School of Medicine
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Oscar J. Abilez
Instructor, Medicine - Cardiovascular Medicine
Current Research and Scholarly Interests Bioengineering, biophysical control of cardiovascular development, pluripotent stem cell biology, optogenetics, electrophysiology, cell mechanics, directed cellular evolution, multiscale engineering, microfluidics, computational biology
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.
Lusine Aghajanova, M.D., Ph.D.
Clinical Assistant Professor, Obstetrics & Gynecology - Reproductive Endocrinology & Infertility
Bio Dr. Aghajanova received her medical degree from Yerevan State Medical University in Armenia, followed by residency in obstetrics and gynecology, then completed PhD in Human Implantation at Karolinska Institute, Stockholm, Sweden, followed with embryology training at Karolinska Institute, with an Internship in Austria.
Subsequently, Dr. Aghajanova completed residency in obstetrics and gynecology at Baylor College of Medicine, Houston, Texas and at UC San Francisco with subsequent Reproductive Endocrinology and Infertility fellowship training at UC San Francisco. She is a respected researcher in the field of endometrial receptivity, implantation and endometriosis.
Dr. Aghajanova speaks five (5) languages and is very well published with over 50 peer-reviewed publications as well as numerous other oral and poster presentations and is a professional peer-reviewer for over 12 journals.
Dr.Aghajanova enjoys spending time with her husband and children, and traveling.
Assistant Professor of Radiology (Neuroradiology) at the Stanford University Medical Center and, by courtesy, of Materials Science and Engineering and of Psychiatry and Behavioral Sciences
Current Research and Scholarly Interests Our goal is to develop and clinically implement new technologies for high-precision and noninvasive intervention upon the nervous system. Every few millimeters of the brain is functionally distinct, and different parts of the brain may have counteracting responses to therapy. To better match our therapies to neuroscience, we develop techniques that allow intervention upon only the right part of the nervous system at the right time, using technologies like focused ultrasound and nanotechnology.
Steven R. Alexander, MD
Professor of Pediatrics (Nephrology) at the Lucile Salter Packard Children's Hospital
Current Research and Scholarly Interests Dialysis, kidney transplantation, continuous renal replacement therapy in pediatric patients; chronic kidney disease in pediatric patients.
Ash A. Alizadeh, MD/PhD
Associate Professor of Medicine (Oncology)
Current Research and Scholarly Interests My research is focused on attaining a better understanding of the initiation, maintenance, and progression of tumors, and their response to current therapies toward improving future treatment strategies. In this effort, I employ tools from functional genomics, computational biology, molecular genetics, and mouse models.
Clinically, I specialize in the care of patients with lymphomas, working on translating our findings in prospective cancer clinical trials.