Stanford University
Showing 201-300 of 1,666 Results
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Vijay Pande
Adjunct Professor, Structural Biology Department
BioVijay Pande, Henry Dreyfus Professor of Chemistry and, by courtesy, of Structural Biology and Computer Science, also currently directs of the Stanford Program in Biophysics and the Folding@home Distribtued Computing project. His research centers on novel cloud computing simulation techniques to address problems in chemical biology. In particular, he has pioneered distributed computing methodology to break fundamental barriers in the simulation of protein and nucleic acid kinetics and thermodynamics. As director of the Folding@home project (http://folding.stanford.edu), Prof. Pande has, for the first time, directly simulated protein folding dynamics, making quantitative comparisons with experimental results, often considered a “holy grail” of computational biology. His current research also includes novel computational methods for drug design, especially in the area of protein misfolding and associated diseases such as Alzheimer’s and Huntington’s Disease.
Professor Pande studied physics at Princeton University (B.A. 1992), where he was first introduced to biophysical questions, especially in undergraduate research with Nobel Laureate P. Anderson. His doctoral research in physics under Profs. T. Tanaka and A. Grosberg at MIT (Ph.D. 1995) centered on statistical mechanical models of protein folding, suggesting new ways to design protein sequences for stability and folding properties. As a Miller Fellow under Prof. D. Rokhsar at UC Berkeley, Prof. Pande extended this methodology to examine atomistic protein models, laying the foundations for his work at Stanford University. Among numerous awards, Prof. Pande has received the Biophysical Society’s Bárány Award for Young Investigators and Protein Society’s Irving Sigal Young Investigator Award, and was named to MIT’s TR100 and elected a Fellow of the American Physical Society.
The Pande research group develops and applies new theoretical methods to understand the physical properties of biological molecules such as proteins, nucleic acids and lipid membranes, using this understanding to design synthetic systems including small-molecule therapeutics. In particular, the group examines the self-assembly properties of biomolecules. For example, how do protein and RNA molecules fold? How do proteins misfold and aggregate? How can we use this understanding to tackle misfolding related degeneration and develop small molecules to inhibit disease processes?
As these phenomena are complex, spanning molecular to mesoscopic lengths and nanosecond to millisecond timescales, the lab employs a variety of methods, including statistical mechanical analytic models, Markov State Models, and statistical and informatic methods. Other tools include Monte Carlo, Langevin dynamics, and molecular dynamics computer simulations on workstations and massively parallel supercomputers, superclusters, and worldwide distributed computing. The group has also done extensive work in the application of machine learning, pioneering traditional and deep learning approaches to cheminformatics, biophysics and drug design.
For example, simulations in all-atom detail on experimentally relevant timescales (milliseconds to seconds) have produced specific predictions of the structural and physical chemical nature of protein aggregation involved in Alzheimer’s and Huntington’s diseases. These results have fed into computational small molecule drug design methods, yielding interesting new chemical entities.
Since such problems are extremely computationally demanding, the group developed a distributed computing project for protein folding dynamics. Since its launch in October 2000, Folding@Home has attracted more than 4,000,000 PCs, and today is recognized as the most powerful supercluster in the world. Such enormous computational resources have allowed simulations of unprecedented folding timescales and statistical precision and accuracy. For more details, please visit http://pande.stanford.edu. -
Mahesh Pandit
Postdoctoral Scholar, Immunology and Rheumatology
BioI have completed my PhD in Immunology from Yeungnam University, South Korea. I studied adaptive immune cells especially focusing T cells and its relation to autoimmunity and tumor. I worked on different conditional knockout mice to investigate the cellular mechanisms. Similarly, I worked on disease induced mice to study its preventive and therapeutic approaches. Currently, I am working on Translational immunology as a Postdoctoral Researcher at Stanford University department of Immunology and Rheumatology. I focus on Epstein-Barr Virus, B cells and its relation with various autoimmune diseases.
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Danielle Mari Panelli
Instructor, Obstetrics & Gynecology - Maternal Fetal Medicine
BioDr. Danielle Panelli, MD, MS is an Instructor in Maternal–Fetal Medicine in the Department of Obstetrics and Gynecology at Stanford University School of Medicine. She completed Ob/Gyn residency training at Harvard (Brigham and Women’s Hospital/Mass General Hospital), and both fellowship training in Maternal–Fetal Medicine and a Masters Degree in Epidemiology and Clinical Research at Stanford.
Dr. Panelli is a clinician–scientist whose work bridges clinical and translational research to understand how stress and mental health shape pregnancy outcomes and postpartum recovery. Her research program focuses on psychobiologic markers of stress—including telomere dynamics and epigenetic aging—to advance precision medicine approaches for perinatal mental illness and pregnancy complications.
Clinically, she cares for routine and high-risk obstetric patients and integrates trauma-informed, evidence-based approaches into care delivery. She is committed to mentorship and education, serves as Director of Research for the Maternal–Fetal Medicine Fellowship, and contributes to national leadership and scholarship in perinatal mental health. -
Anil K. Panigrahi
Clinical Associate Professor, Anesthesiology, Perioperative and Pain Medicine
Clinical Associate Professor (By courtesy), PathologyBioAnil K. Panigrahi, MD, PhD, FASA is a Clinical Associate Professor in the Departments of Anesthesiology and, by courtesy, Pathology at Stanford University School of Medicine. Dual board-certified in Anesthesiology and Blood Banking/Transfusion Medicine, he maintains active clinical practice in both fields. He serves as Director of Patient Blood Management at Stanford Health Care, Chair of the Stanford Health Care Transfusion Committee, Medical Director of the Anesthesiology Perioperative Anemia Management Clinic, and Assistant Medical Director of the Stanford Health Care Transfusion Service. His academic and clinical leadership focuses on advancing perioperative blood management strategies to optimize outcomes in complex surgical patients.
A Phi Beta Kappa graduate of Duke University, Dr. Panigrahi received his M.D. and Ph.D. degrees from the University of Pennsylvania School of Medicine, where he was awarded the John G. Clark Prize for meritorious research. He completed residency training in Anesthesiology and fellowship in Blood Banking/Transfusion Medicine at Stanford University.
Dr. Panigrahi’s scholarly work spans immunology, transfusion safety, and patient blood management. He has authored numerous peer-reviewed publications, textbook chapters, including for Miller’s Anesthesia and the AABB Technical Manual, and national guidelines. He contributes nationally through service on multiple committees for the American Society of Anesthesiologists (ASA) and the Association for the Advancement of Blood and Biotherapies (AABB), and he is a frequent invited speaker at national and international meetings, including those of the ASA, AABB, and Society for the Advancement of Patient Blood Management (SABM). -
Heather Ryan Pankow
Life Science Rsch Prof 2, Psych/General Psychiatry and Psychology (Adult)
Current Role at StanfordLife Science Research Professional 2 in The Depression Research Clinic
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Timothy Pantoja
Lecturer
BioTimothy Pantoja is the Mellon Fellow of the Humanities at Stanford University and a Lecturer in the Department of African and African American Studies. Prior to coming to Stanford, he was the Medical Humanities Fellow at New York University where he taught courses on the ways the humanities rethinks ideas and practices of healing, recovery, and wholeness. His research explores the ways Black and Caribbean literature and art theorize reflection, doubt, and what it means to participate with the objects that mediate our encounters with each other and a shareable world. His current book project, Scenes of Reflection: Compelling Insinuations, Empathy, and Absorption, analyzes portrayals of reflection in black modernist art and literature alongside the aesthetic evolutions of empathy as a mode of perception. This book reveals how artists such as Henry Tanner, Zora Neale Hurston, Richard Bruce Nugent, and Claude McKay engaged contemporary aesthetic theories on empathy as kinesthesia and synesthesia to show the ways reflection is an act of relation and participation. The aim of this project is to show resonances and connections between these portrayals of reflection during the black modernist period with current aesthetic theories on haptic and synesthetic modes of beholding and reading in Black studies. He also holds a Master of Divinity from Harvard Divinity School which generated writings on the relation between literature and religion. His engagement with religion and art is leading to a second project, entitled, Yet Do I Marvel: Doubt, Curiosity, and Adolescence, which analyzes the ways African American and Caribbean literature, visual art, and film depict doubt as a catalyst for creativity and critique, opening new spaces to (re)consider the fraught intersections between Black religion and artistic expression.
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Lori D Panu
Sr. Program Manager, Clinical Research Operations, Med/Stanford Center for Clinical Research
Current Role at StanfordSr. Program Manager, Clinical Research Operations
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Alan C. Pao
Associate Professor of Medicine (Nephrology) and, by courtesy, of Urology
Current Research and Scholarly InterestsWe are broadly interested in how the kidneys control salt, water, and electrolyte homeostasis in the body. Our disease focus is on kidney stone disease. We use cultured kidney cells, transgenic mice, human plasma/urine samples, and electronic health record data to study the pathogenesis of kidney stone disease. Our therapeutic focus is on the development of small molecule compounds that can be used for kidney stone prevention.
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Antonello Paolino
Affiliate, Program-Iaccarino, G.
BioI am a Visiting Student Researcher at Stanford Mechanical Engineering, working on the PSAAP project under Prof. Gianluca Iaccarino's supervision.
I received my BSc (2018) and MSc (2021) in Aerospace Engineering from the University of Naples Federico II.
I am currently a PhD Student at the Italian Institute of Technology (IIT) in Genoa and the University of Naples Federico II under the supervision of Dr. Daniele Pucci and Prof. Renato Tognaccini. My PhD research focuses on the modeling and control of the aerodynamic forces acting on the jet-powered humanoid robot iRonCub using both classical and machine learning approaches. -
Lamprini Papargyri
Postdoctoral Scholar, Earth System Science
BioLamprini Papargyri is a postdoctoral scholar at Stanford University co-advised by Professor Steve Davis and Dr. Ken Caldeira. She earned her PhD in Civil and Environmental Engineering from the University of Cyprus, where she worked under the guidance of Professor Panos Papanastasiou to optimize the durability of materials used in photovoltaic systems. Her doctoral research employed advanced computational modeling using 3D finite element methods and XFEM to simulate stress, cracking, and degradation mechanisms in photovoltaic materials.
At Stanford, Lamprini’s research lies at the intersection of climate policy, economics, and equity. Her current work explores how economies with income inequality can optimally allocate resources between income redistribution and emissions abatement. Beyond research, she has led and contributed to multi-million-euro research initiatives across Europe and remains deeply interested in the societal and ethical dimensions of emerging technologies. Broadly, she is interested in developing integrated models that inform equitable and sustainable pathways for climate mitigation and economic development. -
Nilay Papila
Assistant Director, Technology Transfer for Defense, Precourt Institute for Energy
BioNilay Papila is an experienced senior program manager, currently working for the Technology Transfer for Defense program at Stanford University. With a strong background in research management, pre- and post-award services, university-industry cooperation, technology transfer, intellectual property, and technology commercialization, Nilay brings a wealth of expertise to her role.
Prior to joining Stanford, Nilay served as the Founding Director of the Technology Transfer Office at Ozyegin University in Istanbul, where she played a pivotal role in fostering innovation and collaboration. She also held positions as the Manager of the Project Development Office at Sabanci University and Associate Director of the Interdisciplinary Program Development Office at the University of Florida. Notably, she served as a national expert on the European Union 7th Framework Program (Marie Curie Actions) and as an expert/evaluator at the Technology Transfer Support Program Group at the Science and Technology Council of Turkey.
Nilay holds a Ph.D. in Aerospace Engineering from the University of Florida, which she earned in 2001, following her completion of B.S. and M.S. degrees in the Aerospace Engineering Department of the METU in Ankara in 1994 and 1997, respectively.
Recognized for her accomplishments, Nilay is a Zonta International Amelia Earhart Fellow (2000), an NCURA (National Council of Research Administration) Global Fellow at Stanford University (2018), and a certified Registered Technology Transfer Professional (RTTP) (2018). These accomplishments highlight her dedication to advancing research and innovation within academic and industry settings. -
Alma Parada
Head Librarian, Earth Sciences Library
BioAs the Earth and Environmental Sciences Librarian, I support the research and teaching of the Stanford Doerr School of Sustainability. I am responsible for selecting and managing the books, journals, and electronic resources of Branner Earth Sciences Library. I also provide reference services, serve as instructor for data analysis skills workshops, and manage the library’s newsletter and website.
![Bran[don] Papineau](https://profiles.stanford.edu/proxy/api/cap/profiles/247069/resources/profilephoto/350x350.1731824285281.jpg)
