Abstract
Gait dysfunction and spasticity are common debilitating consequences of multiple sclerosis (MS). Improvements of these motor impairments by lumbar transcutaneous spinal cord stimulation (tSCS) have been demonstrated in spinal cord injury. Here, we explored for the first time the motor effects of lumbar tSCS applied at 50 Hz for 30 min in 16 individuals with MS and investigated their temporal persistence post-intervention. We used a comprehensive protocol assessing walking ability, different presentations of spasticity, standing ability, manual dexterity, and trunk control. Walking ability, including walking speed and endurance, was significantly improved for two hours beyond the intervention and returned to baseline after 24 h. Muscle spasms, clonus duration, and exaggerated stretch reflexes were reduced for two hours, and clinically assessed lower-extremity muscle hypertonia remained at improved levels for 24 h post-intervention. Further, postural sway during normal standing with eyes open was decreased for two hours. No changes were detected in manual dexterity and trunk control. Our results suggest that transcutaneous lumbar SCS can serve as a clinically accessible method without known side effects that holds the potential for substantial clinical benefit across the disability spectrum of MS.
Highlights
Accepted: 6 April 2021The enabling of lost motor function following chronic spinal cord injury (SCI) by epidural spinal cord stimulation has triggered a resurgence of interest in the therapeutic potential of this intervention [1,2,3,4,5]
The stimulation was well tolerated by all participants
No discomfort related to the stimulation was reported, nor was there any adverse event
Summary
The enabling of lost motor function following chronic spinal cord injury (SCI) by epidural spinal cord stimulation (eSCS) has triggered a resurgence of interest in the therapeutic potential of this intervention [1,2,3,4,5]. A parallel advancement in the field was the development of transcutaneous spinal cord stimulation (tSCS), a surface-electrode based neuromodulation method generating currents partially crossing the vertebral canal and affecting spinal segments innervating the lower extremities [6,7,8]. The effects on spasticity were shown to last for several hours beyond the application [17,18,19] Such carry-over effects present a pivotal requirement for a wider use of tSCS, since the surface-electrode based method cannot be applied chronically and the activated neural structures depend on body position [20]
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