- Associate Professor of Medicine
- Harvard Medical School
- Co-Director, Samuel A. Levine Cardiac Unit
- Director, Clinical Trials Center
- Brigham and Women's Hospital
Dr. Peter H. Stone's research interests focus on a variety of aspects concerning coronary artery disease, from understanding the basic and clinical vascular biology of atherosclerosis progression in animals and in man, to investigating new pharmacologic and device therapies for patients with acute and chronic coronary artery disease.
A major focus of his work has been to understand the hemodynamic influences on vascular biology responsible for the progression of coronary atherosclerosis in man, to develop in-vivo methodologies to enable the identification of the sites where coronary atherosclerosis and "vulnerable plaque" will progress, and to investigate the clinical benefits resulting from early identification of high-risk lesions. The ultimate goal of these investigations is to create a new paradigm for management of coronary artery disease, whereby individual high-risk coronary lesions will be identified early in their natural history by vascular profiling of local endothelial shear stress and patterns of vascular remodeling. Identification of these high-risk lesions would enable utilization of highly selective pre-emptive interventions to avert subsequent adverse cardiac events.
He has also been pursuing clinical investigations of new anti-ischemic therapies for patients with coronary artery disease as well as investigating the use of ambulatory ECG (AECG or Holter) monitoring to evaluate transient episodes of ST-segment deviation.
Dr. Stone has been the Director of the AECG Core Laboratory for a number of multicenter clinical trials sponsored by the NHLBI or by industry. He has been investigating the significance of T-wave alternans during ischemic episodes identified from AECG monitoring. These electrophysiologic phenomena may identify patients at increased risk of arrhythmic events associated with ischemia. His AECG Laboratory is also evaluating the cardiac effects of air pollution on high-risk coronary patients using measures of heart rate variability and myocardial ischemia.