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 in Sweden and the U.K. developed a surgical technique to reconnect the spinal cord with sensory neurons after traumatic spinal injuries. Now, by recreating the technique in rats, they have ...

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 ...

Making the paralyzed walk and the blind see have been standards of medical miracle and magic for much of recorded history, and it is not surprising that they remain with us as potent cultural images.

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 ...

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 ...

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 ...