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Non-invasive stimulation for improving motor function in spinal cord injury

$287,287R21FY2013HDNIH

Winifred Masterson Burke Med Res Inst, White Plains NY

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Abstract

DESCRIPTION (provided by applicant): Neuromodulation using non-invasive stimulation techniques in humans is one of the most promising advances in treatment of neurological damage. While extensive work has been done in developing these techniques for therapy targeting the brain, there has been little emphasis on targeting spinal cord directly. We recently a developed a human repetitive stimulation paradigm to target spinal cord that is safe, effective, well tolerated, and results in lasting spinal excitability enhancement. In a small pilot study we showed that this spinal excitability modulation could be replicated in affected lower limb muscles of chronic spinal cord injury patients. Objective: In the present study we aim to: (1) determine if spinal excitability is raised following spinal associative stimulation (SAS) in a larger sample of SCI patients with lower limb paralysis, (2) examine the time-course of after effects, and (3) establish the functional consequences by measuring the change in voluntary motor activation associated with raised spinal excitability, assessed by the presence of background EMG during attempted muscle contraction. Methods: Since our prior work showed that the excitability modulation is contingent upon the paired technique, and not placebo or peripheral stimulation alone, we will provide the real stimulation paradigm in 30 chronic incomplete SCI patients, using a within subjects, pre-post intervention design. The principal outcome measure will be H-reflex threshold as per our previous work in healthy subjects. We will secondarily examine how the effect changes over time by repeating the baseline measures at 0, 15 and 30 minutes post intervention. We additionally be recording surface EMG during attempted maximal voluntary contractions at each of the time points. We expect that spinal excitability will be raised for at least 15 minutes post intervention, and that voluntary activation may be enhanced in association with heightened excitability. Results/Conclusions: If, as predicted, we establish conclusively that our method termed spinal associative stimulation is effective in SCI patients, this could profoundly influence the field of non-invasive stimulation, and open up the potential for a range of techniques for spinal cord targeting, including down-regulating excitability in the presence of spasticity. Significance: Spinal associative stimulation is the first paired non-invasive technique based on known timing-dependent interactions in spinal networks, to modulate spinal excitability. Further, it is one few techniques in humans, ever developed targeting spinal cord, including invasive stimulation.

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