Browse by Medical Category
Accepting New Patients
Go To Programs
Go To Specialties
Note: This provider may accept more insurance plans than shown; please call the practice to find out if your plan is accepted.
Dr. Farouc Jaffer graduated from Stanford University in 1990 with a B.S. in Mathematical and Computational Sciences, and received in MD and PhD in Biophysics from the University of Pennsylvania of Medicine in 1996. He completed a residency in internal medicine at the Brigham and Women's Hospital, followed by a fellowship in cardiovascular medicine and interventional cardiology at Massachusetts General Hospital. In 2003, he joined the Cardiology Division as faculty. Dr. Jaffer is currently an Associate Professor of Medicine at Harvard Medical School and an Attending Interventional Cardiologist at Massachusetts General Hospital. He is Director of Coronary Intervention and Director of the Chronic Total Occlusion (CTO) PCI Program at at Massachusetts Gneral Hospital. The MGH is a leading center for treating the most complex coronary blockages, such as CTO. Many patients, previously without options, have successfully underwent CTO PCI, and have experienced marked reductions in angina (chest pain) and shortness of breath.
Dr. Jaffer is also a Principal Investigator in the MGH Cardiovascular Research Center where his NIH-funded laboratory develops novel molecular imaging approaches to image high-risk plaques and blood clots, to better prevent heart attacks, strokes, and venous blood clots.
We are developing new approaches to image high-risk plaques (narrowings, blockages) that cause myocardial infarction (heart attacks). Imaging of high-risk ("vulnerable") coronary plaques could ultimately help prevent heart attacks from occurring.
Specifically, we are developing new intravascular optical (near-infrared fluorescence) imaging catheters to visualize inflammation in plaques. Inflammation is a key driver of plaque ruptures and heart attacks. Novel molecular imaging catheters are undergoing bench and experimental testing. Our goal is to translate these technologies to patients with coronary artery disease (CAD), with the goal of identifying inflamed high-rsk plaques. Eventually identifying these plaques may allow us to pre-emptively treat then prior to rupture and heart attack.
View my most recent publications at PubMed
Jaffer FA, et al. Real-time Catheter Molecular Sensing of Inflammation in Proteolytically Active Atherosclerosis. Circulation 2008; 118:1802-9.
Calfon MA, Vinegoni C, Ntziachristos V, Jaffer FA. Intravascular Near-infrared Fluorescence Molecular Imaging of Atherosclerosis: Towards Coronary Arterial Visualization of Biologically High-Risk Plaques. Journal of Biomedical Optics (Jan. 14, 2010).
Sabatine MS, Jaffer FA, et al. A 32-Year-Old Woman, 3 Weeks Postpartum, with Substernal Chest Pain. New England Journal of Medicine 2010; 363:1164-1173.
When Fred Noyes of Trenton, Maine, turned to Google to research options for treating his coronary artery disease, he learned a different type of stent was offered to patients in Europe – one that slowly dissolved and disappeared over time.
A new suite of minimally invasive coronary and cardiac support interventions offers effective treatment alternatives for many patients with complex coronary artery disease.
Massachusetts General Hospital offers a minimally invasive procedure to treat chronic total occlusions (CTOs).
New treatment option allows some coronary artery patients to "bypass" bypass surgery. Interventional cardiologists at the Institute for Heart, Vascular and Stroke Care at Mass General offer a less-invasive treatment with quicker recovery.
A new device that combines two microimaging technologies can reveal both the detailed anatomy of arterial linings and biological activities that, in coronary arteries, could indicate the risk of heart attacks or the formation of clots in arterial stents.
Back to Top