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George Washington University | Washington, District of Columbia | United States | about 22 hours ago
surgery, specifically surgery for heart failure and mechanical assist devices, in the Division of Cardiac Surgery in the Department of Surgery. The MFA is an independent, non-profit clinical practice group
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George Washington University | Washington, District of Columbia | United States | about 22 hours ago
academic Advanced Heart Failure Cardiologist to join the growing Heart Failure/Mechanical Circulatory Support Section of the Department of Medicine. This position is expected to begin as early as February 1
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investigates cellular responses and communication that coordinate tissue inflammation and subsequent repair. Our goal is to identify molecular mechanisms that contribute to irregular immune cell infiltration and
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George Washington University | Washington, District of Columbia | United States | about 22 hours ago
of breathing, opioid-induced respiratory depression, mechanisms of pain and cardio-respiratory resuscitation. The MFA, an independent, non-profit academic clinical practice group affiliated with GW, the Cedar
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limited to: Plans, implements, and administers a preventative maintenance program(s) to provide maximum life to facilities in accordance with industry standards. Knowledge of plumbing systems in commercial
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relying on optical measurement techniques for fluid mechanics, such as particle image or particle tracking velocimetry. Work with graduate and undergraduate students to fabricate and test prototypes, using
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mechanisms of CNS injury and repair with the ultimate goal of developing new therapies for chronic pain and other neurodegenerative disorders. These individuals will work with our team in both spinal cord
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for the mechanism of maintaining robust and functional CD8 T cell response during latent toxoplasmosis. MITM conducts innovative, fundamental, basic and translational research for HIV/AIDS and neglected tropical
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pathological mechanisms of myasthenia gravis using innovative rodent models and cutting-edge technologies, and developing antigen-specific immunosuppressive therapies for the disease. The research is highly
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immune cells after injury and under pathological contexts. The goal of the applicant is to investigate mechanisms that regulate macrophage migration and function during injury-induced inflammation and