Reorganization of finger coordination patterns through motor exploration in individuals after stroke

Abstract Background Impairment of hand and finger function after stroke is common and affects the ability to perform activities of daily living. Even though many of these coordination deficits such as finger individuation have been well characterized, it is critical to understand how stroke survivor...

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Main Author: Rajiv Ranganathan
Format: Article
Language:English
Published: BMC 2017-09-01
Series:Journal of NeuroEngineering and Rehabilitation
Subjects:
Online Access:http://link.springer.com/article/10.1186/s12984-017-0300-8
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spelling doaj-f3cc7e4982f74f488bac645c4510cf1e2020-11-24T21:02:16ZengBMCJournal of NeuroEngineering and Rehabilitation1743-00032017-09-0114111210.1186/s12984-017-0300-8Reorganization of finger coordination patterns through motor exploration in individuals after strokeRajiv Ranganathan0Department of Kinesiology, Michigan State UniversityAbstract Background Impairment of hand and finger function after stroke is common and affects the ability to perform activities of daily living. Even though many of these coordination deficits such as finger individuation have been well characterized, it is critical to understand how stroke survivors learn to explore and reorganize their finger coordination patterns for optimizing rehabilitation. In this study, I examine the use of a body-machine interface to assess how participants explore their movement repertoire, and how this changes with continued practice. Methods Ten participants with chronic stroke wore a data glove and the finger joint angles were mapped on to the position of a cursor on a screen. The task of the participants was to move the cursor back and forth between two specified targets on a screen. Critically, the map between the finger movements and cursor motion was altered so that participants sometimes had to generate coordination patterns that required finger individuation. There were two phases to the experiment – an initial assessment phase on day 1, followed by a learning phase (days 2–5) where participants trained to reorganize their coordination patterns. Results Participants showed difficulty in performing tasks which had maps that required finger individuation, and the degree to which they explored their movement repertoire was directly related to clinical tests of hand function. However, over four sessions of practice, participants were able to learn to reorganize their finger movement coordination pattern and improve their performance. Moreover, training also resulted in improvements in movement repertoire outside of the context of the specific task during free exploration. Conclusions Stroke survivors show deficits in movement repertoire in their paretic hand, but facilitating movement exploration during training can increase the movement repertoire. This suggests that exploration may be an important element of rehabilitation to regain optimal function.http://link.springer.com/article/10.1186/s12984-017-0300-8StrokeHandFingerLearningCoordinationExploration
collection DOAJ
language English
format Article
sources DOAJ
author Rajiv Ranganathan
spellingShingle Rajiv Ranganathan
Reorganization of finger coordination patterns through motor exploration in individuals after stroke
Journal of NeuroEngineering and Rehabilitation
Stroke
Hand
Finger
Learning
Coordination
Exploration
author_facet Rajiv Ranganathan
author_sort Rajiv Ranganathan
title Reorganization of finger coordination patterns through motor exploration in individuals after stroke
title_short Reorganization of finger coordination patterns through motor exploration in individuals after stroke
title_full Reorganization of finger coordination patterns through motor exploration in individuals after stroke
title_fullStr Reorganization of finger coordination patterns through motor exploration in individuals after stroke
title_full_unstemmed Reorganization of finger coordination patterns through motor exploration in individuals after stroke
title_sort reorganization of finger coordination patterns through motor exploration in individuals after stroke
publisher BMC
series Journal of NeuroEngineering and Rehabilitation
issn 1743-0003
publishDate 2017-09-01
description Abstract Background Impairment of hand and finger function after stroke is common and affects the ability to perform activities of daily living. Even though many of these coordination deficits such as finger individuation have been well characterized, it is critical to understand how stroke survivors learn to explore and reorganize their finger coordination patterns for optimizing rehabilitation. In this study, I examine the use of a body-machine interface to assess how participants explore their movement repertoire, and how this changes with continued practice. Methods Ten participants with chronic stroke wore a data glove and the finger joint angles were mapped on to the position of a cursor on a screen. The task of the participants was to move the cursor back and forth between two specified targets on a screen. Critically, the map between the finger movements and cursor motion was altered so that participants sometimes had to generate coordination patterns that required finger individuation. There were two phases to the experiment – an initial assessment phase on day 1, followed by a learning phase (days 2–5) where participants trained to reorganize their coordination patterns. Results Participants showed difficulty in performing tasks which had maps that required finger individuation, and the degree to which they explored their movement repertoire was directly related to clinical tests of hand function. However, over four sessions of practice, participants were able to learn to reorganize their finger movement coordination pattern and improve their performance. Moreover, training also resulted in improvements in movement repertoire outside of the context of the specific task during free exploration. Conclusions Stroke survivors show deficits in movement repertoire in their paretic hand, but facilitating movement exploration during training can increase the movement repertoire. This suggests that exploration may be an important element of rehabilitation to regain optimal function.
topic Stroke
Hand
Finger
Learning
Coordination
Exploration
url http://link.springer.com/article/10.1186/s12984-017-0300-8
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