School of Medicine

Showing 1-10 of 17 Results

  • Venita Chandra

    Venita Chandra

    Clinical Assistant Professor, Surgery - Vascular Surgery

    Bio Dr. Chandra earned her B.S. degree, Summa Cum Laude, in Genetics and Cell Biology from the University of Minnesota in 1999. In 2004, she received her medical degree from the University of Chicago’s Pritzker School of Medicine and was elected to the Alpha Omega Alpha Honor Society. Dr. Chandra completed her General Surgery residency at Stanford in 2011 and is a graduate of the Stanford Biodesign program. She continued on to complete the Stanford Vascular Surgery Fellowship.

    Dr. Chandra is a member of SSATHI (Stanford South Asian Translational Heart Institute), as well as WHH (Stanford Women's Hearth Health). She is the co-director of the Stanford Advanced Wound Care Center (AWCC). As the co-director of the Stanford AWCC she is heavily involved in the Stanford Limb Salvage Initiative and has substantial expertise in new and cutting edge peripheral vascular and limb salvage techniques. She is also the associate program director of the Vascular Surgery Fellowship and the Vascular Surgery Medical Student Clerkship Director.

    Dr. Chandra's research and clinical interests include women’s vascular health, limb salvage, technology development and treatment optimization for complex open and endovascular approaches to peripheral vascular and aneurysmal disease.

  • Christopher Cheng

    Christopher Cheng

    Consulting Associate Professor, Surgery - Vascular Surgery

    Current Research and Scholarly Interests Our research laboratory focuses on understanding the mechanics of the cardiovascular system, especially with respect to interactions between medical devices and the dynamic cardiovascular environment. We use medical imaging, 3D geometric modeling, and custom deformation quantification techniques to investigate disease processes and medical device performance. We are interested in the dynamics of the heart, aorta, and peripheral vasculature, and are always seeking ways to apply our research to current and emerging therapies. While our research pursuits seek to add to the fundamental understanding of cardiovascular biomechanics, all of our projects are directly related to improving medical device design, evaluation, regulation, and their use in clinical practice.

  • Ronald L. Dalman MD

    Ronald L. Dalman MD

    Walter Clifford Chidester and Elsa Rooney Chidester Professor of Surgery

    Current Research and Scholarly Interests Vascular biology, arterial remodeling, aneurysm development; innovative treatment strategies for AAA, animal models of arterial disease, arterial remodeling and flow changes in spinal cord injury, genetic regulation of arterial aneurysm formation

  • Eri Fukaya

    Eri Fukaya

    Clinical Instructor, Surgery - Vascular Surgery

    Bio Clinical Focus
    ◾Vascular Medicine
    ◾Arterial Disease
    ◾Venous Disease
    ◾Wound Healing
    ◾Preventive Medicine
    ◾Exercise Therapy
    ◾Vascular Laboratory

    ◾Carotid Artery Diseases
    ◾Carotid Stenosis
    ◾Deep Vein Thrombosis
    ◾Diabetic Foot
    ◾Lipid Disorders
    ◾Peripheral Artery Disease
    ◾Post Thromobotic Syndrome
    ◾Spider Veins
    ◾Transient Ischemic Attack
    ◾Varicose Veins
    ◾Venous Insufficiency
    ◾Venous Thromboembolism
    ◾Wound Healing

  • Manuel Garcia Toca

    Manuel Garcia Toca

    Clinical Associate Professor, Surgery - Vascular Surgery

    Current Research and Scholarly Interests Open and endovascular management of vascular trauma, aortic dissection, complex thoracic and abdominal aortic aneurysm disease, critical limb ischemia, extracranial cerebrovascular disease and dialysis access.

  • E. John Harris Jr.

    E. John Harris Jr.

    Professor of Surgery (Vascular) at the Stanford University Medical Center

    Current Research and Scholarly Interests I am interested in thrombosis and the role of thrombin and its receptor in venous wall remodeling following venous thrombosis. I am also interested in vascular hemodynamics and the use of ultrasound, MRI and computational modeling in evaluating arterial flow in exercise conditions.

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