School of Medicine
Showing 11-20 of 21 Results
H. Craig Heller
Lorry I. Lokey/Business Wire Professor
Current Research and Scholarly Interests Neurobiology of sleep, circadian rhythms, regulation of body temperature, mammalian hibernation, and human exercise physiology. Currently applying background in sleep and circadian neurobiology the understanding and correcting the learning disability of Down Syndrome.
Professor of Surgery (Plastic & Reconstructive Surgery)
Current Research and Scholarly Interests Dr. Helms' research interests center around regenerative medicine and craniofacial development.
Professor of Radiology (Cardiovascular Imaging), Emeritus
Current Research and Scholarly Interests Imaging of cardiovascular diseases with CT, magnetic resonance imaging and spectroscopy
William Hiesinger, MD
Assistant Professor of Cardiothoracic Surgery (Adult Cardiac Surgery)
Bio Dr. Hiesinger is a board-certified, fellowship-trained specialist in adult cardiac surgery. He is also an assistant professor in the Department of Cardiothoracic Surgery at Stanford University School of Medicine.
Dr. Hiesinger?s clinical focus encompasses the full spectrum of cardiothoracic conditions and treatment approaches, such as heart transplantation, lung transplantation, mitral and aortic valve repair, cardiomyopathy surgical treatment, and coronary artery bypass procedures. He serves as Surgical Director of the Stanford Mechanical Circulatory Support Program, where he leads and directs the surgical implantation of ventricular assist devices (VADs) in patients with end-stage heart failure.
The National Institutes of Health and the Thoracic Surgery Foundation have awarded funds to support Dr. Hiesinger?s research. In the Stanford Cardiothoracic Therapeutics and Surgery Laboratory, he investigates innovations such as bioengineered devices, tissue engineering, and angiogenic cytokine therapy for the treatment of ischemic heart failure.
He has published extensively on new techniques in ventricular assist device implantation, advances in life support for cardiac failure, cell transplantation in heart failure, and many other topics. His work has appeared in the Journal of Thoracic and Cardiovascular Surgery, Journal of Vascular Surgery, Journal of Cardiac Failure, Current Treatment Options in Cardiovascular Medicine, and elsewhere. In addition, Dr. Hiesinger is a reviewer for the publication Circulation.
He teaches courses on cardiothoracic surgery skills. He also advises surgeons of the future.
Dr. Hiesinger has won awards for his research and scholarship, including the Surgical Resident of the Year Award, Jonathan E. Rhoads Research Award, Clyde F. Baker Research Prize, and I.S. Ravdin Prize, all from his alma mater, the University of Pennsylvania. He was a finalist for the Vivien Thomas Young Investigator Award from the American Heart Association.
Dr. Hiesinger is a member of the Society of Thoracic Surgeons and serves on the Workforce on Surgical Treatment of End-Stage Cardiopulmonary Disease national committee. He is also a member of the American Heart Association Council for Cardiothoracic and Vascular Surgery.
Karen G. Hirsch, MD
Associate Professor of Neurology and, by courtesy, of Neurosurgery
Current Research and Scholarly Interests Dr. Karen G. Hirsch cares for critically ill patients with neurologic disorders in the intensive care unit. Dr. Hirsch's research focuses on using continuous and discrete multi-modal data to develop phenotypes and identify signatures of treatment responsiveness in patients with coma after cardiac arrest. She is the Co-PI of PRECICECAP (PRecision Care In Cardiac ArrEst - ICECAP, NINDS R01 NS119825-01) and works closely with collaborators in data science at Stanford and with industry partners to apply machine learning analyses to the complex multi-modal ICU data. Dr. Hirsch also studies neuro-imaging in post-cardiac arrest coma and traumatic brain injury.
Additional research interests include a broad array of topics and Dr. Hirsch greatly appreciates the importance of team science and collaboration. Along with colleagues in Biomedical Ethics, Dr. Hirsch studies brain death and organ donation with a focus on ethical challenges and prediction models. Along with colleagues in Cardiac Anesthesia and Cardiothoracic Surgery, Dr. Hirsch studies neurologic outcomes in patients on mechanical circulatory support including ECMO.
Dr. Hirsch is broadly interested in improving neurologic outcomes after acute brain injury and identifying early phenotypes to guide precision medicine in neurocritical care, especially in patients with post-cardiac arrest brain injury.
Mark Hlatky, MD
Professor of Medicine (Health Services Research), of Medicine (Cardiovascular Medicine) and, by courtesy, of Epidemiology and Population Health
Current Research and Scholarly Interests My main research work is in "outcomes research", especially examining the field of cardiovascular medicine. Particular areas of interest are the integration of economic and quality of life data into randomized clinical trials, evidence-based medicine, decision models, and cost-effectiveness analysis. I am also interested in the application of novel genetic, biomarker, and imaging tests to assess risk and guide clinical management of coronary artery disease.
Rachel Knight Hopper
Clinical Associate Professor, Pediatrics - Cardiology
Current Research and Scholarly Interests Current research interests include:
PH related to prematurity and bronchopulmonary dysplasia
Right heart failure in children with pulmonary hypertension, imaging and biomarkers
Pulmonary hypertension related to congenital diaphragmatic hernia
Pulmonary vein stenosis in infants and children
Pulmonary hypertension in children with congenital heart disease
Clinical trials in children with PH
Ngan F. Huang
Assistant Professor of Cardiothoracic Surgery (Cardiothoracic Surgery Research) and, by courtesy, of Chemical Engineering
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.