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RecruitingNCT07174973

Innovative Approaches to Enhance Balance and Neuroplasticity in Multiple Sclerosis

Innovative Approaches to Enhance Balance and Neuroplasticity in Multiple Sclerosis: Evaluating the Combined Effects of Transcutaneous Spinal Cord Stimulation, Functional Electrical Stimulation, and Visual Feedback Balance Training

Status
Recruiting
Phase
N/A
Study type
Interventional
Enrollment
24 (estimated)
Sponsor
University Health Network, Toronto · Academic / Other
Sex
All
Age
18 Years – 65 Years
Healthy volunteers
Not accepted

Summary

This study will evaluate the effects of combining balance training with electrical stimulation techniques in individuals with Multiple Sclerosis (MS). MS commonly impairs leg strength, coordination, and balance, increasing the risk of falls and reducing independence. The interventions include:Balance training only, Balance training with Functional Electrical Stimulation (FES), and Balance training with FES and Transcutaneous Spinal Cord Stimulation (TSCS). FES delivers small electrical pulses to leg muscles, while TSCS delivers electrical signals through the skin to stimulate the spinal cord and enhance motor control. The study will enroll up to 24 participants over a 3-year period. This trial is funded by MS Canada. Participants will be randomly assigned to one of three groups: (1) balance training only, (2) balance training with FES, or (3) balance training with FES and TSCS. All participants will complete 12 supervised training sessions over 6 weeks. During each session, participants will engage in interactive balance games while standing in a safety harness.Outcome assessments will be conducted at three time points: baseline (prior to training), post-intervention (after 6 weeks), and follow-up (8 weeks after training). Assessments will include: * Clinical tests of mobility and balance (Timed Up and Go:TUG, 10-Meter Walk Test:10MWT, Berg Balance Scale:BBS) * Computerized balance testing using a force plate * Questionnaires on walking ability, fear of falling, and balance confidence * Neurophysiological measures of brain-spinal cord-muscle communication before and after training

Conditions

Interventions

TypeNameDescription
OTHERBalance training with FESParticipants assigned to this group complete a standardized balance training program while receiving FES to the lower limb muscles. Training sessions involve standing in a safety harness and performing interactive, game-based balance tasks on a force plate that provides real-time visual feedback of body sway. FES will be applied bilaterally to specific leg muscles (e.g., tibialis anterior, quadriceps, gastrocnemius) using surface electrodes. Stimulation parameters (pulse width, frequency, and amplitude) are individually adjusted to produce visible yet comfortable muscle contractions that support functional standing and balance activities. Stimulation is delivered in synchrony with balance exercises to augment muscle activation during postural adjustments.
OTHERBalance training wiith combined neuromodulation (TSCS+FES)Participants in this group complete the standardized balance training program while receiving both FES and TSCS. Training sessions take place in a safety harness and involve interactive, game-based balance exercises performed on a force plate with real-time visual feedback of body sway.FES is delivered bilaterally to lower limb muscles (e.g., tibialis anterior, quadriceps, gastrocnemius) through surface electrodes. Stimulation parameters (pulse width, frequency, amplitude) are individualized to produce visible, comfortable contractions that facilitate muscle activation during postural tasks.TSCS is applied simultaneously via electrodes placed over the thoracolumbar spinal region to modulate spinal excitability and enhance neuromuscular control. Standardized stimulation parameters are used across participants, with adjustments made to ensure tolerance and safety.
OTHERBalance training onlyParticipants in this group complete the standardized balance training program without electrical stimulation. Sessions are conducted in a safety harness and consist of interactive, game-based balance exercises performed on a force plate, which provides real-time visual feedback of body sway. Tasks are designed to challenge postural control by requiring weight shifting in multiple directions, maintaining stability during perturbations, and progressively increasing task difficulty.

Timeline

Start date
2025-12-30
Primary completion
2028-09-30
Completion
2028-12-30
First posted
2025-09-16
Last updated
2026-03-16

Locations

1 site across 1 country: Canada

Source: ClinicalTrials.gov record NCT07174973. Inclusion in this directory is not an endorsement.