Spinal cord injuries are life-altering, often leaving individuals with severe mobility impairments. While rehabilitation ...

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.

A muscle-stimulating implant combined with a robotic exoskeleton can help restore movement in people paralyzed by a s ...

For many, walking is a simple and everyday act, yet for those living with spinal cord injuries, it remains a distant ...

Spinal cord injuries are life-altering, often leaving individuals with severe mobility impairments. While rehabilitation robotics—devices that guide ...

An international team of researchers has used a novel combination of spinal cord stimulation and robotics to help restore ...

A new development in spinal cord injury treatment is offering new hope for those facing life-altering mobility challenges ...

Spinal cord injury (SCI)—a condition that leads to partial or complete paralysis—has a profound impact on millions of individuals globally. Despite recent advances in SCI treatment, restoring lost ...

Neural foraminal stenosis causes nerve irritation and compression when the space a spinal nerve travels through narrows.

Scientists say a combo of robotics and spinal stimulation has restored some movement in paralysis for the first time.