School of Medicine
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Lawrence Crowley, M.D., Endowed Professor in Child Health
Current Research and Scholarly Interests His research and clinical work focuses on the development of interventional techniques for fetal and neonatal treatment of congenital heart disease, pulmonary, vascular physiology, and the neurologic impact of open-heart surgery. He developed and pioneered the “unifocalization” procedure, in which a single procedure is used to repair a complex and life-threatening congenital heart defect rather than several staged open-heart surgeries as performed by other surgeons.
Assistant Professor of Cardiothoracic Surgery (Adult Cardiac Surgery) at the Stanford University Medical Center
Bio Dr. William Hiesinger is an assistant professor in the Department of Cardiothoracic Surgery at Stanford University. There, he serves as the Surgical Director of the Mechanical Circulatory Support (MCS) Program, where he leads and directs the surgical implantation of ventricular assist devices (VADs) in patients with end-stage heart failure. In addition, he runs a basic science laboratory investigating bioengineered devices and the application of angiogenic cytokine therapy and tissue engineering for the treatment of ischemic heart failure. Originally from Philadelphia, PA, Dr. Hiesinger was an undergraduate at Dartmouth College, where he received his B.A. in Psychological and Brain Sciences. He went on to receive his medical degree from the University of Pennsylvania School of Medicine and remained on at the Hospital of the University of Pennsylvania for both his general surgery and cardiothoracic surgery trainings. He has received research fundings from the National Institutes of Health (NIH) and the Thoracic Surgery Foundation (TSF).
Assistant Professor of Cardiothoracic Surgery (Cardiothoracic Surgery Research)
Current Research and Scholarly Interests Dr. Huang's laboratory aims to understand the chemical and mechanical interactions between extracellular matrix (ECM) proteins and pluripotent stem cells that regulate vascular and myogenic differentiation. The fundamental insights of cell-matrix interactions are applied towards stem cell-based therapies with respect to improving cell survival and regenerative capacity, as well as engineered vascularized tissues for therapeutic transplantation.