Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study

Abstract Background Virtual reality technologies show potential as effective rehabilitation tools following neuro-trauma. In particular, the Elements system, involving customized surface computing and tangible interfaces, produces strong treatment effects for upper-limb and cognitive function follow...

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Main Authors: Jeffrey M. Rogers, Jonathan Duckworth, Sandy Middleton, Bert Steenbergen, Peter H. Wilson
Format: Article
Language:English
Published: BMC 2019-05-01
Series:Journal of NeuroEngineering and Rehabilitation
Subjects:
Online Access:http://link.springer.com/article/10.1186/s12984-019-0531-y
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spelling doaj-e6069480420247dda898a76bb790da5d2020-11-25T03:01:32ZengBMCJournal of NeuroEngineering and Rehabilitation1743-00032019-05-0116111310.1186/s12984-019-0531-yElements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot studyJeffrey M. Rogers0Jonathan Duckworth1Sandy Middleton2Bert Steenbergen3Peter H. Wilson4The University of Sydney, Faculty of Health SciencesSchool of DesignNursing Research Institute, St Vincent’s Health Australia and Australian Catholic UniversityBehavioural Science Institute, Radboud UniversityCentre for Disability and Development Research (CeDDR) and School of Behavioural and Health Science, Australian Catholic UniversityAbstract Background Virtual reality technologies show potential as effective rehabilitation tools following neuro-trauma. In particular, the Elements system, involving customized surface computing and tangible interfaces, produces strong treatment effects for upper-limb and cognitive function following traumatic brain injury. The present study evaluated the efficacy of Elements as a virtual rehabilitation approach for stroke survivors. Methods Twenty-one adults (42–94 years old) with sub-acute stroke were randomized to four weeks of Elements virtual rehabilitation (three weekly 30–40 min sessions) combined with treatment as usual (conventional occupational and physiotherapy) or to treatment as usual alone. Upper-limb skill (Box and Blocks Test), cognition (Montreal Cognitive Assessment and selected CogState subtests), and everyday participation (Neurobehavioral Functioning Inventory) were examined before and after inpatient training, and one-month later. Results Effect sizes for the experimental group (d = 1.05–2.51) were larger compared with controls (d = 0.11–0.86), with Elements training showing statistically greater improvements in motor function of the most affected hand (p = 0.008), and general intellectual status and executive function (p ≤ 0.001). Proportional recovery was two- to three-fold greater than control participants, with superior transfer to everyday motor, cognitive, and communication behaviors. All gains were maintained at follow-up. Conclusion A course of Elements virtual rehabilitation using goal-directed and exploratory upper-limb movement tasks facilitates both motor and cognitive recovery after stroke. The magnitude of training effects, maintenance of gains at follow-up, and generalization to daily activities provide compelling preliminary evidence of the power of virtual rehabilitation when applied in a targeted and principled manner. Trial registration this pilot study was not registered.http://link.springer.com/article/10.1186/s12984-019-0531-yCognitionMotor activityRehabilitationStrokeUpper extremityVirtual reality
collection DOAJ
language English
format Article
sources DOAJ
author Jeffrey M. Rogers
Jonathan Duckworth
Sandy Middleton
Bert Steenbergen
Peter H. Wilson
spellingShingle Jeffrey M. Rogers
Jonathan Duckworth
Sandy Middleton
Bert Steenbergen
Peter H. Wilson
Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
Journal of NeuroEngineering and Rehabilitation
Cognition
Motor activity
Rehabilitation
Stroke
Upper extremity
Virtual reality
author_facet Jeffrey M. Rogers
Jonathan Duckworth
Sandy Middleton
Bert Steenbergen
Peter H. Wilson
author_sort Jeffrey M. Rogers
title Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
title_short Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
title_full Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
title_fullStr Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
title_full_unstemmed Elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
title_sort elements virtual rehabilitation improves motor, cognitive, and functional outcomes in adult stroke: evidence from a randomized controlled pilot study
publisher BMC
series Journal of NeuroEngineering and Rehabilitation
issn 1743-0003
publishDate 2019-05-01
description Abstract Background Virtual reality technologies show potential as effective rehabilitation tools following neuro-trauma. In particular, the Elements system, involving customized surface computing and tangible interfaces, produces strong treatment effects for upper-limb and cognitive function following traumatic brain injury. The present study evaluated the efficacy of Elements as a virtual rehabilitation approach for stroke survivors. Methods Twenty-one adults (42–94 years old) with sub-acute stroke were randomized to four weeks of Elements virtual rehabilitation (three weekly 30–40 min sessions) combined with treatment as usual (conventional occupational and physiotherapy) or to treatment as usual alone. Upper-limb skill (Box and Blocks Test), cognition (Montreal Cognitive Assessment and selected CogState subtests), and everyday participation (Neurobehavioral Functioning Inventory) were examined before and after inpatient training, and one-month later. Results Effect sizes for the experimental group (d = 1.05–2.51) were larger compared with controls (d = 0.11–0.86), with Elements training showing statistically greater improvements in motor function of the most affected hand (p = 0.008), and general intellectual status and executive function (p ≤ 0.001). Proportional recovery was two- to three-fold greater than control participants, with superior transfer to everyday motor, cognitive, and communication behaviors. All gains were maintained at follow-up. Conclusion A course of Elements virtual rehabilitation using goal-directed and exploratory upper-limb movement tasks facilitates both motor and cognitive recovery after stroke. The magnitude of training effects, maintenance of gains at follow-up, and generalization to daily activities provide compelling preliminary evidence of the power of virtual rehabilitation when applied in a targeted and principled manner. Trial registration this pilot study was not registered.
topic Cognition
Motor activity
Rehabilitation
Stroke
Upper extremity
Virtual reality
url http://link.springer.com/article/10.1186/s12984-019-0531-y
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