Stanford University
Showing 29,801-29,850 of 36,194 Results
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Navin Sridhar
Postdoctoral Scholar, Physics
Current Research and Scholarly InterestsElectromagnetic and multi-messenger signals powered by plasma processes around compact objects.
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Sandy Srinivas
Professor of Medicine (Oncology) and, by courtesy, of Urology
Current Research and Scholarly InterestsClinical interests: general oncology, genito-urinary malignancy Research interests: conducting clinical trials in advanced prostate cancer, bladder cancer and renal cell carcinoma
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Gayathri Srinivasan OD, MS
Clinical Associate Professor, Ophthalmology
BioDr. Srinivasan is a Clinical Associate Professor in the Department of Ophthalmology at Stanford University. Her clinical focus is on the management of amblyopia, strabismus, childhood refractive errors, and concussion-related vision disorders in children and adults. Dr. Srinivasan's research interests are amblyopia, strabismus, and concussion-related vision disorders. She serves as co-Investigator in ongoing clinical trials through the Pediatric Eye Disease Investigator Group (PEDIG), funded by the NIH, and chairs the Pediatrics and Strabismus subgroup within the Observational Health Data Sciences and Informatics (OHDSI) network.
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Malathi Srinivasan
Clinical Professor, Medicine - Primary Care and Population Health
BioDr. Srinivasan is a Clinical Professor of Medicine at Stanford University, Associate Director at the Stanford Center for Asian Healthcare Research and Education (Stanford CARE), Director of the Stanford CARE Scholars research program, Director of the Stanford Implementation Sciences Fellowship, Fellow at the Stanford Center for Innovation in Global Health (CIGH), Board Member for the Stanford Health Professions Education and Scholars (SHaPES, formerly CTSS), and member of the Stanford Teaching and Mentoring Academy (TMA). She is co-Director of the One Health Teaching Scholars Faculty Development Program, an international program focusing on faculty development for health professions education around the world. She was a regular contributor to CBS-KPIX “Medical Mondays”. Dr. Srinivasan brings her skills as an educator, physician, health services researcher, and entrepreneur to considering how scalable technologies can improve health care. Her work in Virtual Health/telemedicine and new patient engagement models has been published in the NEJM Catalyst – a leading healthcare innovation journal.
Previously, Dr. Srinivasan was a Master Clinical Educator and Professor of Clinical Medicine at the University of California, Davis School of Medicine. She was the Senior Associate Editor and Editorial Fellowship Director for the Journal of General Internal Medicine, and was the Kimitaka Kaga Visiting Professor at the University of Tokyo at the International Research Center for Medical Education. At UC Davis, Dr. Srinivasan was the Director of Practice Based Learning and Improvement and Medical Director of the Clinical Performance Examination for a decade. She is former President of the California-Hawaii Society of General Internal Medicine, and ex-officio National Council Member for SGIM. She was a Robert Wood Johnson Foundation Generalist Physician Faculty Scholar and US Health and Human Service Public Policy Fellow. Dr. Srinivasan has been awarded the California SGIM Educator of the Year Award, Mentor of the Year (California American College of Physicians), and Faculty of the Year (Stanford CARE), and was recognized with the Dean’s Award for Excellence in Education (UC Davis). Her research has focused on two themes. First, addressing health disparities for vulnerable populations, and improving the health of Asians through research & systems change. Second, improving physician competency around clinical decision-making, through Virtual Health, technology-aided education and reflective practice.
Dr. Srinivasan has been working in the Stanford Medical Humanities & the Arts program, as Director of the Medicine, Movement & Dance program, and building patient-facing programs n Medical Humanities She serves on the Executive Board of The Pegasus Physician Writers Program, and enjoys her time as a novice creative writer. -
Suhas Srinivasan, Ph.D.
Principal Bioinformatics Scientist, Dermatology
BioI develop computational algorithms including AI/ML and statistical methods to discover insights at various resolutions of the biological hierarchy i.e., molecules, cells, tissues, organs, organism and population-scale.
In my current role in the laboratories of Paul Khavari and Howard Chang I conduct bioinformatics research to study the molecular mechanisms of tissue development, cancers, autoimmunity and chronic diseases using multiomics, with a focus on the non-coding genome.
I have ten years of academic research experience and received my Ph.D. in Data Science specializing in AI/ML development for diverse topics in biomedicine.
My research interests include artificial intelligence to identify novel patterns in multiomics data, psychometrics and neuroimaging data; structural bioinformatics and computational epidemiology. Additionally, I have conducted research in anomaly detection, and community detection in biological networks.
I am the co-inventor of a patented anomaly detection method for real-time streaming data.
Prior to graduate training and academic research, I was a full-stack software engineer in industry for three years. -
Ankit Srivastava
Temporary Employee, Medicine - Med/Gastroenterology and Hepatology
Current Role at StanfordAs a research scientist, the overarching goal of my research is to elucidate targetable cellular crosstalk between hepatocytes and immune cells in the liver that promotes aging, inflammation, and cancer. To highlight this, I use spatial biology, patient-derived organoids, and disease models of cancer and inflammation.
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Aditya Srivatsan
Affiliate, Department Funds
Resident in Neurology & Neurological SciencesBioStanford Neurology Physician Resident, PGY-4
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Skyler St. Pierre
Ph.D. Student in Mechanical Engineering, admitted Autumn 2020
Current Research and Scholarly Interestsbiomechanics, machine learning, computational modeling
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Daniel Stack
Associate Professor of Chemistry
BioResearch in the Stack group focuses on the mechanism of dioxygen activation and the subsequent oxidative reactivity with primarily copper complexes ligated by imidazoles or histamines. Specifically, the group is interested in substrate hydroxylations and full dioxygen reduction. The remarkable specificity and energy efficiency of metalloenzymes provide the inspiration for the work. Trapping and characterizing immediate species, primarily at low temperatures, provide key mechanistic insights especially through substrate reactivity along with spectroscopic and metrical correlation to DFT calculations. Our objective is to move these efficient enzymatic mechanisms into small synthetic complexes, not only to reproduce biological reactivity, but more importantly to move the oxidative mechanism beyond that possible in the protein matrix.
Daniel Stack was born, raised and attended college in Portland Oregon. He received his B.A. from Reed College in 1982 (Phi Beta Kappa), working with Professor Tom Dunne on weak nickel-pyrazine complexes. In Boston, he pursued his doctoral study in synthetic inorganic chemistry at Harvard University (Ph.D., 1988) with Professor R. H. Holm, investigating site-differentiated synthetic analogues of biological Fe4S4 cubanes. As an NSF Postdoctoral Fellow with Professor K. N. Raymond at the University of California at Berkeley, he worked on synthesizing new, higher iron affinity ligands similar to enterobactin, a bacterial iron sequestering agent. He started his independent career in 1991 at Stanford University primarily working on oxidation catalysis and dioxygen activation, and was promoted to an Associate Professor in 1998. His contributions to undergraduate education have been recognized at the University level on several occasions, including the Dinkelspiel Award for Outstanding Contribution to Undergraduate Education in 2003.
Areas of current focus include:
Copper Dioxygen Chemistry
Our current interests focus on stabilizing species formed in the reaction of dioxygen with Cu(I) complexes formed with biologically relevant imidazole or histamine ligation. Many multi-copper enzymes ligated in this manner are capable of impressive hydroxylation reactions, including oxidative depolymerization of cellulose, methane oxidation, and energy-efficient reduction of dioxygen to water. Oxygenation of such complexes at extreme solution temperatures (-125°C) yield transient Cu(III) containing complexes. As Cu(III) is currently uncharacterized in any biological enzyme, developing connections between the synthetic and biological realms is a major focus.
