School of Medicine
Showing 351-400 of 12,884 Results
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David Anders
Director of Research, Rad/Molecular Imaging Program at Stanford
Current Role at StanfordDirector of the Cyclotron and Radiochemistry Facility
The CRF team is excited to be designing our second cyclotron facility where we will expand production into radiometals. -
Chad Anderson
Clinical Assistant Professor, Medicine - Primary Care and Population Health
BioChad Anderson is a Physician Assistant at Stanford ValleyCare and a Clinical Assistant Professor with the Stanford School of Medicine MSPA program. He is the Assistant Director of PA education at ValleyCare. He is dual credentialed as a Family Nurse Practitioner and a Physician Assistant. He completed his FNP/PA training at the Stanford School of Medicine and his graduate studies at A.T. Still University – Arizona School of Health Sciences. He is passionate about improving our patients hospital experience as well as educating our future providers.
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Jamie Anderson
Senior Research Process Manager, Institutional Official, School of Medicine - Research Management Group
Current Role at StanfordResearch Process Manager, Research Management Group - School of Medicine
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Kenton Anderson
Clinical Professor, Emergency Medicine
Current Research and Scholarly InterestsCardiopulmonary Resuscitation
Cardiac Arrest
Emergency Ultrasound -
Leah Anderson
Manager Access Services, School of Medicine - Lane Medical Library
Current Role at StanfordManager, Access Services
-- Manages Access Services, the public-facing department at Lane Library
-- Manages DocXpress Document Delivery Service
-- Manages access and storage of the library's physical collections -
Rodney U. Anderson, MD FACS
Professor (Clinical) of Urology, Emeritus
Current Research and Scholarly InterestsClinical Medical Research devoted to tertiary level application of treatment modalities for neurologic and functional disturbances of the genitourinary tract. Problems such as urinary incontinence, urinary retention, urinary flow dysfunction (BPH), impotence, and chronic pelvic pain syndromes are addressed. New medical devices and technology for treating these disorders are investigated
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Thomas Anthony ("Tony") Anderson
Clinical Professor, Anesthesiology, Perioperative and Pain Medicine
Current Research and Scholarly InterestsMy lab's research focuses on two areas:
1. Focused ultrasound for peripheral nervous system modulation- We are interested in the potential of focused ultrasound to modulate peripheral nerves and improve both acute and chronic pain.
2. Pediatric perioperative outcomes- Our goals are to understand A) how various perioperative pain management strategies affect outcomes in children who undergo surgery and B) whether disparities in the perioperative pain management of children occur. -
Kazuo Ando
Clinical Associate Professor, Anesthesiology, Perioperative and Pain Medicine
BioBorn and raised in Japan, Dr. Ando received an MD-PhD degree from the Aichi Medical University. After anesthesia training, Dr. Ando came to Stanford to pursue clinical and basic research experience. During his postdoctoral fellowship in Dr. Gaudilliere's laboratory, Dr. Ando worked on publication of “A next-generation single-cell technology (mass cytometry) to study the feto-maternal immune system,” a project designed to evaluate the immune response associated with preterm birth. In addition, Dr. Ando performs research in Obstetric Anesthesia, such as respiratory monitoring after cesarean sections and labor satisfaction, to obtain clinical research experience and to understand the key differences in medicine between the United States and Japan.
After his postdoctoral fellowship, Dr. Ando has maintained his status as a researcher in Dr. Gaudilliere's laboratory, continuing work relating to pregnancy and preterm birth.
Dr. Ando divides his efforts between laboratory research and the clinic. -
Dev Andra
Affiliate, Pediatrics - Adolescent Medicine
BioI'm a rising sophomore at Monta Vista High School and a member of the Stanford REACH Lab Youth Action Board. As part of the Communications Subcommittee, I contribute to marketing and social media outreach for YAB initiatives and am currently co-leading the launch of Reaching Beyond, a new podcast by the REACH Lab YAB. In my free time, I enjoy coding, building and tinkering with AI projects, playing guitar, and competing in badminton.
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Katrin Andreasson
Edward F. and Irene Thiele Pimley Professor of Neurology and Neurological Sciences
Current Research and Scholarly InterestsOur research focuses on understanding how immune responses initiate and accelerate synaptic and neuronal injury in age-related neurodegeneration, including models of Alzheimer's disease and Parkinson's disease. We also focus on the role of immune responses in aggravating brain injury in models of stroke. Our goal is the identification of critical immune pathways that function in neurologic disorders and that can be targeted to elicit disease modifying effects.
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Jason Andrews
Professor of Medicine (Infectious Diseases) and, by courtesy, of Epidemology
Current Research and Scholarly InterestsOur laboratory aims to develop and test innovative approaches to the diagnosis, treatment and control of infectious diseases in resource-limited settings. We draw upon multiple fields including mathematical modeling, microbial genetics, field epidemiology, statistical inference and biodesign to work on challenging problems in infectious diseases, with an emphasis on tuberculosis and tropical diseases.
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Lay Teng Ang
Assistant Professor of Urology
BioAs a stem cell biologist, I aim to understand the mechanisms through which stem cells differentiate into progressively specialized cell types and to harness this knowledge to artificially generate pure populations of desired cell types from stem cells. My work over the past ten years has centered on pluripotent stem cells (PSCs, which include embryonic and pluripotent stem cells), which can generate any of the hundreds of diverse cell types in the body. However, it has been notoriously challenging to guide PSCs to differentiate into a pure population of a given cell type. Current differentiation strategies typically generate heterogeneous cell populations unsuitable for basic research or clinical applications. To address this challenge, I mapped the cascade of branching lineage choices through which PSCs differentiate into various endodermal and mesodermal cell types. I then developed effective methods to differentiate PSCs into specific lineages by providing the extracellular signal(s) that specify a given lineage while inhibiting the signals that induce the alternate fate(s), enabling the generation of highly-pure human heart and bone (Loh & Chen et al., 2016; Cell) and liver (Loh & Ang et al., 2014; Cell Stem Cell) from PSCs. My laboratory currently focuses on differentiating human PSCs into liver progenitors (Ang et al., 2018; Cell Reports) and blood vessel cells (Ang et al., 2022; Cell).
I earned my Ph.D. jointly from the University of Cambridge and A*STAR and was subsequently appointed as a Research Fellow and, later, a Senior Research Fellow at the Genome Institute of Singapore. I then moved my laboratory to Stanford University as a Siebel Investigator and Instructor at the Stanford Institute for Stem Cell Biology & Regenerative Medicine. In 2024, I am jointly appointed in the Stanford Department of Urology and Stem Cell Institute as an Assistant Professor. My laboratory has been supported by the Stanford Maternal & Child Health Research Institute, California Institute for Regenerative Medicine, Siebel Investigatorship, Additional Ventures, and other sources. -
Michael Angelo
Associate Professor of Pathology
BioMichael Angelo, MD PhD is a board-certified pathologist and assistant professor in the department of Pathology at Stanford University School of Medicine. Dr. Angelo is a leader in high dimensional imaging with expertise in tissue homeostasis, tumor immunology, and infectious disease. His lab has pioneered the construction and development of Multiplexed Ion Beam Imaging by time of flight (MIBI-TOF). MIBI-TOF uses secondary ion mass spectrometry and metal-tagged antibodies to achieve rapid, simultaneous imaging of dozens of proteins at subcellular resolution. In recognition of this achievement, Dr. Angelo received the NIH Director’s Early Independence award in 2014. His lab has since used this novel technology to discover previously unknown rule sets governing the spatial organization and cellular composition of immune, stromal, and tumor cells within the tumor microenvironment in triple negative breast cancer. These findings were found to be predictive of single cell expression of several immunotherapy drug targets and of 10-year overall survival. This effort has led to ongoing work aimed at elucidating structural mechanisms in the TME that promote recruitment of cancer associated fibroblasts, tumor associated macrophages, and extracellular matrix remodeling. Dr. Angelo is the recipient of the 2020 DOD Era of Hope Award and a principal investigator on multiple extramural awards from the National Cancer Institute, Breast Cancer Research Foundation, Parker Institute for Cancer Immunotherapy, the Bill and Melinda Gates Foundation, and the Human Biomolecular Atlas (HuBMAP) initiative.
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Timothy Angelotti MD, PhD
Clinical Associate Professor, Anesthesiology, Perioperative and Pain Medicine
Current Research and Scholarly InterestsMy research efforts are focused on investigating the pharmacological and physiological interface of the autonomic nervous system with effector organs. Utilizing molecular, cellular, and electrophysiological techniques, we are examining alpha2 adrenergic receptor function in cultured sympathetic neurons. Future research aims will be directed toward understanding neurotransmitter release in general.
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Martin S. Angst
Professor of Anesthesiology, Perioperative and Pain Medicine (MSD)
Current Research and Scholarly InterestsOur laboratory studies biological and clinical determinants of human resilience using surgery as an injury model.
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Justin P. Annes M.D., Ph.D.
Associate Professor of Medicine (Endocrinology)
Current Research and Scholarly InterestsThe ANNES LABORATORY of Molecular Endocrinology: Leveraging Chemical Biology to Treat Endocrine Disorders
DIABETES
The prevalence of diabetes is increasing at a staggering rate. By the year 2050 an astounding 25% of Americans will be diabetic. The goal of my research is to uncover therapeutic strategies to stymie the ensuing diabetes epidemic. To achieve this goal we have developed a variety of innovate experimental approaches to uncover novel approaches to curing diabetes.
(1) Beta-Cell Regeneration: Diabetes results from either an absolute or relative deficiency in insulin production. Our therapeutic strategy is to stimulate the regeneration of insulin-producing beta-cells to enhance an individual’s insulin secretion capacity. We have developed a unique high-throughput chemical screening platform which we use to identify small molecules that promote beta-cell growth. This work has led to the identification of key molecular pathways (therapeutic targets) and candidate drugs that promote the growth and regeneration of islet beta-cells. Our goal is to utilize these discoveries to treat and prevent diabetes.
(2) The Metabolic Syndrome: A major cause of the diabetes epidemic is the rise in obesity which leads to a cluster of diabetes- and cardiovascular disease-related metabolic abnormalities that shorten life expectancy. These physiologic aberrations are collectively termed the Metabolic Syndrome (MS). My laboratory has developed an original in vivo screening platform t to identify novel hormones that influence the behaviors (excess caloric consumption, deficient exercise and disrupted sleep-wake cycles) and the metabolic abnormalities caused by obesity. We aim to manipulate these hormone levels to prevent the development and detrimental consequences of the MS.
HEREDIATY PARAGAGLIOMA SYNDROME
The Hereditary Paraganglioma Syndrome (hPGL) is a rare genetic cancer syndrome that is most commonly caused by a defect in mitochondrial metabolism. Our goal is to understand how altered cellular metabolism leads to the development of cancer. Although hPGL is uncommon, it serves as an excellent model for the abnormal metabolic behavior displayed by nearly all cancers. Our goal is to develop novel therapeutic strategies that target the abnormal behavior of cancer cells. In the laboratory we have developed hPGL mouse models and use high throughput chemical screening to identify the therapeutic susceptibilities that result from the abnormal metabolic behavior of cancer cells.
As a physician scientist trained in clinical genetics I have developed expertise in hereditary endocrine disorders and devoted my efforts to treating families affected by the hPGL syndrome. By leveraging our laboratory expertise in the hPGL syndrome, our care for individuals who have inherited the hPGL syndrome is at the forefront of medicine. Our goal is to translate our laboratory discoveries to the treatment of affected families. -
Arash Anoshiravani
Clinical Professor, Pediatrics - Adolescent Medicine
Current Research and Scholarly InterestsResearch interests include high-risk youth, adolescent health services, and the juvenile justice system.
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Alexandra Sasha Anronikov
Life Science Research Professional 2, Multispecialty Anesthesiology
Current Role at StanfordResearcher in the Gaudillière Lab, Department of Anesthesia. Currently conducting CyTOF experiments, clinical research coordination, sample processing, and data analysis to integrate clinical findings with experimental results and advance understanding of immune adaptation. Current studies look at how the human immune system responds to physiological stressors like traumatic injury, stroke, pregnancy and pregnancy-related complications.
