Stroke Clinical Trial
Official title:
Does the Addition of Virtual Reality Training to a Standard Program of Inpatient Rehabilitation Improve Sitting Balance Ability and Function After Stroke? A Blinded Randomized Controlled Trial.
| Verified date | April 2017 |
| Source | Bruyere Research Institute |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
The purpose of this study is to determine if the addition of 10 to 12 sessions of sitting balance exercises using virtual reality training will provide additional gains in balance ability and function over standard inpatient rehabilitation in stroke patients.
| Status | Completed |
| Enrollment | 76 |
| Est. completion date | March 30, 2017 |
| Est. primary completion date | March 1, 2017 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility |
Inclusion Criteria: - ischemic or hemorrhagic stroke in the left or right cortical or subcortical regions - medically stable - cannot stand independently for >1 minute or cannot stand at all - can sit for at least 20 minutes with or without trunk support and can sit for at least 1 minute without trunk support - able to provide informed consent Exclusion Criteria: - unstable cardiovascular, respiratory, endocrine, orthopedic or neurological condition that precludes exercise of low to moderate intensity - vestibular deficits or vertigo - seizure activity in the previous 6 months |
| Country | Name | City | State |
|---|---|---|---|
| Canada | Elisabeth Bruyere Hospital | Ottawa | Ontario |
| Lead Sponsor | Collaborator |
|---|---|
| Bruyere Research Institute | Heart and Stroke Foundation of Canada, Ottawa Hospital Research Institute, University of Ottawa |
Canada,
McEwen D, Taillon-Hobson A, Bilodeau M, Sveistrup H, Finestone H. Virtual reality exercise improves mobility after stroke: an inpatient randomized controlled trial. Stroke. 2014 Jun;45(6):1853-5. doi: 10.1161/STROKEAHA.114.005362. Epub 2014 Apr 24. — View Citation
Sheehy L, Taillon-Hobson A, Sveistrup H, Bilodeau M, Fergusson D, Levac D, Finestone H. Does the addition of virtual reality training to a standard program of inpatient rehabilitation improve sitting balance ability and function after stroke? Protocol for a single-blind randomized controlled trial. BMC Neurol. 2016 Mar 31;16:42. doi: 10.1186/s12883-016-0563-x. — View Citation
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Change in the Function In Sitting Test (FIST) from baseline to after 10-12 treatment sessions | assesses static, dynamic and reactional sitting balance | baseline, immediately after 10-12 treatments | |
| Primary | Change in the Function In Sitting Test (FIST) from baseline to 1 month after second assessment | assesses static, dynamic and reactional sitting balance | baseline,1 month after second assessment | |
| Secondary | Change in the Ottawa Sitting Scale (OSS) from baseline to after 10-12 treatment sessions | assesses static and dynamic sitting balance | baseline, immediately after 10-12 treatments | |
| Secondary | Change in the Ottawa Sitting Scale (OSS) from baseline to 1 month after second assessment | assesses static and dynamic sitting balance | baseline, 1 month after second assement | |
| Secondary | Change in Limits of stability in sitting (LoS) from baseline to after 10-12 treatment sessions | assesses dynamic sitting balance using a force plate or pressure mat | before treatment, immediately after 10-12 treatments | |
| Secondary | Change in Limits of stability in sitting (LoS) from baseline to 1 month after second assessment | assesses dynamic sitting balance using a force plate or pressure mat | baseline, 1 month after second assement | |
| Secondary | Change in Postural sway in sitting from baseline to after 10-12 treatment sessions | assesses static sitting balance using a force plate or pressure mat | baseline, immediately after 10-12 treatments | |
| Secondary | Change in Postural sway in sitting from baseline to 1 month after second assessment | assesses static sitting balance using a force plate or pressure mat | baseline, 1 month after second assement | |
| Secondary | Change in the Reaching Performance Scale (RPS) from baseline to after 10-12 treatment sessions | assesses sitting balance function during reaching | baseline, immediately after 10-12 treatments | |
| Secondary | Change in the Reaching Performance Scale (RPS) from baseline to 1 month after second assessment | assesses sitting balance function during reaching | baseline, 1 month after second assement | |
| Secondary | Change in the Wolf Motor Function Test (WMFT) from baseline to after 10-12 treatment sessions | assesses sitting balance function using global arm function | baseline, immediately after 10-12 treatments | |
| Secondary | Change in the Wolf Motor Function Test (WMFT) from baseline to 1 month after second assessment | assesses sitting balance function using global arm function | baseline, 1 month after second assement | |
| Secondary | Change in The Motivation for Physical Activity Questionnaire from baseline to after 10-12 treatment sessions | Likert scale from 0-6 to assess motivation to engage in exercise | before treatment, immediately after 10-12 treatments | |
| Secondary | Change in The Motivation for Physical Activity Questionnaire from baseline to 1 month after second assessment | Likert scale from 0-6 to assess motivation to engage in exercise | baseline, 1 month after second assement | |
| Secondary | Change in the Behavioral Regulation in Exercise Questionnaire (BREQ-2) from baseline to after 10-12 treatment sessions | assesses quality of motivation to engage in exercise | baseline, immediately after 10-12 treatments | |
| Secondary | Change in the Behavioral Regulation in Exercise Questionnaire (BREQ-2) from baseline to 1 month after second assessment | assesses quality of motivation to engage in exercise | baseline, 1 month after second assessment | |
| Secondary | Psychosocial Impact of Assistive Devices Scale (PIADS) | assesses the psychosocial impact of assistive devices or technology on "functional independence, well-being and quality of life" | immediately after 10-12 treatments | |
| Secondary | Psychosocial Impact of Assistive Devices Scale (PIADS) | assesses the psychosocial impact of assistive devices or technology on "functional independence, well-being and quality of life" | 1 month after first assement | |
| Secondary | The ability to enroll an average of five new participants a month, to obtain a consent rate of 60% of eligible patients and a rate of protocol violations resulting in noncompliance with VRT of less than 10%. | assesses the feasibility of performing a larger multicentre trial of VRT with rehabilitation inpatients | immediately after 76 participants have finished the protocol and assessments |
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