Queensland researchers have solved the century-old mystery of why patients who suffer severe spinal cord and brain injuries develop debilitating bone growths around joints such as hips and shoulders.
Spinal cord injury (SCI) and traumatic brain injury (TBI) have dramatic consequences, and no neuroprotective or neuroregenerative treatment is available. The pathogenetic mechanisms involved in ...
Antibodies can improve the rehabilitation of people with acute spinal cord injury. Researchers at 13 clinics in Germany, ...
Queensland researchers have solved the century-old mystery of why patients who suffer severe spinal cord and brain injuries ...
Antibodies can improve the rehabilitation of people with acute spinal cord injury. Researchers at 13 clinics in Germany, ...
Queensland scientists have solved the century-old mystery of why patients who suffer severe spinal cord and brain injuries ...
Before this, neurologists had thought this tiny brain region was only involved in arousal and feeding mechanisms ... in people paralyzed by spinal cord injury. Brain scans were used to guide ...
Using neural stem cells could help treat spinal injuries once thought to be untreatable -- a new phase 1 trial has determined this approach is safe.
Scientists have used DBS to restore movement in spinal cord injury patients by targeting the lateral hypothalamus. The therapy enables sustained recovery by reorganizing neural connections. Credit: ...
Traumatic neurological injury: overview of mechanisms Spinal cord injury (SCI) and traumatic brain injury (TBI) are associated with neuroinflammation, excitotoxicity and increased oxidative stress.