Evaluation of a novel real-time adaptive assist-as-needed controller for robot-assisted upper extremity rehabilitation following stroke

Rehabilitation therapy plays an essential role in assisting people with stroke regain arm function. Upper extremity robot therapy offers a number of advantages over manual therapies, but can suffer from slacking behavior, where the user lets the robot guide their movements even when they are capable...

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Bibliographic Details
Published in:PloS one 2023-10, Vol.18 (10), p.e0292627-e0292627
Main Authors: Arantes, Ana P, Bressan, Nadja, Borges, Ludymila R, McGibbon, Chris A
Format: Article
Language:English
Subjects:
Adaptive control
Analysis
Biology and Life Sciences
Business metrics
Care and treatment
Complications and side effects
Control algorithms
Controllers
Diagnosis
EEG
Electroencephalography
Electromyography
Engineering and Technology
Entropy
Health aspects
Manipulative therapy
Medicine and Health Sciences
Patient outcomes
Performance measurement
Physical Sciences
Rehabilitation
Research and Analysis Methods
Robotics
Robots
Stroke
Stroke (Disease)
Therapy
Training
Velocity
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Summary:Rehabilitation therapy plays an essential role in assisting people with stroke regain arm function. Upper extremity robot therapy offers a number of advantages over manual therapies, but can suffer from slacking behavior, where the user lets the robot guide their movements even when they are capable of doing so by themselves, representing a major barrier to reaching the full potential of robot-assist rehabilitation. This is a pilot clinical study that investigates the use of an electromyography-based adaptive assist-as-needed controller to avoid slacking behavior during robotic rehabilitation for people with stroke. The study involved a convenience sample of five individuals with chronic stroke who underwent a robot therapy program utilizing horizontal arm tasks. The Fugl-Meyer assessment (FM) was used to document motor impairment status at baseline. Velocity, time, and position were quantified as performance parameters during the training. Arm and shoulder surface electromyography (EMG) and electroencephalography (EEG) were used to assess the controller's performance. The cross-sectional results showed strong second-order relationships between FM score and outcome measures, where performance metrics (path length and accuracy) were sensitive to change in participants with lower functional status. In comparison, speed, EMG and EEG metrics were more sensitive to change in participants with higher functional status. EEG signal amplitude increased when the robot suggested that the robot was inducing a challenge during the training tasks. This study highlights the importance of multi-sensor integration to monitor and improve upper-extremity robotic therapy.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0292627