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Finger Movement Training After Stroke
Sponsor: North Carolina State University
Summary
Human development as a species has been strongly associated with the ability to dexterously manipulate objects and tools. Unfortunately, current therapy efforts typically fail to restore fine manual control after stroke. The goal of this study is to evaluate a new intervention that would combine targeted electrical stimulation of selected nerves with use a soft, pneumatically actuated hand exoskeleton to enhance repetitive practice of independent movements of the fingers and thumb in order to improve rehabilitation of hand function after stroke. The investigators will recruit stroke survivors in the subacute phase of recovery (2-18 months post-stroke). These participants will be involved in a 5-week intervention involving 15 training sessions. During these sessions, participants will train independent movement of the digits of the paretic hand. Evaluation of motor control of the paretic hand will occur prior to initiation of training, at the midpoint of the training period, after completion of training, and one month later.
Official title: A Multimodal Intervention to Improve Manual Dexterity in Subacute Stroke Survivors
Key Details
Gender
All
Age Range
21 Years - Any
Study Type
INTERVENTIONAL
Enrollment
36
Start Date
2023-09-05
Completion Date
2026-08
Last Updated
2024-11-14
Healthy Volunteers
No
Conditions
Interventions
Actuated Virtual Keyboard (AVK) system
The participant controls an avatar hand by the movement of their own digits. Each avatar digit corresponds to a given virtual key. "Sufficient" digit flexion results in "playing" of that key, with visual and auditory feedback of key strike. Participants will wear a soft exoskeleton, the PneuGlove, with embedded bend sensors to provide real-time measurement of digit flexion. Pneumatic resistance to flexion can be applied to each digit independently, along with extension assistance, through air chambers running through the glove. The FES is intended to assist finger flexion by activating extrinsic finger flexor muscles. A high-density 2×8 stimulation electrode grid will be placed over the median and ulnar nerves at the medial side of the upper arm. The stimulator can deliver electrical stimulation to any pair of electrodes. At the beginning of each session, the investigators will identify the electrode pairs which best produce flexion of each digit with minimal discomfort.
Occupational Therapy (OT)
Traditional occupational therapy training sessions.
Locations (1)
Hand Rehabilitation Lab
Raleigh, North Carolina, United States