Researchers identify bone-forming cells as the driver of scoliosis caused by a genetic disorder, which can be prevented ...

Silent cells deep in your spinal cord may hold a surprising key to healing after devastating injuries and brain disease. A ...

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 ...

Most people with spinal cord injury are paralyzed from the injury site down, even when the cord isn't completely severed. Why don't the spared portions of the spinal cord keep working? Researchers now ...

Zebrafish, unlike people, can recover from spinal cord injuries, thanks to a healing process that’s controlled by immune cells called macrophages. Gaining a better understanding of this phenomenon ...

A research team from the University of Cologne has shown how zebrafish can rebuild their nerve pathways and restore their locomotor function after a spinal cord injury. People who suffer severe spinal ...

As innovation accelerates in spine surgery, many surgeons say the most disruptive changes are unfolding in payer policies, outcomes tracking and practice economics that increasingly dictate how, when ...