University of Pittsburgh School of Medicine researchers report the final outcomes of a pioneering pilot clinical trial using ...

Promising lab results for ‘microscopic repair crews, guided by magnets’ ...

Timed release of therapeutic molecules from a soft nanofiber-hydrogel implant supports nerve regrowth and circuit repair after spinal injury, restoring movement and bladder control in preclinical ...

Is science about to revolutionize treatment for spinal cord injuries? Researchers in San Diego may have figured out a way to do what was previously thought impossible, and train the nerves to ...

The trouble starts with biology. Nerve cells in the spinal cord almost never regrow once cut, and the scar tissue that forms around an injury blocks the gap, stopping any fibers that try to cross. One ...

Spinal stenosis involves the narrowing of one or more spaces within the spinal canal. It can develop due to age-related ...

ETH Zurich researchers are combining stem cells with magnetoelectric nanoparticles to create controllable microrobots. These microrobots can be precisely guided to the site of a spinal cord injury, ...

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

Previous research separately linked a viral protein called glycoprotein 120 (gp120) to increased pain sensitivity and ...

Plus, warning signs you shouldn't ignore.