Overview
The aim of this study is to determine the effects of rehabilitation on dexterous hand movements and cortical motor map changes in tetraplegic patients following nerve transfer surgery. The working hypothesis is that robot-assisted, intensive rehabilitation will support the return of hand and arm function and strengthen the cortical representations of targeted muscles. The investigators will assess this through TMS mapping and clinical measures of hand and arm function.
Description
The recovery of hand and arm function is of critical importance for decreasing long-term care costs and increasing quality of life for individuals with tetraplegia due to spinal cord injury (SCI). A subset of these individuals, with injuries in the mid to low cervical spinal cord, are candidates for nerve transfer surgery. Nerve transfer surgery restores function after SCI through coaptation of redundant, intact donor nerves to recipient nerves arising at or below the level of SCI. The use of nerve transfer after SCI is relatively novel and many patients exhibit a remarkable recovery of hand and arm motor function in the months that follow, however others show a much more limited recovery. The extent of recovery is likely limited, in part, by variability in rehabilitation and the ability of the motor cortex to incorporate the new peripheral circuitry resulting from this surgical procedure. There is a critical need to determine the response of cortical motor networks to nerve transfer and the role that rehabilitation plays in supporting cortical plasticity and motor recovery. If this need is not met, incomplete recovery from this state-of-the-art surgical intervention will persist and the potential application to a wider patient population will not be realized.
The investigators will test the central hypothesis that nerve transfer surgery after cervical SCI creates a novel cortical motor network, which can support the return of dexterous hand/forelimb function through rehabilitation-dependent remodeling. The hypothesis has been based upon 1) previous work in an animal model showing that rehabilitation reshapes cortical motor maps, 2) the pioneering work of a handful of clinicians, including the study collaborator, Justin Brown, that have applied nerve transfer to bypass spinal levels affected by injury, and 3) recent work using transcranial magnetic stimulation (TMS) in human SCI to map the cortical representation of arm muscles in the zone of partial preservation, and the ability to improve hand-arm function through intensive robotic training in chronically impaired subjects. The use of TMS to map cortical motor networks will allow the investigators to measure the cortical reorganization resulting from nerve transfer and determine the extent to which rehabilitation can engage this alternative cortical motor network. The rationale for the proposed studies is that a determination of the mechanisms that support rehabilitation-mediated recovery after nerve transfer will be required for optimizing and refining current clinical practice.
Eligibility
Inclusion Criteria:
- Tetraplegia (cervical lesion) with some degree of motor dysfunction in the hand
- Motor incomplete or complete lesion (measured by the ASIA Impairment Scale, A, B, C, D).
- Chronic lesion (at least 6months after the injury)
- Demonstrate stability of motor examination for at least six months.
- Retain intact innervation within paralyzed target muscles (axon recipient) as determined by electrodiagnostics.
- Have muscles innervated by the nerves to be used for the transfers (axon donors) of MRC grade 4/5 or greater and sufficient innervation as determined by electrodiagnostics.
- Have access to an at home caregiver who can assist with customary postsurgical physical therapy.
- Ability to give informed consent and understand the tasks involved.
Exclusion Criteria:
- Presence of potential risk factor for brain stimulation: history of seizures, presence of surgically implanted foreign bodies such as a pacemaker, metal plate in the skull, and metal inside the skull.
- History of head trauma and/or cognitive deficit
- Medically unstable
- Contraindicated for nerve transfer surgery.