Exoskeleton and Spinal Cord Stimulation for SCI

Spinal Cord Injury Clinical Trial

Official title: Exoskeleton and Spinal Cord Stimulation for SCI

Status Recruiting

Clinical Trial Summary

The overall aim of this project is to assess the effect of combining transcutaneous lumbosacral stimulation (TLS) during Exoskeleton Assisted Walking (EAW) compared to EAW alone without stimulation on walking recovery.

Clinical Trial Description

In this study, a total of 24 participants with an incomplete spinal cord injury (iSCI) will be randomly assigned to an EAW+TLS group or an EAW alone intervention group. Each group of subacute to chronic sensory and motor iSCI will be composed of 12 participants. On the average five participants will be trained per year. Each group will receive 60 minutes of robotic intervention training per session, for a total of 80 sessions (3 times a week, for 28 weeks). Group 1: The EAW + TLS group will receive 60 minutes of exoskeleton-assisted walking overground with simultaneous TLS followed by 15 minutes of overground training without the exoskeleton. Group 2: The EAW alone (no stimulation) group will receive 60 minutes of exoskeleton-assisted walking over ground training followed by the 15 minutes of over group training. There is no stimulation applied to this group at any time during the training/walking. Training Paradigms. Group 1: EAW+TLS: The training protocols for the 2 groups will be exactly the same structure and timing except the TLS component is added during robot-assisted walking in the EAW +TLS group. After 3-5 sessions the standardized training protocol will involve a circuit training format for 55-60 minutes of training [5 minutes sit to stand, 15 minutes walking on flat tiled surfaces, 10 minutes of walking on different surfaces including carpets and ceramic tiles, 15 minutes walking of tiled surfaces, 10 minutes of walking up and down ramps and passing through doorways. Throughout the training session the participant will be instructed by the PT on how to improve his/her standing and stepping kinematics. The duration of walking/stand training sessions will also be determined by participant's fatigue. Blood pressure (BP) will be taken at baseline seated, standing, and at regular intervals during the training session. If the participant complains of dizziness, light headedness, or any autonomic nervous system agitation the participant will rest seated (feet elevated). After 5 minutes of rest, the participant will recommence the standing again and blood pressure will be monitored. If a participant cannot tolerate training for 60 minutes, he or she will finish training and training time will be recorded for future analysis. Before each training session, BP will be evaluated (3 consecutive BP measurements within 5mmHg at 1-minute intervals). Once BP is stable, the participant will begin to train. Transcutaneous spinal cord stimulation (TLS): TLS will be applied during the EAW+TLS group training sessions. TLS will be applied using a pair of self-adhesive stimulating electrodes (5cm diameter,) placed bilaterally over the T11/T12 spinous processes. A constant-voltage stimulator (RT™ 50 Sage stimulators, RT therapy, Baltimore, MD) will deliver charge balanced, symmetric, biphasic rectangular pulses of 2 ms width (1 ms per phase). During the walking times in all training sessions of the EAW +TLS group, TLS at 30 Hz and ~18 V (will be adjusted due to individual variations), an intensity producing paraesthesias in most of the lower-limb dermatomes, yet below motor threshold for the lower-limb muscles (Hofstoetter et al. 2013). Note: Surface stimulators will be wireless and will operate during all aspects of EAW at sub threshold levels that will not illicit muscle activation during the EAW training. The Exoskeleton device will not interfere with surface stimulation electrode placement and parameters of stimulation can be modulated by the "new" notepad device that is part of the system. The investigators will also be evaluating the changes in spatial temporal characteristics, kinematics and muscle activation and quality of spinal cord fiber tract (SCFT) connectivity by high-resolution imaging as a result of the intensive training as these also influence recovery for iSCI. Group 2: EAW Training alone: Training will involve using a same exoskeleton device (Ekso Bionics, Berkeley, CA) for all the participants. Donning Device. Each participant will undergo measurement, sizing, and "donning" of the exoskeleton device. Each participant will then be instructed in proper use of the device. Initial Evaluation. All individuals will undergo a stand evaluation. A trainer positioned behind the participant will aid in trunk stabilization, by applying anterior forces at the pelvis and/or posterior forces at the shoulders, ensuring that the trunk and pelvis are not flexed or hyper-extended. Trainers will assist in instruction of moving the trunk and pelvis to facilitate the robot to step. During the initial 3 sessions of training, the exoskeleton device will be tethered to an overhead pulley system during training to allow participants to safely adapt to trunk, balance gait activities while walking in the exoskeleton. The overall goal of these early training sessions is to maintain trunk and limb control during stance and swing which resembles normal standing and walking. ;

Related Conditions & MeSH terms

• Ambulation Difficulty
• Mobility Limitation
• Muscle Spasticity
• Spinal Cord Injuries
• Spinal Cord Injury

• NCT number: NCT03096197
• Study type: Interventional
• Source: Kessler Foundation
• Contact: Gail F Forrest, PhD
• Phone: 973-324-3518
• Email: gforrest@kesslerfoundation.org
• Status: Recruiting
• Phase: N/A
• Start date: March 30, 2017
• Completion date: September 2025