A clinically relevant method of analyzing continuous change in robotic upper extremity chronic stroke rehabilitation
A clinically relevant method of analyzing continuous change in robotic upper extremity chronic stroke rehabilitation
BACKGROUND: Robots designed for rehabilitation of the upper extremity after stroke facilitate high rates of repetition during practice of movements and record precise kinematic data, providing a method to investigate motor recovery profiles over time.
OBJECTIVE: To determine how motor recovery profiles during robotic interventions provide insight into improving clinical gains.
METHODS: A convenience sample (n = 22), from a larger randomized control trial, was taken of chronic stroke participants completing 12 sessions of arm therapy. One group received 60 minutes of robotic therapy (Robot only) and the other group received 45 minutes on the robot plus 15 minutes of translation-to-task practice (Robot + TTT). Movement time was assessed using the robot without powered assistance. Analyses (ANOVA, random coefficient modeling [RCM] with 2-term exponential function) were completed to investigate changes across the intervention, between sessions, and within a session.
RESULTS: Significant improvement (P < .05) in movement time across the intervention (pre vs post) was similar between the groups but there were group differences for changes between and within sessions (P < .05). The 2-term exponential function revealed a fast and slow component of learning that described performance across consecutive blocks. The RCM identified individuals who were above or below the marginal model.
CONCLUSIONS: The expanded analyses indicated that changes across time can occur in different ways but achieve similar goals and may be influenced by individual factors such as initial movement time. These findings will guide decisions regarding treatment planning based on rates of motor relearning during upper extremity stroke robotic interventions.
stroke rehabilitation, robotics, upper extremity
1-10
Massie, C.L.
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Du, Y.
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Conroy, S.S.
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Krebs, H.I.
7072f4df-82bf-4f36-b504-37447ad0ba1d
Wittenberg, G.F.
ec669f7e-cb4c-4484-bbcd-66866f61c31a
Bever, C.T.
0316a618-c3cd-4ba0-9643-54c27d471de9
Whitall, J.
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14 December 2015
Massie, C.L.
fd2c7571-60ba-45b4-9c09-53d928e3fca3
Du, Y.
57a3e151-c5bf-44d6-add4-b8cdb4ae6b90
Conroy, S.S.
e7ea29c4-5b3c-431c-870f-50b0d0f1717c
Krebs, H.I.
7072f4df-82bf-4f36-b504-37447ad0ba1d
Wittenberg, G.F.
ec669f7e-cb4c-4484-bbcd-66866f61c31a
Bever, C.T.
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Whitall, J.
9ad11814-bec4-4eab-a31f-e5f499403164
Massie, C.L., Du, Y., Conroy, S.S., Krebs, H.I., Wittenberg, G.F., Bever, C.T. and Whitall, J.
(2015)
A clinically relevant method of analyzing continuous change in robotic upper extremity chronic stroke rehabilitation.
Neurorehabilitation and Neural Repair, .
(doi:10.1177/1545968315620301).
(PMID:26671216)
Abstract
BACKGROUND: Robots designed for rehabilitation of the upper extremity after stroke facilitate high rates of repetition during practice of movements and record precise kinematic data, providing a method to investigate motor recovery profiles over time.
OBJECTIVE: To determine how motor recovery profiles during robotic interventions provide insight into improving clinical gains.
METHODS: A convenience sample (n = 22), from a larger randomized control trial, was taken of chronic stroke participants completing 12 sessions of arm therapy. One group received 60 minutes of robotic therapy (Robot only) and the other group received 45 minutes on the robot plus 15 minutes of translation-to-task practice (Robot + TTT). Movement time was assessed using the robot without powered assistance. Analyses (ANOVA, random coefficient modeling [RCM] with 2-term exponential function) were completed to investigate changes across the intervention, between sessions, and within a session.
RESULTS: Significant improvement (P < .05) in movement time across the intervention (pre vs post) was similar between the groups but there were group differences for changes between and within sessions (P < .05). The 2-term exponential function revealed a fast and slow component of learning that described performance across consecutive blocks. The RCM identified individuals who were above or below the marginal model.
CONCLUSIONS: The expanded analyses indicated that changes across time can occur in different ways but achieve similar goals and may be influenced by individual factors such as initial movement time. These findings will guide decisions regarding treatment planning based on rates of motor relearning during upper extremity stroke robotic interventions.
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Accepted/In Press date: 21 October 2015
Published date: 14 December 2015
Keywords:
stroke rehabilitation, robotics, upper extremity
Organisations:
Faculty of Health Sciences
Identifiers
Local EPrints ID: 388472
URI: http://eprints.soton.ac.uk/id/eprint/388472
ISSN: 1545-9683
PURE UUID: 8d82caac-d103-4a75-a02a-ff922346f380
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Date deposited: 03 Mar 2016 13:47
Last modified: 14 Mar 2024 22:57
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Contributors
Author:
C.L. Massie
Author:
Y. Du
Author:
S.S. Conroy
Author:
H.I. Krebs
Author:
G.F. Wittenberg
Author:
C.T. Bever
Author:
J. Whitall
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