School of Medicine
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Oliver O. Aalami, MD
Clinical Associate Professor, Surgery - Vascular Surgery
Current Research and Scholarly Interests We launched a national precision medicine PAD trial called, VascTrac (http://vasctrac.stanford.edu/). This trial is mobile phone based and leverages Apple's ResearchKit Platform to monitor a patient's activity both pre- and post-intervention. We are validating mobile phone surveillance for PAD patients and are currently enrolling.
Alistair Aaronson, MD
Adjunct Clinical Assistant Professor, Medicine
Bio Courses Taught through SHIELD (Stanford Healthcare Innovations and Experiential Learning Directive):
A Patient Centered Exploration of Health and the Health Care System
INDE 290B, INDE 290C, PAS 280B, PAS 280C
This elective course for first year medical students explores challenges that patients face regarding the management of optimal health in a complex health care system. Specific topics include national healthcare reform, health economics and financing, social determinants of health, medication reconciliation, transitions of care, and the hospital discharge process.
Sumaira Z. Aasi, MD
Clinical Professor, Dermatology
Current Research and Scholarly Interests High risk squamous cell carcinoma; frozen histopathology; reconstructive surgery.
Clinical Assistant Professor, Medicine - Cardiovascular Medicine
Bio Dr. Fahim Abbasi specializes in diagnosis and treatment of prediabetes and insulin resistance. Dr. Abbasi has a special interest in prevention of diabetes and cardiovascular disease through lifestyle modifications.
Mohamed Abdelwahab MD MS
Clinical Instructor, Otolaryngology - Head & Neck Surgery Divisions
Bio Dr Abdelwahab is currently a Clinical Instructor in the Sleep Surgery Division, Department of Otolaryngology - Head and Neck Surgery at Stanford. His previous academic work in the department has focused on nasal and facial skeletal surgery in the division of Facial Plastic and Reconstructive Surgery. His previous clinical training included dual training in maxillofacial surgery and rhinology.
Oscar J. Abilez
Instructor, Medicine - Cardiovascular Medicine
Current Research and Scholarly Interests Dr. Abilez' interests are aimed at elucidating how various biophysical and biochemical perturbations regulate early cardiovascular development across time and length scales that span several orders of magnitude, using human pluripotent stem cells as a model system.
Clinical Associate Professor, Anesthesiology, Perioperative and Pain Medicine
Bio Gillian Abir graduated from Glasgow University (UK) in 1998. After initially undertaking surgical residency and emergency medicine residency, she changed to anesthesiology and completed her residency training in Glasgow and Sheffield (UK). Following this she undertook an obstetric anesthesia fellowship-equivalent at Stanford University School of Medicine and is currently a Clinical Associate Professor.
Gillian is the Clinical Director for the division of obstetric anesthesiology and the residency program coordinator for obstetric anesthesiology.
Gillian has published several manuscripts and has contributed chapters to five books, and is the current co-editor of the obstetric anesthesia section of Anesthesia Tutorial of the Week, World Federation of Societies of Anaesthesiologists (www.wfsahq.org/resources/anaesthesia-tutorial-of-the-week).
Gillian is a member of the multidisciplinary obstetric simulation team which carries out regular in-situ drills. She is also a member of the obstetric disaster preparedness committee and labor and delivery patient safety committee. She is a current member of the patient safety and international outreach committees at SOAP.
Gillian also has an interest in global health and regularly volunteers with Kybele Inc. (www.kybeleworldwide.org) teaching obstetric anesthesia.
Elias Aboujaoude, MD, MA
Clinical Professor, Psychiatry and Behavioral Sciences
Bio Dr. Aboujaoude is a Clinical Professor, researcher and writer at Stanford University's Department of Psychiatry, where he is Chief of the Anxiety Disorders Section and Director of the OCD Clinic and the Impulse Control Disorders Clinic. Besides the compulsivity-impulsivity spectrum, his work has focused on the intersection of technology and psychology, with an emphasis on the problematic use of Internet-related technologies, mental health in a post-privacy world, and the potential for telemedicine interventions such as virtual reality and video-based therapy to increase access to care and advance global health. His books include "Virtually You: The Dangerous Powers of the e-Personality" and "Mental Heath in the Digital Age: Grave Dangers, Great Promise". Dr. Aboujaoude also teaches psychology on the main Stanford campus and at UC Berkeley. Scholarly and media platforms that have featured his work include The New York Times, The Wall Street Journal, The Washington Post, Congressional Quarterly, The Harvard Business Review, The Chronicle of Higher Education, BBC, PBS, and CNN.
Daniel Arthur Abrams
Clinical Assistant Professor, Psychiatry and Behavioral Sciences
Current Research and Scholarly Interests Autism spectrum disorders (ASD) are among the most pervasive neurodevelopmental disorders and are characterized by significant deficits in social communication. A common observation in children with ASD is that affected individuals often ?tune out? from social interactions, which likely impacts the development of social, communication, and language skills. My primary research goals are to understand why children with ASD often tune out from the social world and how this impacts social skill and brain development, and to identify remediation strategies that motivate children with ASD to engage in social interactions. The theoretical framework that guides my work is that social impairments in ASD stem from a primary deficit in identifying social stimuli, such as human voices and faces, as rewarding and salient stimuli, thereby precluding children with ASD from engaging with these stimuli.
My program of research has provided important information regarding the brain circuits underlying social deficits in ASD. Importantly, these findings have consistently implicated key structures of the brain?s reward and salience processing systems, and support the hypothesis that impaired reward attribution to social stimuli is a critical aspect of social difficulties in ASD. The first study produced by this program of research was published in the Proceedings of the National Academy of Sciences and showed that children with ASD have weak brain connectivity between voice processing regions of cortex and the distributed reward circuit and amygdala. Moreover, the strength of these speech-reward brain connections predicted social communication abilities in these children. A second study, which was recently published in eLife, examined neural processing of mother?s voice, a biologically salient and implicitly rewarding sound which is associated with cognitive and social development, in children with ASD. Results from this study identified a relationship between social communication abilities in children with ASD and brain activation in reward and salience processing regions during mother?s voice processing. A third study, published in Proceedings of the National Academy of Sciences, showed that mother?s voice activates an extended voice processing network, including reward and salience processing regions, in typically developing children. Moreover, the strength of brain connectivity between voice-selective and reward and salience processing regions predicted social communication abilities in these neurotypical children. Together, results provide novel support for the hypothesis that deficits in representing the reward value of social stimuli, including the human voice, impede children with ASD from actively engaging with these stimuli and consequently impair social skill development.
My future research will leverage these findings by examining several important questions related to social information processing in children with ASD. First, we aim to study longitudinal development of social brain circuitry in minimally verbal children with ASD, a severely affected subpopulation that has been vastly underrepresented in the ASD literature. Second, we aim to examine the efficacy of naturalistic developmental behavioral interventions, such as Pivotal Response Treatment, for children with ASD and their relation to changes in social brain and reward circuitry. Third, we aim to examine distinct neural profiles in female children with ASD who, on average, have better social communication abilities compared to their male counterparts.
Geoffrey Abrams, MD
Assistant Professor of Orthopaedic Surgery at the Stanford University Medical Center
Current Research and Scholarly Interests Dr. Abrams' research is focused on elucidating the pathobiology behind tendinoapthy and developing new treatment modalities for the disease. Specifically, his team is studying the role of micro-RNA as it relates to chronic inflammation and stem cell differentiation in the development and perpetuation of chronic tendinopathy.
Marwa Abu El Haija
Clinical Assistant Professor, Pediatrics - Gastroenterology
Bio I am a pediatric gastroenterologist with clinical and research interest in childhood obesity. I believe that each patient is unique in their disease and background, that is why they deserve to be approached in an individualized way. I aspire to discover what's unknown about the pathophysiologic causes of obesity, and the mechanisms of which treatments work. My clinical and research interests in pediatric obesity found home within Stanford's distinctive position academically, medically and geographically.
Assistant Professor of Chemical Engineering and, by courtesy, of Genetics
Bio The Abu-Remaileh Lab is interested in identifying novel pathways that enable cellular and organismal adaptation to metabolic stress and changes in environmental conditions. We also study how these pathways go awry in human diseases such as cancer, neurodegeneration and metabolic syndrome, in order to engineer new therapeutic modalities.
To address these questions, our lab uses a multidisciplinary approach to study the biochemical functions of the lysosome in vitro and in vivo. Lysosomes are membrane-bound compartments that degrade macromolecules and clear damaged organelles to enable cellular adaptation to various metabolic states. Lysosomal function is critical for organismal homeostasis?mutations in genes encoding lysosomal proteins cause severe human disorders known as lysosomal storage diseases, and lysosome dysfunction is implicated in age-associated diseases including cancer, neurodegeneration and metabolic syndrome.
By developing novel tools and harnessing the power of metabolomics, proteomics and functional genomics, our lab will define 1) how the lysosome communicates with other cellular compartments to fulfill the metabolic demands of the cell under various metabolic states, 2) and how its dysfunction leads to rare and common human diseases. Using insights from our research, we will engineer novel therapies to modulate the pathways that govern human disease.