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Researchers engineered stem cell-derived heart tissues to study how tachycardia affects the heart and to uncover the inner workings of our body’s engine.

Statins designed to lower cholesterol have long been noted to work in mysterious ways to improve other aspects of cardiovascular health. A Stanford Medicine-led study uncovers how they do it.

Telomeres shorten in heart muscle cells from people with Duchenne muscular dystrophy. A Stanford Medicine study finds blocking this process improves the health of these cells grown in a dish.

A genetic variant that inhibits alcohol metabolism harms blood vessel cells, but an antidiabetic medication may mitigate the harm, Stanford Medicine-led research has found.

Beginning July 2023, Wu will lead the nation’s largest nonprofit organization dedicated to advancing cardiovascular health.

The California Institute for Regenerative Medicine has awarded $31 million to three Stanford researchers to launch trials of treatments for common diseases. Four other Stanford researchers also received a total of $4.55 million.

Motivated by the loss of a patient, a doctor leads a research effort to uncover the molecular mechanisms of hemochromatosis in the heart.

Unregulated cell growth seems to be a driver behind the growth of atherosclerotic plaques, changing the traditional story of plaque formation. The rapid cell growth in the arterial wall is similar to pre-cancerous growth in other tissues.

Stanford researchers have found that drug-coated nanoparticles limit the development of atherosclerosis in mice, without side effects.

Stanford researchers have uncovered how a genetic mutation contributes to a heart disease known as familial dilated cardiomyopathy. Existing drugs correct the defect in heart cells grown in a petri dish, suggesting a new therapeutic target.