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Research Lab Results for Raynaud's phenomenon

Displaying 1 to 3 of 3 results
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  • Ami Shah Lab

    Lab Website
    Principal Investigator:
    Ami Shah, M.D.
    Medicine

    Researchers in the Ami Shah Lab study scleroderma and Raynaud’s phenomenon. We examine the relationship between cancer and scleroderma, with a focus on how and if cancer causes scleroderma to develop in some patients. We are currently conducting clinical research to study ways to detect cardiopulmonary complications in patients with scleroderma, biological and imaging markers of Raynaud’s phenomenon, and drugs that improve aspects of scleroderma.

    Research Areas: Raynaud's phenomenon, cancer, scleroderma, drugs, cardiovascular diseases
  • Fredrick Wigley Lab

    Principal Investigator:
    Fredrick Wigley, M.D.
    Medicine

    The Frederick Wigley Lab is interested in the signs, symptoms and causes of scleroderma. We are testing new treatments for RaynaudÕs phenomenon and scleroderma. Understanding the treatment approach to Raynaud's phenomenon and associated ischemia and how to prevent digital ulcers is important for clinicians caring for these patients. Work in our lab has provided guidance in the management of Raynaud's phenomenon and digital ischemic ulcers, including options for the practical pharmacologic and nonpharmacologic interventions.

    Research Areas: Raynaud's phenomenon, rheumatology, scleroderma, autoimmune diseases, systemic sclerosis, ischemic ulcers
  • Nicholas Flavahan Lab

    Lab Website

    The Nicholas Flavahan Lab primarily researches the cellular interactions and subcellular signaling pathways that control normal vascular function and regulate the initiation of vascular disease. We use biochemical and molecular analyses of cellular mediators and cell signaling mechanisms in cultured vascular cells, while also conducting physiological assessments and fluorescent microscopic imaging of signaling systems in isolated blood vessels. A major component of our research involves aterioles, tiny blood vessles that are responsible for controlling the peripheral resistance of the cardiovascular system, which help determine organ blood flow.

    Research Areas: biochemistry, Raynaud's phenomenon, vascular biology, vasospasms
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