Spinal Cord Injuries Clinical Trial
Official title:
Priming With High-Frequency Trans-spinal Stimulation to Augment Locomotor Benefits in Spinal Cord Injury
Locomotor training is often used with the aim to improve corticospinal function and walking ability in individuals with Spinal Cord Injury. Excitingly, the benefits of locomotor training may be augmented by noninvasive electrical stimulation of the spinal cord and enhance motor recovery at SCI. This study will compare the effects of priming locomotor training with high-frequency noninvasive thoracolumbar spinal stimulation. In people with motor-incomplete SCI, a series of clinical and electrical tests of brain and spinal cord function will be performed before and after 40 sessions of locomotor training where spinal stimulation is delivered immediately before either lying down or during standing.
Spinal cord injury (SCI) greatly impairs standing and walking ability, which severely compromises daily living activities. While these deficits are partially improved by locomotor training, even after multiple training sessions, abnormal muscle activity and coordination still persist. Thus, locomotor training alone cannot fully optimize the neuronal plasticity required to strengthen the synapses connecting the brain, spinal cord, and local circuits. As such, treatment interventions that effectively promote neuromodulation of spinal locomotor networks and strengthen neural connectivity of the injured human spinal cord in combination with physical rehabilitation are greatly needed. It is proposed that transcutaneous spinal cord (transspinal) stimulation as a method to synergistically 'prime' the nervous system to better respond to locomotor training. Transspinal stimulation alters motoneuron excitability over multiple spinal segments, a pre-requisite for functioning descending and local inputs. Importantly, whether concurrent treatment with transspinal stimulation and locomotor training maximizes motor recovery after SCI is unknown. The goal of this clinical trial is to use high frequency (30 Hz) transspinal stimulation to prime locomotor training and ultimately improve standing, walking, and overall function in individuals with chronic incomplete SCI (iSCI). Forty-five individuals with iSCI will undergo 40 sessions of body weight-supported step training primed with high-frequency transspinal stimulation. Participants will be randomized to receive transspinal stimulation during standing (real or sham) or while supine (real). Aim 1 evaluates how priming locomotor training with high-frequency transspinal stimulation in SCI alters corticomotoneuronal connectivity strength, as indicated by motor evoked potentials recorded from the legs. Aim 2 evaluates how priming locomotor training with high-frequency transspinal stimulation in iSCI affects reorganization and appropriate engagement of spinal neuronal circuits. Finally, Aim 3 evaluates activity-based motor function, ability to stand and walk, and quality of life. These results will support the notion that tonic high-frequency transspinal stimulation strengthens corticomotoneuronal connectivity and improves spinal circuit organization through posture-dependent corticospinal neuroplasticity. It is anticipated that the information gained from this mechanistic clinical trial will greatly impact clinical practice. This is because in real-world clinical settings, noninvasive transspinal stimulation can be more easily and widely implemented than invasive epidural stimulation. ;
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