Robot-assisted Therapy in Stroke Rehabilitation.
Won Hyuk Chang,Yun-Hee Kim +1 more
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TLDR
The present evidence supports the use of robot-assisted therapy for improving motor function in stroke patients as an additional therapeutic intervention in combination with the conventional rehabilitation therapies.Abstract:
Research into rehabilitation robotics has grown rapidly and the number of therapeutic rehabilitation robots has expanded dramatically during the last two decades. Robotic rehabilitation therapy can deliver high-dosage and high-intensity training, making it useful for patients with motor disorders caused by stroke or spinal cord disease. Robotic devices used for motor rehabilitation include end-effector and exoskeleton types; herein, we review the clinical use of both types. One application of robot-assisted therapy is improvement of gait function in patients with stroke. Both end-effector and the exoskeleton devices have proven to be effective complements to conventional physiotherapy in patients with subacute stroke, but there is no clear evidence that robotic gait training is superior to conventional physiotherapy in patients with chronic stroke or when delivered alone. In another application, upper limb motor function training in patients recovering from stroke, robot-assisted therapy was comparable or superior to conventional therapy in patients with subacute stroke. With end-effector devices, the intensity of therapy was the most important determinant of upper limb motor recovery. However, there is insufficient evidence for the use of exoskeleton devices for upper limb motor function in patients with stroke. For rehabilitation of hand motor function, either end-effector and exoskeleton devices showed similar or additive effects relative to conventional therapy in patients with chronic stroke. The present evidence supports the use of robot-assisted therapy for improving motor function in stroke patients as an additional therapeutic intervention in combination with the conventional rehabilitation therapies. Nevertheless, there will be substantial opportunities for technical development in near future.read more
Citations
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A Game Changer: the Use of Digital Technologies in the Management of Upper Limb Rehabilitation Following Stroke
Rachael Ballantyne,Paul Rea +1 more
TL;DR: In this article, a meta-analysis literature search was carried out using the preferred reporting items for systematic review and meta-analyses (PRISMA) method, and articles were then categorized and pooled into the following groups; pro/anti/neutral for the use of digital technology.
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Design of Post-stroke Upper Limb Rehabilitation Game using Functional Electrical Stimulation for Hemiplegic Patient
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TL;DR: In this article, the authors used functional electrical stimulation with PID control, combined with repetitive game scenario, to ease the patient's psychological burden during stroke rehabilitation, and achieved an accuracy of 100%.
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Fuzzy Adaptive Passive Control Strategy Design for Upper-Limb End-Effector Rehabilitation Robot
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Effectiveness of rehabilitation of patients with cerebrovascular insufficiency using the biofeedback method
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References
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Journal ArticleDOI
Guidelines for management of ischaemic stroke and transient ischaemic attack 2008
Peter A. Ringleb,Marie-Germaine Bousser,Gary A. Ford,Philip M.W. Bath,Michael Brainin,Valeria Caso,Álvaro Cervera,Ángel Chamorro,Charlotte Cordonnier,László Csiba,Antoni Dávalos,Hans-Christoph Diener,José M. Ferro,Werner Hacke,Michael G. Hennerici,Markku Kaste,Peter Langhorne,Kennedy R. Lees,Didier Leys,J. Lodder,Hugh S. Markus,Jean-Louis Mas,Heinrich Mattle,Keith W. Muir,Bo Norrving,Victor Obach,Stefano Paolucci,E. Bernd Ringelstein,Peter D. Schellinger,Juhani Sivenius,Skvortsova Vi,Katharina S. Sunnerhagen,Lars Thomassen,Danilo Toni,Rüdiger von Kummer,Nils Wahlgren,Marion F Walker,Joanna M. Wardlaw +37 more
TL;DR: The article covers referral and emergency management, Stroke Unit service, diagnostics, primary and secondary prevention, general stroke treatment, specific treatment including acute management, management of complications, and rehabilitation.
Journal ArticleDOI
Stroke Care 2: Stroke rehabilitation
TL;DR: There is evidence to support rehabilitation in well coordinated multidisciplinary stroke units or through provision of early supported provision of discharge teams and promising interventions that could be beneficial to improve aspects of gait include fitness training, high-intensity therapy, and repetitive-task training.
Journal ArticleDOI
Robot-Assisted Therapy for Long-Term Upper-Limb Impairment after Stroke
Albert C. Lo,Peter Guarino,Lorie Richards,Jodie K. Haselkorn,George F. Wittenberg,Daniel G. Federman,Daniel G. Federman,Robert J. Ringer,Todd H. Wagner,Hermano Igo Krebs,Bruce T. Volpe,Christopher T. Bever,Dawn M. Bravata,Pamela W. Duncan,Barbara H. Corn,Alysia D. Maffucci,Stephen E. Nadeau,Susan S. Conroy,Janet M. Powell,Grant D. Huang,Peter Peduzzi +20 more
TL;DR: In patients with long-term upper-limb deficits after stroke, robot-assisted therapy did not significantly improve motor function at 12 weeks, as compared with usual care or intensive therapy.
Journal ArticleDOI
Robot-assisted movement training compared with conventional therapy techniques for the rehabilitation of upper-limb motor function after stroke.
TL;DR: Compared with conventional treatment, robot-assisted movements had advantages in terms of clinical and biomechanical measures and was justified into the use of robotic manipulation for motor rehabilitation.
Journal ArticleDOI
Intensity of leg and arm training after primary middle-cerebral-artery stroke: a randomised trial
TL;DR: Greater intensity of leg rehabilitation improves functional recovery and health-related functional status, whereas greater intensity of arm rehabilitation results in small improvements in dexterity, providing further evidence that exercise therapy primarily induces treatment effects on the abilities at which training is specifically aimed.
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