Influence of bimanual exercise on muscle activation in post-stroke patients

Influence of bimanual exercise on muscle activation in post-stroke patients

Abstract Brain damage due to stroke often leaves survivors with lateral functional motor deficits. Bimanual rehabilitation of the paretic arm is an active field of research aimed at restoring normal functionality by making use of the complex neural bindings that exist between the arms. In search of...

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Bibliographic Details
Main Authors: Matti Itkonen, Álvaro Costa, Hiroshi Yamasaki, Shotaro Okajima, Fady Alnajjar, Takatsune Kumada, Shingo Shimoda
Format: Article
Language:English
Published: SpringerOpen 2019-11-01
Series:ROBOMECH Journal
Subjects:
Electromyography
Bimanual training
Post-stroke rehabilitation
Hemiparesis
Motor behavior
Online Access:http://link.springer.com/article/10.1186/s40648-019-0142-1
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spelling doaj-4e995d3f516b4c8a8209cb2d2682e36c2020-11-25T04:02:47ZengSpringerOpenROBOMECH Journal2197-42252019-11-016111110.1186/s40648-019-0142-1Influence of bimanual exercise on muscle activation in post-stroke patientsMatti Itkonen0Álvaro Costa1Hiroshi Yamasaki2Shotaro Okajima3Fady Alnajjar4Takatsune Kumada5Shingo Shimoda6Intelligent Behavior Control Unit, RIKEN CBS-TOYOTA Collaboration CenterIntelligent Behavior Control Unit, RIKEN CBS-TOYOTA Collaboration CenterIntelligent Behavior Control Unit, RIKEN CBS-TOYOTA Collaboration CenterIntelligent Behavior Control Unit, RIKEN CBS-TOYOTA Collaboration CenterIntelligent Robot Interaction Laboratory, College of IT, United Arab Emirates UniversityLaboratory of Psychoinformatics, Department of Intelligence Science and Technology, Kyoto UniversityIntelligent Behavior Control Unit, RIKEN CBS-TOYOTA Collaboration CenterAbstract Brain damage due to stroke often leaves survivors with lateral functional motor deficits. Bimanual rehabilitation of the paretic arm is an active field of research aimed at restoring normal functionality by making use of the complex neural bindings that exist between the arms. In search of an effective rehabilitation method, we introduced a group of post-stroke rehabilitation patients to a set of bimanual motion tasks with inter-manual coupling and phasing. The surface EMG profiles of the patients were compared in order to understand the effect of the motion conditions. The paretic arms of the patients were more strongly affected by the task conditions compared with the non-paretic arms. These results suggest that in-phase motion may activate neural circuits that trigger recovery. Coupling also had an effect on behavior, but the response of patients was divided between those whom coupling helped or hindered.http://link.springer.com/article/10.1186/s40648-019-0142-1ElectromyographyBimanual trainingPost-stroke rehabilitationHemiparesisMotor behavior
collection DOAJ
language English
format Article
sources DOAJ
author Matti Itkonen
Álvaro Costa
Hiroshi Yamasaki
Shotaro Okajima
Fady Alnajjar
Takatsune Kumada
Shingo Shimoda
spellingShingle Matti Itkonen
Álvaro Costa
Hiroshi Yamasaki
Shotaro Okajima
Fady Alnajjar
Takatsune Kumada
Shingo Shimoda
Influence of bimanual exercise on muscle activation in post-stroke patients
ROBOMECH Journal
Electromyography
Bimanual training
Post-stroke rehabilitation
Hemiparesis
Motor behavior
author_facet Matti Itkonen
Álvaro Costa
Hiroshi Yamasaki
Shotaro Okajima
Fady Alnajjar
Takatsune Kumada
Shingo Shimoda
author_sort Matti Itkonen
title Influence of bimanual exercise on muscle activation in post-stroke patients
title_short Influence of bimanual exercise on muscle activation in post-stroke patients
title_full Influence of bimanual exercise on muscle activation in post-stroke patients
title_fullStr Influence of bimanual exercise on muscle activation in post-stroke patients
title_full_unstemmed Influence of bimanual exercise on muscle activation in post-stroke patients
title_sort influence of bimanual exercise on muscle activation in post-stroke patients
publisher SpringerOpen
series ROBOMECH Journal
issn 2197-4225
publishDate 2019-11-01
description Abstract Brain damage due to stroke often leaves survivors with lateral functional motor deficits. Bimanual rehabilitation of the paretic arm is an active field of research aimed at restoring normal functionality by making use of the complex neural bindings that exist between the arms. In search of an effective rehabilitation method, we introduced a group of post-stroke rehabilitation patients to a set of bimanual motion tasks with inter-manual coupling and phasing. The surface EMG profiles of the patients were compared in order to understand the effect of the motion conditions. The paretic arms of the patients were more strongly affected by the task conditions compared with the non-paretic arms. These results suggest that in-phase motion may activate neural circuits that trigger recovery. Coupling also had an effect on behavior, but the response of patients was divided between those whom coupling helped or hindered.
topic Electromyography
Bimanual training
Post-stroke rehabilitation
Hemiparesis
Motor behavior
url http://link.springer.com/article/10.1186/s40648-019-0142-1
work_keys_str_mv AT mattiitkonen influenceofbimanualexerciseonmuscleactivationinpoststrokepatients
AT alvarocosta influenceofbimanualexerciseonmuscleactivationinpoststrokepatients
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AT shotarookajima influenceofbimanualexerciseonmuscleactivationinpoststrokepatients
AT fadyalnajjar influenceofbimanualexerciseonmuscleactivationinpoststrokepatients
AT takatsunekumada influenceofbimanualexerciseonmuscleactivationinpoststrokepatients
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