The effects of spinal cord injuries are complex and multifaceted. People lose not only the ability to control the movement of their limbs, but also the ability to receive sensory feedback from them.

Add Yahoo as a preferred source to see more of our stories on Google. Prof. Tal Dvir says the first recipient of the new technology will be Israeli. (CREDIT: Matricelf) For generations, paralysis from ...

In new results from a clinical trial, researchers show that electrical stimulation of the spinal cord can restore the muscle control and sensory feedback required for coordinated walking movements.

Northwestern University scientists have developed the most advanced organoid model for human spinal cord injury to date. In a new study, the research team used lab-grown human spinal cord ...

In the center of your body’s repair system are tiny cells with mighty power—pericytes. These small but active cells surround the smallest blood vessels and help maintain and heal tissues. Now, new ...

The new organoids were grown in the lab for up to 40 days, and they mimicked the central nervous system of an 11-week-old human embryo. When you purchase through links on our site, we may earn an ...

In a petri dish at Northwestern University, researchers grow organoids modeled on the human spinal cord: simplified, lab-made stand-ins built from stem cells. Then they injure them on purpose, either ...

Northwestern University scientists have developed the most advanced organoid model for human spinal cord injury to date. In a new study published in Nature Biomedical Engineering, the research team ...

For generations, paralysis from a damaged spinal cord has been seen as permanent. Once the nerves were injured, the signals carrying movement from the brain to the body were lost forever. But ...