Trials / Recruiting

RecruitingNCT07334977

Synergistic Effect of Non-invasive Brain and Spinal Cord Stimulation

Synergistic Potential of Non-invasive Brain and Spinal Cord Stimulation for Improving Sensorimotor and Cognitive Functions After Neurological Injury

Status: Recruiting
Phase: Phase 2
Study type: Interventional
Enrollment: 45 (estimated)

Sponsor: Centre National de la Recherche Scientifique, France · Academic / Other
Sex: All
Age: 18 Years
Healthy volunteers: Accepted

Summary

The goal of this clinical study is to investigate the potential synergy between non-invasive brain and spinal cord stimulation administered during a cognitive-motor task, in terms of their immediate effects on sensorimotor and cognitive functions after neurological injuries affecting the upper limb (cervical spinal cord injury and stroke). Secondary objectives are to evaluate the relevance of anatomical MRI, functional MRI, and neurophysiological measurements for optimizing and predicting the effects of these different interventions.

Detailed description

Over the past decade, innovative electrical stimulation strategies have emerged to improve the effectiveness of conventional rehabilitation approaches following spinal cord injury or stroke. Transcranial direct current stimulation (tDCS) and transcutaneous spinal cord stimulation (tSCS) are two non-invasive stimulation techniques targeting respectively the brain and spinal cord. These techniques have demonstrated immediate and lasting positive effects on the recovery of lost neurological functions following damage to the brain (in the case of stroke) or the spinal cord (in the case of spinal cord injury). Functional improvements leading to a better quality of life have been demonstrated in response to tSCS or tDCS sessions combined with motor training. Recent studies suggest a potential synergistic effect of these two types of intervention, which we propose to characterize in control participants, participants with cervical spinal cord injury, and post-stroke participants. OBJECTIVES: In this project, we seek to study the potential synergistic effects of an intervention combining non-invasive stimulation of the brain and spinal cord, administered during the performance of a cognitive-motor task, compared to a control intervention and each intervention administered separately, on the recovery of motor and cognitive-motor functions after neurological injury. Secondary objectives are to evaluate the relevance of anatomical MRI data and neurophysiological measurements for optimizing and predicting the effects of these different interventions. METHODOLOGY/RESEARCH DESIGN: Single-center, prospective, comparative, randomized, crossover, and single-blind clinical study comparing four neuromodulation interventions: S1: tDCS, S2: tSCS, S3: tDCS-tSCS, S4: sham, administered during a cognitive-motor training task of the affected upper limb using the Armeo technology. Three groups of participants will be included: one control group, one group with cervical spinal cord injury, and one post-stroke group. The two groups with either spinal cord injury or stroke will participate in a total of nine visits: the inclusion visit, four testing visits, and four intervention visits. The control group will participate only in the inclusion and testing visits. Outcome measures will include neurophysiological and clinical performance measures.

Conditions

Interventions

Type	Name	Description
PROCEDURE	tDCS	tDCS will be delivered using an electrical stimulation device d (1X1 tES, Soterix Medical Inc., USA, CE marked) delivering a direct current at 2 mA for a period of 20 minutes. Silicone electrodes are placed in sponges soaked in physiological saline (5 cm × 7 cm) (EASYpadTM, Soterix Medical Inc.), with the anode and cathode centered on the optimal cortical areas determined during testing visits.
PROCEDURE	tSCS	tSCS will be applied for 20 minutes using a constant current electrical stimulator (DS5 or DS7A, Digitimer Ltd, CE marked) delivering monophasic pulses at 30 Hz at stimulation sites and intensities specific to each participant and defined in advance during testing visits.
PROCEDURE	Sham	For the sham stimulation interventions, the current slowly increases to the intensity used during the active interventions for 30 seconds, then slowly decreases over the next 30 seconds, at the beginning and end of the stimulation. The sham interventions use the same electrode placements as during the active ones for a total duration of 20 min.
BEHAVIORAL	Cognitive-Motor Task	The cognitive-motor task will be administered using the ArmeoControl software supplied with the ArmeoSping® or ArmeoPower® upper limb rehabilitation exoskeleton. Participants will be seated in a chair or their wheelchair and fitted into the exoskeleton.The exoskeleton is linked to a series of exercises performed on a computer via a virtual reality interface (ArmeoControl), which allows simultaneous training of the arms and hands in a large workspace. Two vertical and horizontal "visually guided reaching" tasks will be offered, each lasting 10 minutes. These tasks are chosen to provide training in cognitive-motor functions (grabbing a target moving in a virtual workspace) and sensorimotor functions (interacting with the exoskeleton to move the target).

Timeline

Start date: 2024-12-11
Primary completion: 2027-07-31
Completion: 2027-12-01
First posted: 2026-01-12
Last updated: 2026-01-12

Locations

2 sites across 1 country: France

Source: ClinicalTrials.gov record NCT07334977. Inclusion in this directory is not an endorsement.