School of Medicine
Showing 481-490 of 626 Results
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Kacper Rogala
Assistant Professor of Structural Biology and of Chemical and Systems Biology
Current Research and Scholarly InterestsOur team is fascinated by how cells make growth decisions — to grow or not to grow. In order to grow, cells require nutrients, and we are unraveling how cells use specialized protein sensors and transporters to sense and traffic nutrients in between various compartments. We use approaches from structural biology, chemical biology, biophysics, biochemistry, and cell biology — to reveal the mechanisms of basic biological processes, and we develop chemical probes that modulate them.
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Rajat Rohatgi
Professor of Biochemistry and of Medicine (Oncology)
Current Research and Scholarly Intereststhe overall goal of my laboratory is to uncover new regulatory mechanisms in signaling systems, to understand how these mechanisms are damaged in disease states, and to devise new strategies to repair their function.
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Maria Grazia Roncarolo
George D. Smith Professor of Stem Cell and Regenerative Medicine, Emerita
Current Research and Scholarly InterestsResearch Interests
Immunetolerance: Mechanisms underlying T-cell tolerance, induction of T-cell anergy and regulatory T cells; Immunomodulation: mAbs, proteins and low molecular weight compounds which can modulate T-cell activation; Primary immunodeficiencies: Characterization of molecular and immunological defects; Gene therapy: Gene transduction of hematopoietic cells for gene therapy in primary immunodeficiencies and metabolic diseases; Hematopoiesis: Mechanisms underlying growth and differentiation of hematopoietic stem cells; Transplantation: Immune reconstitution and T-cell tolerance after allogenic stem cell transplantation; Cytokines/Cytokine receptors: Role in regulation of immune and inflammatory responses
Clinical Interests
Primary Immunodeficiencies
Monogenic Autoimmune Disorders
Allogenic Bone Marrow Transplantation
Gene Therapy Clinical Trials
Cell Therapy Clinical Trials
Clinical Trials in Autoimmune Diseases and Organ Transplantation
Clinical Trials in Hemoglobinopathies -
Lisa Goldman Rosas
Associate Professor (Research) of Epidemiology and Population Health, of Medicine (Primary Care and Population Health) and, by courtesy, of Pediatrics
BioLisa Goldman Rosas, PhD MPH is an Associate Professor in the Department of Epidemiology and Population Health and the Department of Medicine, Division of Primary Care and Population Health at Stanford School of Medicine. An epidemiologist by training, Dr. Goldman Rosas’ research focuses on addressing disparities in diet-related chronic diseases such as diabetes, heart disease, depression, and cancer especially for those who face food insecurity. This research features rigorous quantitative and qualitative methodologies, participatory qualitative approaches, and shared leadership with patient and community partners. She is passionate about integrating patients, caregivers, community organizations, and other key stakeholders in the research process in order to affect the greatest improvements in health and well-being. As a reflection of this passion, Dr. Goldman Rosas serves as the Faculty Director for the School of Medicine Office of Community Engagement, Co-Director of Community-Engaged Research for the Office of Cancer Health Equity, and Director of the Outreach, Recruitment and Engagement Core for the Alzheimer's Disease Research Center. In these roles, she supports other faculty and patient and community partners to develop sustainable and meaningful partnerships to support transformative research. In addition to research, she teaches at the undergraduate and graduate levels and has a special focus on increasing capacity in community engagement methods.
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David Rosenthal
Professor of Pediatrics (Pediatric Cardiology)
Current Research and Scholarly InterestsResearch interests include the study of Heart Failure, Cardiomyopathy and ventricular dysfunction in children, from a clinical perspective. Investigations include clinical trials of medications, cardiac resynchronization, and mechanical circulatory support.
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Jason B. Ross, MD, PhD
Assistant Professor of Radiation Oncology (Radiation Therapy)
Current Research and Scholarly InterestsMy laboratory studies studying normal, dysfunctional, and malignant stem cells in the context of aging, cancer, and cancer therapies.
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Theodore Roth
Assistant Professor of Pathology
Current Research and Scholarly InterestsThe Roth Lab develops, applies, and translates scalable genetic manipulation technologies in primary human cells and complex in vivo tissue environments. Working with students, trainees, and staff with backgrounds across bioengineering, genetics, immunology, oncology, and pathology, the lab has developed CRISPR-All, a unified genetic perturbation language able to arbitrarily and combinatorially examine genetic perturbations across perturbation type and scale in primary human cells. Ongoing applications of CRISPR-All in the lab have revealed surprising capacities to synthetically engineer human cells beyond evolved cellular states. These new capacities to perturb human cell’s genetics beyond their evolved functionality drives ongoing work to understand the biology and therapeutic potential of synthetic cell state engineering - in essence learning how to build new human genes tailor made for a specific cell and specific environment to drive previously inaccessible therapeutic cellular functions.
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Daniel Rubin
Professor of Biomedical Data Science and of Radiology (Integrative Biomedical Imaging Informatics at Stanford), Emeritus
Current Research and Scholarly InterestsMy research interest is imaging informatics--ways computers can work with images to leverage their rich information content and to help physicians use images to guide personalized care. Work in our lab thus lies at the intersection of biomedical informatics and imaging science.
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Mirabela Rusu
Assistant Professor of Radiology (Integrative Biomedical Imaging Informatics) and, by courtesy, of Biomedical Data Science and of Urology
Current Research and Scholarly InterestsDr. Mirabela Rusu focuses on developing analytic methods for biomedical data integration, with a particular interest in radiology-pathology fusion. Such integrative methods may be applied to create comprehensive multi-scale representations of biomedical processes and pathological conditions, thus enabling their in-depth characterization.
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Raya Saab
Lindhard Family Professor of Pediatric Cancer Biology
BioI am a pediatric oncologist, and I primarily treat children who are diagnosed with soft tissue sarcomas including rhabdomyosarcoma, and children diagnosed with the eye tumor retinoblastoma, as well as children with other solid tumors.
I have two very different areas of primary research interest, both of which I pursue with passion. One focuses on global oncology, including clinical and research resource capacity building towards effective treatment and improving outcomes of children with cancer worldwide. I work with collaborators across the globe towards a common goal of improving access to diagnostic and clinical care, training of multidisciplinary teams, and building clinical resources and research capacity to develop context-informed approaches to improving cancer care and achieving better outcomes for children diagnosed with cancer irrespective of where they happen to live.
My parallel research interest, which is the focus of my laboratory, is understanding oncogenic signaling in pediatric soft tissue sarcomas, in an effort to clarify the driving biology and determinants of metastatic disease, to uncover novel targets for more effective treatment. We use preclinical in vitro and in vivo models, including murine and human cell lines, and mouse models of cancer. We have recently uncovered a paracrine role for rhabdomyosarcoma-secreted exosomes in impacting biology of stromal cells. Rhabdomyosarcoma-derived exosomes carry specific miRNA cargo that imparts an invasive and migratory phenotype on normal recipient fibroblasts, and proteomic analysis revealed specific and unique pathways relevant to the two different molecular rhabdomyosarcoma subtypes that are driven by distinct oncogenic pathways. We identified that the driver oncogene in fusion-positive rhabdomyosarcoma, PAX3-FOXO1, modulates exosome cargo to promote invasion, migration, and angiogenic properties, and identified specific microRNA and protein cargo acting as effectors of PAX3-FOXO1 exosome-mediated signaling, including modulation of oxidative stress response and cell survival signaling. Our ongoing work is focused on interrogating specific paracrine signaling pathways and molecular mechanisms of metastatic disease progression in rhabdomyosarcoma, for potential therapeutic targeting.