Chronic Stroke Clinical Trial
Official title:
LSVT BIG for Chronic Stroke Rehabilitation: a Single-Case Experimental Design
This study aims to explore if the LSVT BIG® - a motor learning based treatment program designed for rehabilitation of people with Parkinson's disease could be beneficial for chronic stroke rehabilitation. A single-case experimental design with two adult participants, will be monitored for performance on self-selected goals before, during and after participating in the treatment program.
Over 700 000 Canadians are living with the effects of stroke. Approximately 60% of people
living with the effects of stroke need help with every day activities and 84% are limited in
the activities which they would like to participate in. Much research has focused on
interventions for acute and sub-acute rehabilitation but it is also known that gains can
still be made in the chronic stage. Among common rehabilitation interventions to reduce
impairment, there is moderate evidence of effectiveness of constraint induced movement
therapy (CIMT) and mirror therapy and weak evidence of effectiveness of repetitive task
training. However, positive effects on impairment do not necessarily carryover into
activities of daily living.
Therefore, an intervention program with a goal of improvement in occupational performance
outside of the clinical setting, one that targets everyday activities and participant
selected activities, would be a valuable tool for occupational therapy post stroke. The
objective of this study was to explore whether the LSVT BIG® program, an intervention
targeting participant-identified functional goals which includes strategies to encourage
generalization to other tasks, could be applicable to the rehabilitation of the chronic
effects of stroke.
LSVT BIG is a time limited, high intensity rehabilitation program designed to be used by
occupational therapists or physiotherapists to target Parkinson's disease motor symptoms of
bradykinesia and hypokinesia, in an outpatient environment, with a goal of improving
function. This intervention involves exercises and repetitive practice of patient-selected
activities with a focus on big (increased amplitude) movements. It is believed that this
will lead to normally paced and sized movements which will generalize to untrained
activities.
Although Parkinson's disease and stroke have different pathological mechanisms, the elements
in the LSVT BIG program are based on the same neuroplasticity and motor learning principles
that form the basis for stroke rehabilitation methods. What is novel, however, is the focus
on amplitude and just one cue, 'big', for all difficult movement situations, potentially
increasing generalizability outside of the clinical setting and trained activities.
The LSVT BIG program uses motor learning principles of blocked practice, serial practice and
elements of random practice (varying environmental factors), extrinsic feedback (including
verbal feedback, modeling, shaping and focus on knowledge of results) as well as a single
external, knowledge of results focused cue 'big' to encourage adaptation, recalibration of
the internal motor program of the movement, and transfer to other tasks. LSVT BIG also
respects the neuroplasticity principles of intensity, repetition, specificity and saliency
The aim of this study is to begin to explore the effectiveness of LSVT BIG in late stroke
rehabilitation.
The primary hypothesis is that participants with chronic stroke will demonstrate improvement
in trained activities following LSVT BIG.
A secondary hypothesis is that participants will also improve in untrained activities due to
carryover of the intervention effects.
Study Design A single-case experimental design (SCED) with one replication was used . An
A-B-A design was selected and included a baseline phase, an intervention phase, and a
post-intervention phase. Perceived performance and satisfaction with performance of
participant-selected activities, and self-report of everyday upper extremity use were the
outcomes subjected to repeated measures. In addition, pre- and post- measures of observed
performance quality and upper extremity function were carried out.
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