Title :
A review of portable FES-based neural orthoses for the correction of drop foot
Author :
Lyons, Gerard M. ; Sinkjaer, Thomas ; Burridge, Jane H. ; Wilcox, David J.
Author_Institution :
Dept. of Electron. & Comput. Eng., Limerick Univ., Ireland
Abstract :
Reviews the technological developments in neural orthoses for the correction of upper motor neurone drop foot since 1961, when the technique was first proposed by Liberson and his co-workers. Drop foot stimulator (DFS) developments are reviewed starting with hard-wired single-channel and multichannel surface functional electrical stimulation (FES) systems, followed by implanted drop foot stimulators, and then continuing with microprocessor-based surface and implanted drop foot stimulators. The review examines the role of artificial and "natural" sensors as replacements for the foot-switch as the primary control sensor in drop foot stimulators. DFS systems incorporating real-time control of FES and completely implanted DFS systems finish the review.
Keywords :
gait analysis; handicapped aids; medical control systems; microcomputer applications; neuromuscular stimulation; orthotics; patient rehabilitation; real-time systems; reviews; FES; artificial sensors; cerebral palsy; completely implanted DFS systems; drop foot correction; drop foot stimulator developments; foot-switch replacements; gait correction; hard-wired single-channel functional electrical stimulation; head injury; implanted drop foot stimulators; microprocessor-based surface drop foot stimulators; multichannel surface functional electrical stimulation; multiple sclerosis; natural sensors; portable FES-based neural orthoses; primary control sensor; real-time control; review; spasticity; spinal cord injury; stroke; technological developments; upper motor neurone drop foot; Brain injuries; Control systems; Foot; Multiple sclerosis; Muscles; Neuromuscular stimulation; Orthotics; Paper technology; Pathology; Real time systems; Electric Stimulation Therapy; Electrodes, Implanted; Equipment Design; Foot; Gait Disorders, Neurologic; Humans; Microelectrodes; Miniaturization; Muscle, Skeletal; Orthotic Devices; Peroneal Nerve; Therapy, Computer-Assisted; Transducers;
Journal_Title :
Neural Systems and Rehabilitation Engineering, IEEE Transactions on
DOI :
10.1109/TNSRE.2002.806832
