After a spinal cord injury, nearby cells quickly rush to action, forming protective scar tissue around the damaged area to stabilize and protect it. But over time, too much scarring can prevent nerves ...

Deep brain stimulation (DBS) of the lateral hypothalamus (LH) improves walking and promotes recovery in patients with spinal cord injury (SCI), new research showed. This intervention excites ...

A paradigm shift in the way we treat spinal injuries is now in sight, with the world's first regenerative cell therapy being granted approval for a registrational Phase I clinical trial. It's a ...

Anderson Cooper: This week on 60 Minutes, we're doing a story about efforts to help people who are paralyzed with severe spinal cord injuries develop the ability to walk again. And not just walk again ...

Researchers have designed, in mice, an approach to minimizing the damage from a spinal cord injury through the use of engineered immune cells. Mice given the treatment had improved recovery from ...

A new study has tested innovative proof-of-concept technology that syncs electrical stimulation with rehabilitation robotics to enable individuals paralyzed after spinal injury to move more naturally.

UAB Spinal Cord Injury Medicine Fellowship Program’s Mission is to produce competent and autonomous practicing physicians who are well trained to care for a variety of patients with spinal cord ...

Bones called vertebrae make up your spine. Muscles and ligaments connect your vertebrae to each other. Between the vertebrae lie soft, flat discs that provide cushioning and support. Each vertebra ...

After a devastating spinal cord injury, mice’s nerve cells balloon up in size. Some of these neurons stay swollen longer than expected and begin to die, a study published September 25 in Science ...