A new study reports researchers have successfully used brain stimulation to provide touch feedback and direct movement. The findings could benefit those with spinal cord injury to regain movement.
Following targeted motor and sensory reinnervation, a procedure that reroutes residual limb nerves to intact muscles and skin in amputees, the brain remaps both motor and sensory pathways. Additionally, researchers note, TMSR may help counteract poorly adapted cortical plasticity following amputation.
A new study reports transcranial magnetic stimulation can significantly reduce phantom limb pain.
A new study suggests we may have problems telling our toes apart and this might have implications for the way our brain perceives our bodies.
A new study reports amputees often feel as though their prosthetic limb is part of their body.
Researchers have developed a new method that utilizes both machine learning and augmented reality to help treat those with chronic phantom limb pain following amputation.
A new study reveals functional changes occur among sensitive and motor brain regions following amputation. The findings shed new light on why some people feel phantom limb sensations following the loss of a limb.
Reconnecting muscle pairs during surgery following amputation provides patients more sensory feedback from the limb, researchers report.
A new method of treating phantom limb pain which utilizes several technologies is providing successful.
Three days of training with brain-computer interface technology reduced phantom limb pain. Patients reported a 30% reduction in pain after one session, and the effect lasted up to five days after training was complete.
Researchers have discovered specific neurochemical changes in brain regions associated with brain remapping following amputation. Also, these changes may persist once the limb is reattached.