Researchers have identified a molecular mechanism that helps explain why exercise remains so effective in maintaining muscle ...

New research reveals that muscle retains memory of disuse, potentially explaining why returning to activity after an injury ...

Researchers at the University of Bristol have created a network of simple mechanical motors ...

Muscle loss (atrophy) due to inactivity is common after illness, injury, hospitalization or falls, and becomes increasingly frequent with aging. New research published in Advanced Science shows that ...

Scientists have developed a network of mechanical motors that mimic the molecular machinery underpinning human muscle ...

Muscle loss, or atrophy, due to inactivity is common after illness, injury, hospitalization or falls, and becomes increasingly frequent with aging. New research published in Advanced Science shows ...

Scientists have developed a network of mechanical motors that mimic the molecular machinery underpinning human muscle ...

Healthy, robust muscles are required for movement and normal bodily functions, but muscles can decline significantly as we age. This can increase the risk of physical problems, falls, and breaks that ...

New research from a multi-institutional team, published in Nature Cardiovascular Research, reveals that heart failure and atrial fibrillation share underlying genetic and molecular mechanisms, ...