Researchers have identified a network of connections linking the brainstem and spinal cord that helps control hand and arm movements, revealing an unexpected layer of the nervous system enabling ...

Add Yahoo as a preferred source to see more of our stories on Google. Hillsdale Hospital has introduced the VELYS Spine Navigation Platform, a new surgical navigation system designed to enhance ...

Spinal injuries can dramatically alter lives, confining individuals to physical limitations and impacting their overall well-being. Traditional rehabilitation methods, while helpful, often require ...

Automatic personalization of electrode placement for transcutaneous spinal cord stimulation can take it to the next level.

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.

People with Parkinson’s disease are being diagnosed earlier and living with the condition for longer periods as treatments evolve, but one stubborn late-arriving symptom is trouble walking. A ...

Investigational ARC-BCI ® Therapy is being developed to restore thought-driven movement in people living with spinal cord injuries and other movement disabilities ARC-BCI is the world’s first and most ...

The big picture: Nearly two decades ago, Shinya Yamanaka and Kazutoshi Takahashi discovered they could turn mature somatic cells back into stem cells. The scientists predicted these new cells could be ...

First introduced five decades ago, MRI scanners are now a cornerstone of modern medicine, vital for diagnosing strokes, tumors, spinal conditions and more, without ...

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 organoids - ...