Skip to content

Christopher Newton-Cheh, MD, MPH

Christopher Newton-Cheh, MD, MPH

Faculty Member
Massachusetts General Hospital

Assistant Professor of Medicine
Harvard Medical School

Massachusetts General Hospital
Simches Research Building
Center for Human Genetics, 5.242
185 Cambridge St
Boston, MA 02114
Tel: 617-643-7995 and 617-726-2862
Fax: 617-643-6630

Angie Cook, Staff Assistant

Harvard Catalyst Profile

Dr. Newton-Cheh is a complex trait geneticist and cardiovascular epidemiologist, as well as a practicing cardiologist. His laboratory investigates hypertension, sudden cardiac death and cardiotoxic drug response as manifest in the electrocardiographic QT interval. He has led several international consortia that have identified scores of novel genetic factors contributing to hypertension, myocardial repolarization and sudden cardiac death in work published in Nature Genetics, Nature, with many additional high-impact publications in JAMA and the New England Journal of Medicine. He has received awards from MGH for his highly collaborative science efforts to characterize the role of natriuretic peptides in blood pressure regulation, spanning the Center for Human Genetic Research, the Cardiology Division and the Department of Anesthesia, Critical Care and Pain Medicine.

Dr. Newton-Cheh’s finding of eight genetic loci related to blood pressure was highlighted as one of the ten most important discoveries of 2009 by the American Heart Association. He is currently leveraging the rapid growth of human genetics to identify genetic variants in genes known and previously unknown which underlie cardiac diseases, and to translate these genetic discoveries into an improved understanding of human physiology through clinically-focused research. This important work seeks to define the role of genetics and other factors in predicting patients’ risk of disease and cardiotoxic drug response. He has several ongoing physiological trials in humans to better understand the mechanisms by which common variants contribute to the development of disease.

Read more…

Research Areas
Cardiac Physiology and Disease

View Publications