In heart failure, the heart can no longer supply the body with enough blood. The condition often develops over many years, ...

Sequencing the microRNA in vesicles only found in cardiac macrophages illuminates their role in blood vessel formation.

Researchers at the Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah, and the University of Utah School of Medicine, have demonstrated that a gene therapy can ...

Myocardial infarction research reveals immune-driven cardiac damage. Learn how targeting NK cells could improve heart ...

Heart failure is a leading cause of death and disability. Unfortunately, this affects millions of individuals and their loved ones. Ineffective heart function can lead to shortness of breath, fatigue, ...

A new gene therapy can reverse the effects of heart failure and restore heart function in a large animal model. The therapy increases the amount of blood the heart can pump and dramatically improves ...

For decades, the medical establishment operated under a grim certainty: once a heart attack strikes, the damage is final. In the United States alone, nearly one million people die annually from heart ...

Researchers at the Institute of Biomedical Engineering at the University of Toronto have demonstrated a new way to monitor ...

Accurately measuring electrical signals and calcium levels in the heart can lead to earlier treatment of potentially fatal conditions, such as heart attack or congestive heart failure. Calcium plays ...

STM-01 is currently being evaluated in a Phase 1 non-Duchenne study of adults with Heart Failure With Preserved Ejection Fraction. PPMD's support will enable Secretome to rapidly advance STM-01 ...