Stanford University
Showing 181-190 of 4,866 Results
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Mehrdad Ayati
Adjunct Clinical Associate Professor, Medicine - Primary Care and Population Health
BioDr. Ayati completed his residency at UC Davis and his fellowship at Stanford University. During his residency at UC Davis, Dr. Ayati received the Award of Excellence in Clinical Teaching. Dr. Ayati worked at hospitals such as Lodi Memorial Hospital in Lodi, California, and as an Emergency Medicine Attending at Veteran Affairs in Palo Alto, California. Dr. Ayati worked as a Stanford Medical Director at Los Altos and Palo Alto Subacute and Rehabilitation centers and he is currently serving as a medical advisor for many Skilled Nursing facilities and also memory care units and assisted living facilities in Northen California. Dr. Ayati has a broad spectrum of practice and knowledge of general medicine and primary care in various settings, from office to Emergency room and acute and Sub-acute care. Dr. Ayati’s main areas of research and clinical focus are in the physiology of aging and on finding practical and yet innovative ways of addressing the wellbeing and needs of the population in any age category. Dr. Ayati is an advocate of his patient’s physical and mental health at any age in addition to disease management and prevention. Dr. Ayati is currently a member of the Ethnogeriatric and Quality and Policy Performance Committees of the Americal Geraitric Society. He also serves as a Community Health Advisor for Alzheimer Association, Northen California and Nevada Chapter. Dr. Ayati is the author of “Paths to Healthy Aging”. Dr. Ayati is also a guest educational speaker on several radio stations such as National Public Radio (NPR) and San Francisco’s KQED and international and national conferences. He also testified in the Senate of the US, Special Committee of Aging in 2018 to address the challenges of aging populations in the US.
Dr. Ayati strives to provide reliable information, effective strategies, and simple guidelines for patients of all ages to avoid or manage chronic diseases and to have a significantly better quality of life.
Dr. Ayati’s main focus and passion are in:
Raising awareness about Over Medication and Drug Cascade issues in the elderly population as well as highlighting prevention strategies
Helping patients better understand and voice their end of life care choices and medical intervention wishes
Bringing into focus the numerous social, economical, political and health challenges and hardship the elderly face in our society as well as finding solutions to address their needs
Being the voice of the elderly in finding innovative and yet practical solutions to promote their physical and mental health and well being -
Noel Ayoub, MD MBA
Clinical Assistant Professor, Otolaryngology (Head and Neck Surgery)
BioNoel Ayoub is a fellowship-trained rhinologist within the Stanford Health Care Division of Rhinology and Skull Base Surgery and Department of Otolaryngology - Head and Neck Surgery. After receiving his medical degree from Stanford University School of Medicine, he completed residency in Otolaryngology - Head and Neck Surgery at Stanford Health Care and fellowship in advanced Rhinology and Skull Base Surgery at Massachusetts Eye and Ear/Harvard Medical School. In addition to his medical training, Noel holds an MBA from Stanford University Graduate School of Business, where he also earned a Certificate in Public Management and Social Innovation.
Noel is a specialist in rhinology and skull base surgery and utilizes advanced endoscopic techniques to treat a variety of conditions, including complex revision sinus surgery, cerebrospinal fluid leaks, sinonasal and anterior skull base tumors, orbital tumors, and thyroid eye disease. His unique combination of medical and business acumen allows him to approach patient care and healthcare delivery with a comprehensive perspective.
His research spans healthcare innovation, health technology, hospital operations, and health systems leadership. He is particularly focused on leveraging technology to enhance patient care, reduce costs, and reshape the healthcare landscape. He is the co-founder of an international 501(c)(3) nonprofit organization, an initiative that demonstrates his commitment to expanding access to healthcare and leveraging technology to improve patient care globally. He serves on multiple hospital and national committees, including in the North American Skull Base Society, American Rhinologic Society, and American Academy of Otolaryngology-Head and Neck Surgery. -
Dan E. Azagury, MD, FACS
Associate Professor of Surgery (General Surgery)
Current Research and Scholarly Interests.
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Rosa Bacchetta
Professor (Research) of Pediatrics (Stem Cell Transplantation)
Current Research and Scholarly InterestsIn the coming years, I plan to further determine the genetic and immunological basis of diseases with autoimmunity or immune dysregulation in children. I believe that much can still be learned from the in depth mechanistic studies of pediatric autoimmune diseases. Genomic analysis of the patients' samples has become possible which may provide a rapid indication of altered target molecules. I plan to implement robust functional studies to define the consequences of these genetic abnormalities and bridge them to the patient's clinical phenotype.
Understanding functional consequences of gene mutations in single case/family first and then validating the molecular and cellular defects in other patients with similar phenotypes, will anticipate and complement cellular and gene therapy strategies.
For further information please visit the Bacchetta Lab website:
http://med.stanford.edu/bacchettalab.html -
Stephen A. Baccus
Professor of Neurobiology
Current Research and Scholarly InterestsWe study how the neural circuitry of the vertebrate retina encodes visual information and performs computations. To control and measure the retinal circuit, we present visual images while performing simultaneous two-photon imaging and multielectrode recording. We perturb the circuit as it operates using simultaneous intracellular current injection and multielectrode recording, and use the resulting large data sets to construct models of retinal computation.
