZATION: 20th and 21st Century American Literature, Disability Studies, Media Culture, Science and Technology Studies, Graphic Narrative, Digital Humanities, Posthumanism.
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Stephen Felt, DVM, MPH
Professor of Comparative Medicine
Current Research and Scholarly InterestsHis research interests include infectious diseases, particularly zoonoses, and exploring techniques which promote the health and welfare of laboratory animals.
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Michelle Feltes
Clinical Associate Professor, Emergency Medicine
BioDr Michelle Feltes is a Clinical Assistant Professor of Emergency Medicine. She received her medical degree from Washington University in St Louis and completed residency in the George Washington University Emergency Medicine residency program in Washington DC. She completed the Global EM Fellowship at Stanford and the Masters of Academic Medicine degree at the University of Southern California in 2018. She then stayed on as faculty at Stanford University in the department of Emergency Medicine with a focus on global health. Her academic work focuses on the development of global emergency medicine and medical education.
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Scott Fendorf
Terry Huffington Professor, Senior Associate Dean for Research, Senior Fellow at the Woods Institute for the Environment and Professor of Photon Science
Current Research and Scholarly InterestsSoil and environmental biogeochemistry
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Liang Feng
Associate Professor of Molecular and Cellular Physiology and, by courtesy, of Structural Biology
Current Research and Scholarly InterestsWe are interested in the structure, dynamics and function of eukaryotic transport proteins mediating ions and major nutrients crossing the membrane, the kinetics and regulation of transport processes, the catalytic mechanism of membrane embedded enzymes and the development of small molecule modulators based on the structure and function of membrane proteins.
