Litcius/Paper detail

Myoelectric Arm Orthosis in Motor Learning-Based Therapy for Chronic Deficits After Stroke and Traumatic Brain Injury

Svetlana Pundik, Jessica McCabe, Margaret Skelly, Ahlam Salameh, Jonathan Naft, Zhengyi Chen, Curtis Tatsuoka, Stefania Fatone

2022Frontiers in Neurology17 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Technologies that enhance motor learning-based therapy and are clinically deployable may improve outcome for those with neurological deficits. The MyoPro™ is a customized myoelectric upper extremity orthosis that utilizes volitionally generated weak electromyographic signals from paretic muscles to assist movement of an impaired arm. Our purpose was to evaluate MyoPro as a tool for motor learning-based therapy for individuals with chronic upper limb weakness. METHODS: = 6) who participated in a single group interventional study consisting of 2 phases. The in-clinic phase included 18 sessions (2x per week, 27hrs of face-to-face therapy) plus a home exercise program. The home phase included practice of the home exercise program. The study did not include a control group. Outcomes were collected at baseline and at weeks 3, 5, 7, 9, 12, 15, and 18. Statistics included mixed model regression analysis. RESULTS: Statistically significant and clinically meaningful improvements were observed on Fugl-Meyer (+7.5 points). Gains were seen at week 3, increased further through the in-clinic phase and were maintained during the home phase. Statistically significant changes in Modified Ashworth Scale, Range of Motion, and Chedoke Arm and Hand Activity Inventory were seen early during the in-clinic phase. Orthotic and Prosthetic User's Survey demonstrated satisfaction with the device throughout study participation. Both stroke and TBI participants responded to the intervention. CONCLUSIONS: Use of MyoPro in motor learning-based therapy resulted in clinically significant gains with a relatively short duration of in-person treatment. Further studies are warranted. CLINICAL TRIAL REGISTRATION: www.ClinicalTrials.gov, identifier: NCT03215771.

Topics & Concepts

Physical medicine and rehabilitationMedicineMotor learningPhysical therapyWeaknessModified Ashworth scaleStroke (engine)Upper limbTraumatic brain injuryMotor skillRange of motionRehabilitationPsychologySurgeryNeuroscienceMechanical engineeringEngineeringPsychiatryStroke Rehabilitation and RecoveryMuscle activation and electromyography studiesCerebral Palsy and Movement Disorders
Myoelectric Arm Orthosis in Motor Learning-Based Therapy for Chronic Deficits After Stroke and Traumatic Brain Injury | Litcius