Robotic Devices for Movement Therapy After Stroke: Current Status and Challenges to Clinical Acceptance
- 1 January 2002
- journal article
- research article
- Published by Taylor & Francis in Topics in Stroke Rehabilitation
- Vol. 8 (4) , 40-53
- https://doi.org/10.1310/9kfm-kf81-p9a4-5ww0
Abstract
Robotic devices for movement therapy are moving closer to becoming commercially available tools for aiding in stroke rehabilitation. Robotic technology offers a range of functions that will augment current clinical practice by leveraging therapists' time, cost effectively extending therapy programs, providing new measures of impairment, and offering new therapy protocols. In this article, we review work from several research laboratories that supports the clinical value of stroke therapy systems. A commercialization effort based on these results is described. We also discuss challenges to achieving clinical acceptance and practical implementation of these devices.Keywords
This publication has 23 references indexed in Scilit:
- Treatment-Induced Cortical Reorganization After Stroke in HumansStroke, 2000
- A novel approach to stroke rehabilitationNeurology, 2000
- Stretch reflex adaptation in elbow flexors during repeated passive movements in unilateral brain-injured patientsArchives of Physical Medicine and Rehabilitation, 2000
- Forced Use of the Upper Extremity in Chronic Stroke PatientsStroke, 1999
- Effect of severity of arm impairment on response to additional physiotherapy early after strokeClinical Rehabilitation, 1999
- Effects of Constraint-Induced Movement Therapy on Patients With Chronic Motor Deficits After StrokeStroke, 1999
- Effect of a Therapeutic Intervention for the Hemiplegic Upper Limb in the Acute Phase After StrokeStroke, 1998
- Neural Substrates for the Effects of Rehabilitative Training on Motor Recovery After Ischemic InfarctScience, 1996
- Repetitive training of isolated movements improves the outcome of motor rehabilitation of the centrally paretic handJournal of the Neurological Sciences, 1995
- Amphetamine, Haloperidol, and Experience Interact to Affect Rate of Recovery After Motor Cortex InjuryScience, 1982