Trials / Recruiting

RecruitingNCT07204184

Multisite Transspinal Stimulation for Augmenting Recovery in Spinal Cord Injury

Cervical and Lumbosacral Transspinal Stimulation to Reconnect the Injured Human Spinal Cord

Status: Recruiting
Phase: N/A
Study type: Interventional
Enrollment: 36 (estimated)

Sponsor: Maria Knikou, PT, MBA, PhD · Academic / Other
Sex: All
Age: 18 Years – 70 Years
Healthy volunteers: Not accepted

Summary

A well-established rehabilitation strategy for improvements of standing and walking ability in persons with spinal cord injury (SCI) is step training on a motorized treadmill with body weight support. A promising intervention is stimulation of the spinal cord through the skin (transspinal). No single intervention is likely to significantly improve long-term function after SCI on its own. Rather, combinatorial treatments that work synergistically and can be used at different clinical settings is the answer to target recovery in people with SCI. The objective of this clinical trial is to develop a non-invasive combinatorial intervention that can be used worldwide in different clinical settings. The investigators will use cervical and lumbosacral transspinal stimulation to augment the benefits of locomotor training and affect vital body functions after SCI. The investigators will deliver non-invasive cervical and lumbosacral transspinal stimulation alone or with step training to improve upright posture, walking, bladder, sex, and bowel function in persons with incomplete SCI. The noninvasive nature of the intervention holds minimal risk that outweighs the benefits.

Detailed description

The main objective of this hypothesis-based and need-driven clinical research trial is to develop novel rehabilitation strategies and impact clinical practice and care for people with spinal cord injury (SCI). The investigators will use non-invasive transspinal stimulation over the cervical and lumbosacral enlargements, the spinal location of arm and leg motor circuits, to augment the benefits of locomotor training and improve recovery of standing and walking ability in individuals with SCI. This trial is a pilot (or small-scale) clinical trial on cervical and lumbosacral transspinal stimulation administered alone at rest or during assisted step training in people with SCI to establish safety and efficacy. The investigators' specific aims are as follows: 1. Determine the underlying physiological actions of paired cervical and lumbosacral transspinal stimulation in people with and without SCI. To address Specific Aim 1, in 12 people with incomplete SCI (AIS B, C, D) and 12 healthy control subjects (age and gender match) we will establish the effects of a) cervical transspinal stimulation on soleus H-reflexes and leg transspinal evoked potentials (TEPs), and the effects of lumbosacral transspinal stimulation on flexor carpi radialis (FCR) H-reflexes, and arm TEPs at rest; and b) the effects of cervical and lumbosacral paired transspinal stimulation on joint coordination and muscle synergies during walking on a motorized treadmill (healthy controls) or with a robotic gait system training (Lokomat) in participants with SCI. 2. Determine if cervical and lumbosacral transspinal stimulation reconnects the injured human spinal cord, strengthens the weak remnant neuronal pathways, and augments the benefits of locomotor training. To address Specific Aim 2, a total of 24 people with incomplete SCI (AIS B, C, D) will be enrolled. Half will receive cervical and lumbosacral transspinal stimulation at rest. The other half of participants will receive cervical and lumbosacral transspinal stimulation during assisted stepping with a robotic gait system (Lokomat 6 Pro®). Both groups will receive 20 sessions (5 sessions/week) of 1-hr duration each. Cervical and lumbosacral transspinal stimulation will be delivered at 30 Hz at or above paresthesia intensities based on each participant's comfort levels. For both groups, the investigators will establish safety based on adverse events, and efficacy based on clinical assessments and neurophysiological biomarkers. Before and after the intervention the investigators will 1) establish changes in non-somatic vital bladder, bowel, and sexual body functions, 2) perform clinical assessments of spasticity, standing and walking ability, and 3) perform state-of-the-art experiments to establish changes in neurophysiological biomarkers. The investigators will use neurophysiological biomarkers to probe actions of the proposed intervention (cervical and lumbosacral transspinal stimulation), use combination of interventions, and address safety and efficacy of intervention via adverse events and neurophysiological biomarkers. Furthermore, the investigators will 1) identify and validate biomarkers for diagnosis, prognosis, and evaluation of treatment efficacies, and 2) maximize the function of the residual neural circuitry, including harnessing neuroplasticity and recovery to improve function after SCI.

Conditions

Spinal Cord Injuries (Complete and Incomplete)

Interventions

Type	Name	Description
DEVICE	Multisite transspinal stimulation at rest	The intervention, combined cervical and lumbar transspinal stimulation, will be used for the first time to reconnect the spared neuronal pathways of the injured human spinal cord. The intervention will be administered while at rest lying on the back or during robotic gait training. Cervical and lumbar transspinal stimulation will be delivered via surface active electrodes placed on the back of the neck and on low back, and four returning electrodes placed on each clavicle and iliac crest.
DEVICE	Multisite transspinal stimulation during robotic gait training	The intervention, combined cervical and lumbar transspinal stimulation, will be administered during robotic gait training. Cervical and lumbar transspinal stimulation will be delivered via surface active electrodes placed on the back of the neck and on low back, and four returning electrodes placed on each clavicle and iliac crest while participants step with the help of the Lokomat 6 Pro, a robotic device that helps the legs step. Locomotor training will depend on the ability of each participant to step without foot dragging. Over the training course, we will adjust the body weight support, ankle straps position, and leg guidance force. The tension of the ankle straps will be adjusted based on the right and left tibialis anterior muscle strength evaluated every 2 weeks. Body weight support and leg guidance force will be adjusted based on presence or absence of knee buckling during standing.

Timeline

Start date: 2026-02-19
Primary completion: 2028-06-30
Completion: 2028-06-30
First posted: 2025-10-02
Last updated: 2026-03-18

Locations

1 site across 1 country: United States

Regulatory

FDA-regulated device study

Source: ClinicalTrials.gov record NCT07204184. Inclusion in this directory is not an endorsement.