A new study identifies a druggable cellular target that, if controlled properly, could prevent or lessen autonomic dysfunction and improve quality of life for people with spinal cord injury. In ...

A large, multidisciplinary team led by researchers from Texas A&M University has made a potentially game-changing discovery ...

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 ...

In this study, spinal cords that associated limb position with an unpleasant experience learned to reposition the limb after only 10 minutes, and retained a memory the next day. Spinal cords that ...

A large, multidisciplinary team led by researchers from Texas A&M University has made a potentially game-changing discovery about the development of devastating motor neuron diseases like amyotrophic ...

Aya Takeoka at the RIKEN Center for Brain Science (CBS) in Japan and colleagues have discovered the neural circuitry in the spinal cord that allows brain-independent motor learning. Published in ...

COLUMBUS, Ohio – In response to stressful or dangerous stimuli, nerve cells in the spinal cord activate involuntary, autonomic reflexes often referred to as “fight or flight” responses. These ...

Researchers have discovered the neural circuitry in the spinal cord that allows brain-independent motor learning. The study found two critical groups of spinal cord neurons, one necessary for new ...