A surprising discovery from high-altitude animals like yaks and Tibetan antelopes could reshape how we treat nerve damage in humans. Scientists found that a genetic mutation helping these animals ...

A drug developed at Case Western at Case Western Biotechnology Incubator is showing promise in helping paralyzed patients ...

Dhaka, April 16 -- A genetic adaptation that helps animals like yaks and Tibetan antelopes survive in low-oxygen environments could open up a new pathway for repairing nerve damage in humans, ...

Even when people with incomplete spinal cord injuries can walk, everyday functions like standing, balancing or producing ...

Incomplete spinal cord injuries disrupt motor unit coordination. The nervous system struggles to sync muscles at low effort and overcompensates with rigid signals at high effort.

Scientists have succeeded in reactivating axon growth by blocking a cellular switch, offering hope for the repair of severe ...

CLEVELAND, Ohio — A $3.1 million grant is helping Case Western Reserve University researchers develop ways to restore a sense ...

By examining genetic clues that linger in adult cells, scientists have now gained surprising insights into the developmental ...

Even when people with incomplete spinal cord injuries can walk, everyday functions like standing, balancing or producing steady force may remain difficult. A new study shows why.

From long hours on computers or mobile devices to sports injuries and even the natural aging process, neck pain has become an ...

Human anatomy reveals evolutionary compromises, not perfect design. Our spine's structure, inherited from ancestors, causes ...

Our bodies are not perfectly designed, but are a living archive of evolution. Anatomy reveals a historical record of ...