Cambridge scientists have grown miniature circuits in the lab that mimic how the brain and spinal cord connect, which ...

Cambridge scientists have grown miniature circuits in the lab that mimic how the brain and spinal cord connect up, which underlies our movements. They used this model to show how damage to these ...

Electrical stimulation of the spinal cord, such as following a spinal cord injury, has made great strides in recent years.

Cambridge researchers created miniature brain-and-spinal-cord systems in the lab that can send signals and even trigger tiny ...

A tiny clump of lab-grown human brain cells, no bigger than a lentil, sent nerve fibers into a slice of spinal cord tissue ...

Summary: A milestone neuro-regenerative study has shattered a long-standing medical dogma by proving that “irreversible” damage to the connections between the human brain and spinal cord can be ...

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 ...

Silent cells deep in your spinal cord may hold a surprising key to healing after devastating injuries and brain disease. A new study from Cedars-Sinai, reveals that support cells called astrocytes do ...

Tel Aviv University researchers developed a method that may remove excess glutamate from the bloodstream in the first hours after injury, aiming to reduce the chain reaction of damage.