A new study by researchers at UCLA suggests that the elasticity of the physical matrix used for growing heart muscle cells outside of the body may be critical to the success of cardiac tissue engineering. The results were ...
Johns Hopkins biomedical engineers, working with colleagues in Korea, have produced a laboratory chip with nanoscopic grooves and ridges capable of growing cardiac tissue that more closely resembles natural heart muscle.
Suppose you could repair tissue damaged by a heart attack by magically turning other cells into heart muscle, so the organ could pump effectively again.
These days people usually don't die from a heart attack. But the damage to heart muscle is irreversible, and most patients eventually succumb to congestive heart failure, the most common cause of death in developed countries.
On January 30, 2013 ACS Nano published a study by Ali Khademhosseini, PhD, MASc, Brigham and Women's Hospital Division of Biomedical Engineering, detailing the creation of innovative cardiac patches that utilize nanotechnology ...
VIB scientists associated to the UGent have developed a mouse model that can advance the research on iPS cells to the next step.
Testosterone in men has become a hot health topic. New studies, including one by UCSF researchers, now are sparking a controversy over the role of testosterone in heart disease.
A recent study examined people's bodily responses while watching presidential campaign ads - and discovered another way that people avoid political information that challenges their beliefs.
(PhysOrg.com) -- UCSF researchers have for the first time shown that an external optical pacemaker can be used in a vertebrate to control its heart rate.
Separating target molecules in biological samples is a critical part of diagnosing and detecting diseases. Usually the target and probe molecules are mixed and then separated in batch processes that require multiple pipetting, ...