In cervical spinal cord injury, the most severe of spinal cord injuries, around 20% of patients are left tetraplegic, with all four limbs partially or completely paralyzed. Tetraplegia is caused … Continue Reading Unprecedented brain-computer exoskeleton allows a tetraplegic patient to move.
Stroke and spinal cord injury patients often require gait rehabilitation to regain the ability to walk or to help strengthen their muscles. Wearable robot-assisted training is quickly emerging as a … Continue Reading First-ever biomimetic lower-limb robotic exoskeleton developed.
Mobility after paraplegia due to spinal cord injury (SCI) is primarily achieved by substituting the lost function with a wheelchair. However, the sedentary lifestyle associated with excessive wheelchair reliance can … Continue Reading Brain-computer interface enables paralyzed man to walk in world’s first.