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Displaying 11 to 12 of 12 results for neurosurgery

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  • The Nauen Lab

    Epilepsy affects 1-3% of the population and can have a profound impact on general health, employment and quality of life. Medial temporal lobe epilepsy (MTLE) develops in some patients following head injury or repeated febrile seizures. Those affected may first suffer spontaneous seizures many years after the initial insult, indicating that the neural circuit undergoes a slow pathologic remodeling over the interim. There are currently no methods of preventing the development of MTLE. It is our goal to better understand the process in order to slow, halt, and ultimately reverse it.

    Our laboratory draws on electrophysiology, molecular biology, and morphology to study the contribution of dysregulated neurogenesis and newborn neuron connectivity to the development of MTLE. We build on basic research in stem cell biology, hippocampal development, and synaptic plasticity. We work closely with colleagues in the Institute for Cell Engineering, Neurology, Neurosurgery, Biomedical Engineering..., and Radiology. As physician neuropathologists our grounding is in tissue alterations underlying human neurologic disease; using human iPSC-derived neurons and surgical specimens we focus on the pathophysiological processes as they occur in patients.

    By understanding changes in cell populations and morphologies that affect the circuit, and identifying pathologic alterations in gene expression that lead to the cell-level abnormalities, we hope to find treatment targets that can prevent the remodeling and break the feedback loop of abnormal activity > circuit change > abnormal activity.
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    Research Areas: Medial temporal lobe epilepsy

    Lab Website

    Principal Investigator

    David Nauen, M.D., Ph.D.

    Department

    Pathology

  • Vascular Neurology Lab

    Vascular research led by Rafael Tamargo, M.D., the Walter E. Dandy Professor of Neurosurgery, explores treatment of aneurysms, arteriovenous malformations, cavernous malformations, and arteriovenous fistulas of the brain and spinal cord. Basic science research has focused on endothelial cell-leukocyte interactions (inflammation) after subarachnoid hemorrhage and identifying drugs that might inhibit this inflammatory response as well as the narrowing of blood vessels.

    Research Areas: aneurysm, stroke

    Lab Website

    Principal Investigator

    Rafael Tamargo, M.D.

    Department

    Neurology
    Neurosurgery

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