A System to Integrate Electrical Stimulation With Robotically Controlled Treadmill Training to Rehabilitate Stepping After Spinal Cord Injury

Author

Chao, Tekang ; Askari, Sina ; De Leon, Ray ; Won, Deborah

Author_Institution

Dept. of Electr. Eng., California State Univ. - Los Angeles, Los Angeles, CA, USA

Volume

20

Issue

5

fYear

2012

Firstpage

730

Lastpage

737

Abstract

A functional electrical stimulation (FES) system was engineered to integrate information from a robotically controlled position during stepping in order to time stimulation to continuous gait information in a rodent model of spinal cord injury (SCI). In contrast to conventional FES systems which have a fixed timing pattern relative to gait cycle onset (i.e., toe off/heel off or paw contact/heel strike), this system allows adaptation of stimulation to a robotically controlled position. Rationale for the system design is presented along with bench-test results verifying the timing of the stimulation with respect to hindlimb position. This robotically timed FES system will enable studies investigating the capability of this FES therapy to encourage rehabilitation by way of spinal plasticity.

Keywords

electromyography; gait analysis; injuries; medical robotics; neuromuscular stimulation; patient rehabilitation; position control; training; EMG; bench-test results; continuous gait information; fíxed timing pattern; functional electrical stimulation system; functional electrical stimulation therapy; gait cycle onset; hindlimb position; paw contact-heel strike; robotically controlled position; robotically controlled treadmill training; spinal cord injury; spinal plasticity; stepping rehabilitation; toe off-heel off strike; Legged locomotion; Medical treatment; Robot kinematics; Robot sensing systems; Training; Trajectory; EMG; functional electrical stimulation (FES); kinematics; neuromuscular electrical stimulation (NMES); rehabilitation; robotic treadmill training; rodent model; spinal cord injury; Animals; Combined Modality Therapy; Electric Stimulation Therapy; Equipment Design; Equipment Failure Analysis; Exercise Test; Gait Disorders, Neurologic; Humans; Rats; Robotics; Spinal Cord Injuries; Systems Integration; Therapy, Computer-Assisted; Treatment Outcome;

fLanguage

English

Journal_Title

Neural Systems and Rehabilitation Engineering, IEEE Transactions on

Publisher

ieee

ISSN

1534-4320

Type

jour

DOI

10.1109/TNSRE.2012.2202292

Filename

6212365