Stanford University
Showing 5,411-5,420 of 7,809 Results
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Jennifer Pien MD
Clinical Associate Professor, Psychiatry and Behavioral Sciences
BioJennifer H. Pien is a Clinical Associate Professor through the Department of Psychiatry at Stanford University. She is the Director of The Pegasus Physician Writers, Founder of The Pegasus Review, and is a founding faculty editor for the Oxford Review of Books x Stanford collaboration. She also serves on the Advisory Board for The Bellevue Literary Press and the Stanford School of Medicine Medical Humanities Fellowship. Jennifer is represented by Amy Collins of Talcott Notch. She is the author of Healing the Healers, Johns Hopkins University Press, forthcoming 2025 and is the Co-Founder of Hesperides Literary Agency.
In addition to her work in Medical Humanities, her interests include advocacy for adults with developmental disabilities where she cofounded Puente Clinic through the San Mateo County Medical System, an innovative dev. disabilities subspecialty clinic. She serves on the Regional Advisory Committee to the California State Council on Developmental Disabilities. Currently, her clinical focus is on physician well-being through the WellConnect team. -
Mert Pilanci
Assistant Professor of Electrical Engineering
Current Research and Scholarly InterestsDr. Pilanci's research interests include neural networks, machine learning, mathematical optimization, information theory and signal processing.
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Eric Brian Pillado
Clinical Assistant Professor, Surgery - Vascular Surgery
BioDr. Pillado earned his bachelor’s degree at the University of Michigan before completing his medical degree at the University of California, Los Angeles. He then completed his vascular surgery residency at Northwestern University, where he also obtained a Master of Science in Health Services and Outcomes Research as well as a Master of Business Administration from the Kellogg School of Management during his professional development time.
His clinical research interests include improving vascular surgery healthcare delivery systems in underserved patient populations, multidisciplinary limb salvage, and advancing wellness initiatives within vascular surgery training. -
Rebecca Pinals
Assistant Professor of Chemical Engineering
BioThe brain is a fascinatingly complex and delicate system of biomolecules, cells, and dynamic interactions that must be carefully maintained to support human health. When this balance is disrupted, disease can arise. Neurodegenerative dementias including Alzheimer’s disease are highly prevalent and profoundly devastating, yet remain largely untreatable or incurable.
The Pinals Lab engineers neuro-models and nano-tools to uncover mechanisms of neurodegenerative disease and intervene to halt—and even reverse—disease progression. A particular emphasis of our work is on the blood–brain barrier (BBB), the vascular interface that serves as the molecular gateway into the brain. We leverage human induced pluripotent stem cells (iPSCs) to build 3D cellular systems, providing a platform to recapitulate human brain properties and pathologies. In parallel, we design nanoparticles to report on real-time neurochemical processes, enabling unprecedented access to dynamic and spatially resolved biomolecular phenomena, and to modulate disease states. By integrating advanced human brain tissue models with rationally designed nanotechnologies, we aim to generate fundamental insights and tools that translate into meaningful impacts for human health. -
Rachyl Leonor Pines
Instructor, Medicine - Primary Care and Population Health
BioRachyl Pines PhD, focuses on improving the patient experience and increasing provider professional fulfillment through coaching, consults, and communication trainings. Rachyl conducts and oversees research and evaluation to add to the body of knowledge on relationship-centered care and communication in healthcare.
Prior to joining Stanford, Rachyl was a Research Scientist at Cottage Health Research Institute at Santa Barbara Cottage Hospital where she supported pediatric, behavioral health, population health, women’s services and RN-led research at the hospital. Her other experience includes a brief postdoctoral fellowship with the Terasaki Institute for Biomedical Innovation and UCLA, focused on patient education and equity in renal replacement therapies and a Visiting Researcher position with Tufts University School of Medicine. She also serves as an executive officer for the International Association of Language and Social Psychology.
She received her MA and PhD in Communication from University of California, Santa Barbara with a focus in health communication. Her dissertation focused on training healthcare staff to better communicate with aggressive patients to prevent workplace violence. In addition, Rachyl has received grant-funding for international projects about intercultural differences in patient preferences for decision-making power with their providers. -
Benjamin Pinsky
Professor of Pathology, of Medicine (Infectious Diseases) and, by courtesy, of Pediatrics (Infectious Diseases)
Current Research and Scholarly InterestsDevelopment and application of molecular assays for the diagnosis and management of infectious diseases.
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Peter Pinsky
Professor of Mechanical Engineering, Emeritus
BioPinsky works in the theory and practice of computational mechanics with a particular interest in multiphysics problems in biomechanics. His work uses the close coupling of techniques for molecular, statistical and continuum mechanics with biology, chemistry and clinical science. Areas of current interest include the mechanics of human vision (ocular mechanics) and the mechanics of hearing. Topics in the mechanics of vision include the mechanics of transparency, which investigates the mechanisms by which corneal tissue self-organizes at the molecular scale using collagen-proteoglycan-ion interactions to explain the mechanical resilience and almost perfect transparency of the tissue and to provide a theoretical framework for engineered corneal tissue replacement. At the macroscopic scale, advanced imaging data is used to create detailed models of the 3-D organization of collagen fibrils and the results used to predict outcomes of clinical techniques for improving vision as well as how diseased tissue mechanically degrades. Theories for mass transport and reaction are being developed to model metabolic processes and swelling in tissue. Current topics in the hearing research arena include multiscale modeling of hair-cell mechanics in the inner ear including physical mechanisms for the activation of mechanically-gated ion channels. Supporting research addresses the mechanics of lipid bilayer cell membranes and their interaction with the cytoskeleton. Recent past research topics include computational acoustics for exterior, multifrequency and inverse problems; and multiscale modeling of transdermal drug delivery. Professor Pinsky currently serves as Chair of the Mechanics and Computation Group within the Department of Mechanical Engineering at Stanford.
