Exoskeleton Research: Myoelectric Orthosis for Rehab of Severe Chronic Arm Motor Deficits

Summary

This study will evaluate the effects of combining motor learning-based therapy with use of the MyoPro , a wearable exoskeletal myoelectrically controlled orthotic device. MyoPro uses electromyographic (EMG) signals from the weak muscles to assist movement of the user's affected arm. The primary objective of this randomized controlled trial is to study the efficacy of using MyoPro in motor learning-based therapy for individuals with chronic stroke (\>6 months post) with severe upper limb motor deficits (Fugl-Meyer for Upper Limb score less than 30) compared with a similar dose of motor learning-based therapy alone. The secondary objectives are to evaluate neuroplasticity mechanisms, identify biomarkers of greater response to the intervention, and explore cost-effectiveness.

Conditions

• Chronic Stroke

Interventions

BEHAVIORAL

motor learning based therapy

Motor learning based therapy will include functional task/task component training and will be employed to practice hand-to-mouth, forward reach, grasp-release, and object manipulation. Training will include high repetition both in the clinic and during home exercise practice. Tasks will be decomposed into component parts and practiced in this manner with the goal of returning to full task performance as skill develops Training will be tailored to each individual subject's capability and progressed according to a motor control hierarchy to ensure adequate challenge. Training is always started at the appropriate level of challenge for an individual to ensure adequate challenge is delivered whether the individual is higher or lower functioning.

BEHAVIORAL

MyoPro

The MyoPro supports motor learning-based training by reinforcing coordinated movement practice, allowing for finely incrementalized training progression, and encouraging high repetition of movement. Importantly, the device assists the user to move the paretic limb in a manner they may otherwise be unable to do. This further motivates the user to continue attempts to move the paretic limb. When a user attempts to volitionally contract a weak muscle, sensors embedded within the MyoPro detect the EMG signal, which triggers activation of a motor within the device. The motor assists the user to complete the desired movement (e.g. opening of the hand).Subjects experience real-time biofeedback through their ability to sense and see movement of the target joint(s) and via their interface with the software on a computer that provides visual feedback of the EMG level of the contracting muscle

BEHAVIORAL

Home Exercise Program

Every subject will be assigned an individualized HEP. Therapy staff will create written handouts for the user to follow. The HEP will include photographs of the study participant performing his/her exercises/functional tasks along with written instructions. Each individual will have their own personalized HEP that will be created during their study participation and will be dispensed only to them. The HEP will reinforce in-clinic therapy. The HEP will be progressed regularly, and individuals will log practice time. The HEP for M+ML will include practice with and without the MyoPro; the HEP for ML-alone will include practice without MyoPro. Each HEP session will require approximately 90 minutes to complete.

Sponsors & Collaborators

• VA Office of Research and Development

  lead FED

Principal Investigators

• Svetlana Pundik, MD · Louis Stokes VA Medical Center, Cleveland, OH

Study Design

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

SINGLE

Model

PARALLEL

Eligibility

Min Age

18 Years

Max Age

89 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2022-04-01

Primary Completion

2027-04-01

Completion

2027-04-01

Countries

• United States

Study Locations