Capitalizing on the flexibility of tiny cells inside the body's smallest blood vessels may be a powerful spinal cord repair strategy, new research suggests. Capitalizing on the flexibility of tiny ...

A newly discovered biological signal in the blood could help health care teams and researchers better understand how children respond to brain injuries at the cellular level, according to our research ...

At the cellular level, the mechanics of how muscle tissue repair occurs gets complicated. There are significant differences between, say, tearing a muscle in a sports injury versus muscle tissue ...

A Cedars-Sinai study has identified a previously unknown role for astrocyte cells in how the brain responds to damage and ...

Intrinsic DILI: This is where a drug and/or drug metabolites induce liver toxicity in a predicted and dose-dependent manner. Most individuals show a response at some dose, and the toxicity levels are ...

A newly discovered cell that matures into two specialist cell types – an immune cell responsible for tissue repair and a cell that forms blood vessels – significantly boosts wound healing, according ...

Imaging shows regeneration of sensory axons four weeks after a spinal cord injury in an adult mouse injected with PDGF-BB at the lesion site. COLUMBUS, Ohio – Capitalizing on the flexibility of tiny ...