School of Medicine


Showing 1-6 of 6 Results

  • Xinnan Wang

    Xinnan Wang

    Professor of Neurosurgery

    Current Research and Scholarly InterestsMechanisms underlying mitochondrial dynamics and function, and their implications in neurological disorders.

  • Jenli Dawn Waters, MD

    Jenli Dawn Waters, MD

    Clinical Assistant Professor, Neurosurgery

    BioDr. Waters is a board-certified, fellowship-trained neurosurgeon with the Neurosurgery Program at Stanford Health Care. She is also a clinical assistant professor of neurosurgery in the Department of Neurosurgery at Stanford University School of Medicine.

    Dr. Waters specializes in treating a wide range of spinal conditions. These treatments include surgery to relieve numbness or pain related to pressure on the spinal cord and procedures to repair or stabilize the spinal column (spine fusion). Her areas of expertise also include diagnosis and treatment of traumatic brain injury and brain and spinal cancers.

    Dr. Waters’ research experience includes helping to develop effective strategies for diagnosing
    and treating patients with different neurological cancers, including glioblastomas. As a subspecialty medical expert for spine and neurosurgery, she successfully advocated for insurance coverage of state-of-the-art, minimally invasive approaches to treating epilepsy and brain tumors.

    Dr. Waters has published her work in peer-reviewed journals, including the Journal of Neurosurgery and the Journal of Neuro-Oncology. She has also authored and co-authored chapters in numerous books describing neurosurgical techniques and the diagnosis and treatment of various neurological conditions, including brain and spinal cord tumors.

    Dr. Waters is a member of the Congress of Neurological Surgeons.

  • Thomas J. Wilson

    Thomas J. Wilson

    Clinical Professor, Neurosurgery

    BioDr. Thomas J. Wilson was born in Omaha, Nebraska. He attended the University of Nebraska College of Medicine, earning his MD with highest distinction. While a medical student, he was awarded a Howard Hughes Medical Institute Research Training Fellowship and spent a year in the lab of Dr. Rakesh Singh at the University of Nebraska. He was also elected to the prestigious Alpha Omega Alpha Honor Medical Society. He completed his residency training in neurological surgery at the University of Michigan and was mentored by Dr. Lynda Yang and Dr. John McGillicuddy in peripheral nerve surgery. Following his residency, he completed a fellowship in peripheral nerve surgery at the Mayo Clinic in Rochester, Minnesota, working with Dr. Robert Spinner. He is now Clinical Associate Professor and Co-Director of the Center for Peripheral Nerve Surgery at Stanford University. He also holds a Master of Public Health (MPH) degree from the Bloomberg School of Public Health at Johns Hopkins University, with focused certificates in Clinical Trials and Health Finance and Management. His research interests include peripheral nerve outcomes research, clinical trials advancing options for patients with peripheral nerve pathologies and spinal cord injuries, and translational research focused on improved imaging techniques to assist in diagnosing nerve pain and other peripheral nerve conditions. His clinical practice encompasses the treatment of all peripheral nerve pathologies, including entrapment neuropathies, nerve tumors, nerve injuries (including brachial plexus injuries, upper and lower extremity nerve injuries), and nerve pain. Dr. Wilson enjoys working in multi-disciplinary teams to solve complex problems of the peripheral nervous system. His wife, Dr. Monique Wilson, is a practicing dermatologist in the Bay Area.

  • Albert J. Wong, M.D.

    Albert J. Wong, M.D.

    Professor of Neurosurgery

    Current Research and Scholarly InterestsOur goal is to define targets for cancer therapeutics by identifying alterations in signal transduction proteins. We first identified a naturally occurring mutant EGF receptor (EGFRvIII) and then delineated its unique signal transduction pathway. This work led to the identification of Gab1 followed by the discovery that JNK is constitutively active in tumors. We intiated using altered proteins as the target for vaccination, where an EGFRvIII based vaccine appears to be highly effective.