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  • Fu Lab

    The Fu Lab is a basic research lab that studies zinc transport, with a particular focus on which step in the zinc transport process may be modulated and how. Dr. Fu's lab uses parallel cell biology and proteomic approaches to understand how these physiochemical principles are applied to mammalian zinc transporters and integrated to the physiology of pancreatic beta cells. This research has implications for understanding how zinc transport is related to diabetes and insulin intake.
    Lab Website

    Principal Investigator

    Dax Fu, PhD

    Department

    Physiology

  • Functional Neurosurgery Laboratory

    The research goals of the Functional Neurosurgery Laboratory include the development of computational models to understand how brain function is affected by neurological conditions and how this abnormal function might be corrected or minimized by neuromodulation through electrical stimulation. The lab uses data collected from patients during epilepsy monitoring or in the operating room during DBS procedures to construct and calibrate the computational models. The models can be manipulated to explore functional changes and treatment possibilities. The other primary goal of the laboratory is the development of a neuromodulation system that applies stimulation pulses at specific phases of brain oscillatory activity. This technique is being explored in the context of Parkinson's disease as well as memory function, and may lead to less invasive therapeutic treatment system with more effective stimulation.
    Lab Website

    Principal Investigator

    William S. Anderson, MD PhD

    Department

    Neurosurgery

  • Gabsang Lee Lab

    Human induced pluripotent stem cells (hiPSCs) provide unprecedented opportunities for cell replacement approaches, disease modeling and drug discovery in a patient-specific manner. The Gabsang Lee Lab focuses on the neural crest lineage and skeletal muscle tissue, in terms of their fate-determination processes as well as relevant genetic disorders. Previously, we studied a human genetic disorder (familial dysautonomia, or FD) with hiPSCs and found that FD-specific neural crest cells have low levels of genes needed to make autonomous neurons--the ones needed for the ""fight-or-flight"" response. In an effort to discover novel drugs, we performed high-throughput screening with a compound library using FD patient-derived neural crest cells. We recently established a direct conversion methodology, turning patient fibroblasts into ""induced neural crest (iNC)"" that also exhibit disease-related phenotypes, just as the FD-hiPSC-derived neural crest. We're extending our research to the neural crest's neighboring cells, somite. Using multiple genetic reporter systems, we identified sufficient cues for directing hiPSCs into somite stage, followed by skeletal muscle lineages. This novel approach can straightforwardly apply to muscular dystrophies, resulting in expandable myoblasts in a patient-specific manner.
    Lab Website

    Principal Investigator

    Gabsang Lee, PhD

    Department

    Neurology

  • Gail Berkenblit Lab

    The Gail Berkenblit Lab focuses on HIV testing. We are particularly interested in the training of residents as it relates to HIV outpatient care, and the development and assessment of online curriculum.

    Principal Investigator

    Gail V. Berkenblit, MD PhD

    Department

    Medicine

    Research Areas

  • Gail Daumit Lab

    Research in the Gail Daumit Lab is devoted to improving overall health and decreasing premature mortality for people with serious mental illnesses, such as schizophrenia and bipolar disorder. We have conducted observational studies to determine and convey the burden of physical health problems in this vulnerable population, and are currently leading a randomized trial funded by the National Heart, Lung, and Blood Institute to test a comprehensive cardiovascular risk reduction program in people with serious mental illness.

    Principal Investigator

    Gail L. Daumit, MD MHS

    Department

    Medicine

  • Gail Geller Lab

    The Gail Geller Lab primarily conducts empirical quantitative and qualitative research on the ethical and social implications of genetic testing in the adult, pediatric and family contexts. We have focused on clinical-patient communication under conditions of uncertainty; professionalism and humanism in medical education; cross-cultural variation in concepts of health and disease; and clinician suffering and moral distress. We explore these topics in a range of health care contexts, including genomics, complementary and alternative medicine (CAM) and palliative care. Our researchers have a longstanding interest in medical socialization, provider-patient communication under conditions of uncertainty and cultural differences in attitudes toward health and disease. We also explore the intersection of CAM and bioethics, as well as the role of palliative care in chronic diseases, such as muscular dystrophy and sickle cell disease.

    Principal Investigator

    Gail Geller, ScD

    Department

    Medicine

  • Gary Wand Lab

    Research conducted in the Gary Wand Lab focuses on neuropsychoendocrinology; the neurobiology of substance abuse; physiogenetics and regulation of the stress response; and the relationship between stress and chemical dependency. Current studies seek to better understand the genetic determinants of the stress response and how excessive stress hormone production contributes to neurobiological disorders, including addiction.

    Principal Investigator

    Gary Steven Wand, MD

    Department

    Medicine

  • George Rose Lab

    The George Rose Lab investigates protein folding, the spontaneous disorder transition that takes place under physiological conditions. The protein polymer is flexible in its unfolded state but takes on a unique native, three-dimensional form when folded. We propose that the folded state is selected from a set number of structural possibilities, each corresponding to either a distinct hydrogen-bonded arrangement of ??helices or a strand of ??sheet.

    Principal Investigator

    George D. Rose, PhD

    Department

    Biophysics and Biophysical Chemistry

  • Gerard Anderson Lab

    Research in the Gerard Anderson Lab examines chronic conditions, comparative insurance systems in developing countries, medical education, health care payment reform and technology diffusion. We’ve conducted reviews of health systems for USAID and the World Bank in several countries.

    Principal Investigator

    Gerard F. Anderson, PhD

    Department

    Medicine

  • Gerard E. Mullin Lab

    The Gerard E. Mullin Lab studies nutrition and the way that diet affects weight loss. In particular, we study how having an imbalanced gut microbiome may prevent weight loss in certain people.

    Principal Investigator

    Gerry Mullin, MD

    Department

    Medicine