Old cells are able to revert to a younger state for a better injury response after radically jettisoning ‘waste’ material, rather than managing it through controlled degradation. Cells eject ‘waste’ ...

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. In mouse experiments, scientists introduced ...

Scientists at EPFL have achieved a significant research milestone in the field of spinal cord injuries - mapping out the cellular and molecular dynamics of paralysis in unprecedented detail with their ...

Much like humans generate mountains of garbage, our cells are constantly discarding proteins that are damaged or no longer needed. The cellular waste disposal system called the proteasome is best ...

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 zebrafish embryo during the first cell division cycle, with the structural protein actin labelled, which marks the cell boundary and ingressing furrow. The image shows a time course from dark orange ...

A key mechanism which detects when the brain needs an additional energy boost to support its activity has been identified in a study in mice and cells led by UCL scientists. A key mechanism which ...

Zebrafish have genetic characteristics that make it possible to rebuild neural networks after severe injuries.

Chronic kidney disease (CKD) represents a significant global public health challenge, characterized by the gradual decline in renal function over time.

To (1) systematically review the literature to identify which match-related risk factors and mechanisms of rugby tackle events result in musculoskeletal injury, concussion, head injury assessments, ...