Wu Tsai Neurosciences Institute
Showing 431-440 of 645 Results
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Karen J. Parker, PhD
Truong-Tan Broadcom Endowed Professor and Professor, by courtesy, of Comparative Medicine
Current Research and Scholarly InterestsThe Parker Lab conducts research on the biology of social functioning in monkeys, typically developing humans, and patients with social difficulties.
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Sonia Partap
Clinical Professor, Pediatric Neurology
Clinical Professor (By courtesy), NeurosurgeryCurrent Research and Scholarly InterestsMy research interests involve the epidemiology, treatment and diagnosis of pediatric and young adult brain tumors. I am also interested in long-term neurologic effects and designing clinical trials to treat brain and spinal cord tumors.
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Josef Parvizi, MD, PhD
Professor of Neurology and Neurological Sciences (Adult Neurology) and, by courtesy, of Neurosurgery
BioDr. Parvizi completed his medical internship at Mayo Clinic, neurology training at Harvard, and subspecialty training in clinical neurophysiology and epilepsy at UCLA before joining the Department of Neurology and Neurological Sciences at Stanford in 2007. Dr. Parvizi directs the Stanford Program for Medication Resistant Epilepsies and specializes in surgical treatments of intractable focal epilepsies. Dr. Parvizi is the principal investigator in the Laboratory of Behavioral and Cognitive Neuroscience, where he leads a team of investigators to study the human brain. http://med.stanford.edu/parvizi-lab.html.
Epilepsy patient story: https://www.youtube.com/watch?v=HXy-gXg0t94&t=3s -
Anca M. Pasca, MD
Assistant Professor of Pediatrics
On Partial Leave from 01/05/2026 To 04/19/2026Current Research and Scholarly InterestsThe research focus of the lab is to understand molecular mechanisms underlying neurodevelopmental disorders associated with premature birth, neonatal and fetal brain injury with the long-term goal of translating the lab’s findings into therapeutics. The research team employs a multidisciplinary approach involving genetics, molecular and developmental neurobiology, animal models and neural cells differentiated from patient-derived induced pluripotent stem (iPS) cells. In particular, the lab is using a powerful 3D human brain-region specific organoid system developed at Stanford (Nature Methods, 2015; Nature Protocols, 2018) to ask questions about brain injury during development.
https://www.neopascalab.org/ -
Sergiu P. Pasca
Kenneth T. Norris, Jr. Professor of Psychiatry and Behavioral Sciences and Bonnie Uytengsu and Family Director of the Stanford Brain Organogenesis Program
Current Research and Scholarly InterestsA critical challenge in understanding the intricate programs underlying development, assembly and dysfunction of the human brain is the lack of direct access to intact, functioning human brain tissue for detailed investigation by imaging, recording, and stimulation.
To address this, we are developing bottom-up approaches to generate and assemble, from multi-cellular components, human neural circuits in vitro and in vivo.
We introduced the use of instructive signals for deriving from human pluripotent stem cells self-organizing 3D cellular structures named brain region-specific spheroids/organoids. We demonstrated that these cultures, such as the ones resembling the cerebral cortex, can be reliably derived across many lines and experiments, contain synaptically connected neurons and non-reactive astrocytes, and can be used to gain mechanistic insights into genetic and environmental brain disorders. Moreover, when maintained as long-term cultures, they recapitulate an intrinsic program of maturation that progresses towards postnatal stages.
We also pioneered a modular system to integrate 3D brain region-specific organoids and study human neuronal migration and neural circuit formation in functional preparations that we named assembloids. We have actively applied these models in combination with studies in long-term ex vivo brain preparations to acquire a deeper understanding of human physiology, evolution and disease mechanisms.
We have carved a unique research program that combines rigorous in vivo and in vitro neuroscience, stem cell and molecular biology approaches to construct and deconstruct previously inaccessible stages of human brain development and function in health and disease.
We believe science is a community effort, and accordingly, we have been advancing the field by broadly and openly sharing our technologies with numerous laboratories around the world and organizing the primary research conference and the training courses in the area of cellular models of the human brain. -
Chirag Patel, MD, PhD
Member, Cardiovascular Institute
Current Research and Scholarly InterestsNeuro-oncology, Clinical Trials, Tumor Treating Fields (TTFields), Molecular/PET Imaging, Neuroimaging, Immunotherapy, Big Data Analysis
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Zara M. Patel, MD
Professor of Otolaryngology - Head & Neck Surgery (OHNS) and, by courtesy, of Neurosurgery
Current Research and Scholarly InterestsCurrently performing research studies in Smell and Taste Disorders,Artificial Intelligence in Rhinology, Chronic Sinusitis and Endoscopic Sinus Surgery, Endoscopic Skull Base Surgery.
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Margot Paul
Clinical Assistant Professor, Psychiatry and Behavioral Sciences
BioDr. Paul is a Clinical Assistant Professor in the Department of Psychiatry and Behavioral Sciences. She received her undergraduate degree from Tulane University where she graduated magna cum laude with departmental honors in psychology. She then received a master of science degree in behavioral health psychology the following year, after partaking in the 4+1 master's program. She graduated with her doctor of psychology degree from the PGSP-Stanford Psy.D. Consortium, where she won the award for Outstanding Overall Student (2021). She completed her clinical psychology doctoral internship at the Sepulveda VA in Los Angeles and her postdoctoral fellowship in the Department of Psychiatry and Behavioral Sciences at Stanford School of Medicine.
During her postdoctoral year she continued her research on using virtual reality (VR) as a method of engaging in behavioral activation for individuals with depression. Dr. Paul began her VR work in 2017 after joining Dr. Kim Bullock’s Virtual Reality-Immersive Technology Clinic & Laboratory in the Department of Psychiatry & Behavioral Sciences at Stanford School of Medicine. Dr. Paul won the Cheryl Koopman Dissertation of the Year Award for designing and implementing a feasibility study and three-arm pilot randomized controlled trial to examine the feasibility of using a VR headset as a way to administer behavioral activation therapy for participants with a diagnosis of major depressive disorder. She presented her past and ongoing research findings as a speaker at Shift Medical 2021: Virtual Medical XR Congress and Expo (2021), Stanford Psychiatry Grand Rounds (2022), IVRHA’s 7th Annual Virtual Reality and Healthcare Global Symposium (2023), VMed23 (2023), ADAA (2023), and CYPSY26 (2023). Dr. Paul has worked and consulted with VR companies and local Bay Area startups in the technology and mental health space. She has published on her virtual reality work.
Clinically, she is interested in working with adults with anxiety and mood disorders, interpersonal difficulties, health-related difficulties, and/or perfectionistic tendencies. Dr. Paul has experience working with high-performance individuals, such as healthcare providers and student athletes. She practices using predominantly cognitive behavioral and dialectical behavioral therapies, but integrates various skills depending on the presentation and need of each unique individual. -
John M. Pauly
Reid Weaver Dennis Professor
BioInterests include medical imaging generally, and magnetic resonance imaging (MRI) in particular. Current efforts are focused on medical applications of MRI where real-time interactive imaging is important. Two examples are cardiac imaging, and the interactive guidance of interventional procedures. Specific interests include rapid methods for the excitation and acquisition of the MR signal, and the reconstruction of images from the data acquired using these approaches.
