After a spinal cord injury, cells in the brain and spinal cord change to cope with stress and repair tissue. A new study from Karolinska Institutet, published in Nature Neuroscience, shows that this ...

Author: Jared Cregg, Neurosciences graduate student at Case Western Reserve University School of Medicine in Cleveland, Ohio is first author on the study. His advisor, Jerry Silver, PhD, Professor of ...

Researchers at Karolinska Institutet in Sweden have mapped how cells in the human spinal cord are formed in the embryo and what genes control the process. Their findings can give rise to new knowledge ...

Long-term treatment with gabapentin, a commonly prescribed drug for nerve pain, could help restore upper limb function after a spinal cord injury, new research in mice suggests. Long-term treatment ...

A new drug-free, minimally invasive intervention targets the root cause of progressive loss of neural function in spinal muscle atrophy (SMA), an inherited neuromuscular disease. An intervention, ...

New research provides the first evidence that cortical targets could represent a novel therapeutic site for improving motor function in humans paralyzed by spinal cord injury. Monica A. Perez, P.T., ...

A new PET tracer can provide insights into how spinal cord injuries affect not only the spinal cord, but also the brain, according to new research published in The Journal of Nuclear Medicine. By ...

Researchers have found that new myelin-making cells are constantly being made in the brain and spinal cord, even in the ...

Researchers at the University of South Florida show in a new study that bone marrow stem cell transplants helped improve motor functions and nervous system conditions in mice with the disease ...