School of Medicine
Showing 901-920 of 1,299 Results
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Elsa Sola
Instructor, Medicine - Gastroenterology & Hepatology
Current Research and Scholarly InterestsCirrhosis is a common condition and is associated with recurrent complications. Therapeutic options are limited and the management of complications has been similar for the past decades. The only definitive treatment is liver transplantation; however, this is limited by the number of organs and the risk of complications on the waiting list. Patients with cirrhosis present with profound immune disturbances, but to date there are no therapeutic strategies to restore immune responses.
Dr Sola’s research interest if focused on understanding the mechanisms of immune dysfunction in cirrhosis to guide the development of future therapeutic options. With her research background in Hepatology and Immunology, Dr Sola is using novel techniques to improve the understanding of cirrhosis progression. She is leveraging her skills in human organoids to develop cirrhosis-derived immune organoids as a platform for investigating mechanisms of immune dysfunction and screening new therapeutic options. -
Olav Solgaard
Audrey S. Hancock Professor in the School of Engineering
BioThe Solgaard group focus on design and fabrication of nano-photonics and micro-optical systems. We combine photonic crystals, optical meta-materials, silicon photonics, and MEMS, to create efficient and reliable systems for communication, sensing, imaging, and optical manipulation.
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Ethan Solomon
Instructor, Psychiatry and Behavioral Sciences
BioDr. Solomon is an Instructor in the Department and Psychiatry and Behavioral Sciences and a member of the Stanford Precision Neurotherapeutics Lab. He earned his MD and PhD in Bioengineering through the Medical Scientist Training Program at the University of Pennsylvania, and completed residency training in psychiatry at the Stanford School of Medicine. His research focuses on electrophysiological techniques (stereo-EEG/ECoG, scalp EEG) and brain stimulation technologies (direct electrical stimulation, deep brain stimulation, and transcranial magnetic stimulation) to understand cognitive and perceptual processes in psychiatric illness. Dr. Solomon is a recipient of an NIMH K99 grant to study the use of theta burst stimulation in hippocampal-cortical networks of patients with schizophrenia.
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Natalie Solomon
Clinical Associate Professor, Psychiatry and Behavioral Sciences
BioDr. Solomon is a licensed psychologist, board certified in behavioral sleep medicine, and a clinical associate professor in the Department of Psychiatry and Behavioral Sciences at Stanford University School of Medicine. Dr. Solomon conducts research as a member of the Computational Psychiatry, Neuroimaging, Sleep Lab (CoPsyN Sleep Lab) and treats patients in the Sleep Health and Insomnia Program (SHIP). Dr. Solomon specializes in the study and treatment of sleep disorders. Her clinical interests include the intersection of sleep difficulties with overall quality of life and women’s health. Dr. Solomon enjoys treating a variety of sleep difficulties, including insomnia, hypnotic dependence, circadian rhythm disturbances, NREM parasomnias, and nightmares. Dr. Solomon additionally consults, teaches undergrads, graduate students, and continuing studies, supervises postdoctoral fellows, and trains providers to deliver insomnia treatment.
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David Solow-Cordero
Associate Director, High-Throughput Screening, Innovative Medicines Accelerator (IMA)
Current Role at StanfordAssociate Director, High-Throughput Screening Knowledge Center, , Sarafan ChEM-H and Innovative Medicine Accelerator (IMA)
This high-throughput screening (HTS) laboratory allows Stanford researchers and others to discover novel modulators of targets that otherwise would not be practical in industry. The center incorporates instrumentation (purchased with NCRR NIH Instrumentation grant numbers S10RR019513, S10RR026338, S10OD025004, and S10OD026899), databases, compound libraries, and personnel whose previous sole domains were in industry.
Among our instrumentation are a fully automated Molecular Devices ImageXpress Micro Confocal High-Content fluorescence microplate imager, with live cell, fluidics and phase contrast options, an Echo 655 Acoustic Dispense, a Thermo integrated HTS robotic system, a Caliper Life Sciences SciClone ALH3000 and an Agilent Bravo microplate liquid handler, and the BMG Clariostarplus, Tecan Infinite M1000 and M1000 PRO and Molecular Devices FlexStation II 384 fluorescence, luminescence and absorbance multimode microplate readers.
We have over 180,000 small molecules for compound screens, 15,000 cDNAs for genomic screens, and whole genome siRNA libraries targeting the human genome (the siARRAY whole human genome siRNA library from Dharmacon, targeting 21,000 human genes) and the mouse genome (Qiagen mouse whole genome siRNA set V1 against 22,124 genes).
The HTSKC main screening lab is located in ChEM-H W008, the cell-based assay development lab is located in CCSR Room 0133-North Wing, between the Transgenic Mouse Facility, and the Stanford Genomics Facility. -
Shamsi Soltani
Ph.D. Student in Epidemiology and Clinical Research, admitted Autumn 2021
BioShamsi Soltani is a PhD candidate in the Department of Epidemiology and Population Health and a trainee with the Center for Population Health Sciences, both in the Stanford School of Medicine. For three years, she was a fellow in the Training in Advanced Data Analytics for Behavioral and Social Sciences (TADA-BSSR) program, supervised by Drs. Abby King and Lorene Nelson. Her dissertation work revolves around modifiable risk factors for suicide in LGBTQ+ populations and is mentored by Dr. Mitchell Lunn.
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Ivan Soltesz
James R. Doty Professor of Neurosurgery and Neurosciences
BioIvan Soltesz received his doctorate in Budapest and conducted postdoctoral research at universities at Oxford, London, Stanford and Dallas. He established his laboratory at the University of California, Irvine, in 1995. He became full Professor in 2003, and served as department Chair from 2006 to July 2015. He returned to Stanford in 2015 as the James R. Doty Professor of Neurosurgery and Neurosciences at Stanford University School of Medicine. His major research interest is focused on neuronal microcircuits, network oscillations, cannabinoid signaling and the mechanistic bases of circuit dysfunction in epilepsy.
His laboratory employs a combination of closely integrated experimental and theoretical techniques, including closed-loop in vivo optogenetics, paired patch clamp recordings, in vivo electrophysiological recordings from identified interneurons in awake mice, 2-photon imaging, machine learning-aided 3D video analysis of behavior, video-EEG recordings, behavioral approaches, and large-scale computational modeling methods using supercomputers. He is the author of a book on GABAergic microcircuits (Diversity in the Neuronal Machine, Oxford University Press), and editor of a book on Computational Neuroscience in Epilepsy (Academic Press/Elsevier). He co-founded the first Gordon Research Conference on the Mechanisms of neuronal synchronization and epilepsy, and taught for five years in the Ion Channels Course at Cold Springs Harbor. He has over 30 years of research experience, with over 20 years as a faculty involved in the training of graduate students (total of 16, 6 of them MD/PhDs) and postdoctoral fellows (20), many of whom received fellowship awards, K99 grants, joined prestigious residency programs and became independent faculty.
