Spine and Brain Stimulation for Movement Recovery After Cervical Spinal Cord Injury

Loss of movement following spinal cord injury (SCI) often results from incomplete disruption of structures within the spinal cord, leaving some residual pathways of communication intact. Epidural spinal cord stimulation (SCS) has been used to recruit these residual communication pathways' spared circuits and restore walking in patients with leg paralysis. But SCS to improve arm and hand function remains largely unexplored, even though this is the commonest type of SCI and restoration of upper limb function is of highest priority to patients. The goal of this study is to understand the interactions between SCS and residual neural communication pathways in the brain and spine that control arm and hand function in order to restore movement after cervical SCI.

This is a pilot study in which patients with traumatic spinal cord injury will undergo temporary placement of small electronic stimulation wires near the cervical spinal cord followed by a series of experiments over 29 days focused on three main aims. In Aim 1 (mapping responses to SCS), the investigators will map patient's motor responses to SCS to identify how motor responses are affected by areas of spinal cord injury. In Aim 2 (pairing SCS with attempted motor activation and brain stimulation), the investigators will combine SCS with patient attempts to move in order to study how SCS interacts with conscious motor control and also pair SCS with brain stimulation using transcranial magnetic stimulation. Finally, in Aim 3 (therapeutic effects), the investigators seek to use SCS to change the natural electrical circuits in the spinal cord and observe changes in motor function in both the short- and long-term.