Cerebrovascular Accident Clinical Trial
Official title:
Comparative Efficacy Research of Uni- vs Bi-lateral Arm Training Poststroke: Task-Related or Robotic
This proposed project aims to
- compare the effects of dose-matched unilateral vs bilateral vs unilateral combined with
bilateral upper limb rehabilitation based on task-related practice
- compare the effects of unilateral vs bilateral training based on robot-assisted devices
- study the predictors of treatment outcomes and clinimetric properties of the
biomechanical measures
An estimated 30% to 66 % of stroke victims have poor upper extremity function at 6 months
after stroke, which contributes to long-term disability in these patients. Training the
affected UE of stroke patients has thus been a mainstay of neurorehabilitation. The goal of
the intervention is to restore motor and daily functions. New therapeutic strategies have
been developed based on principles of neurorehabilitation and motor learning. The need for
comparative effectiveness research of the innovative treatments has been called for to
promote evidence-based practice and translational science in stroke motor rehabilitation.
Wolf and Whitall called for rigorous comparisons between unilateral and bilateral training.
McCombe Waller and Whitall also indicated the importance of combining unilateral with
bilateral training. For low-functioning patients, robot-assisted training is a possible
approach. Identifying possible determinants for unilateral and bilateral training outcomes
may also elucidate the factors that influence treatment outcomes. Outcome measures are
required that have good clinimetric properties for measuring the effects of the
rehabilitation strategies.
The long-term objective is to conduct comparative efficacy research to identify the possible
mechanisms and the relative effectiveness of existing rehabilitation approaches of fully
defined-, evidence-based, and theory-grounded approaches. This proposed project aims to (1)
compare the effects of dose-matched unilateral vs bilateral vs unilateral combined with
bilateral upper limb rehabilitation based on task-related practice; (2) compare the effects
of unilateral vs bilateral training based on robot-assisted devices; and (3) study the
predictors of treatment outcomes and clinimetric properties of the biomechanical measures.
The outcome measures will span the spectrum of health-related functioning, including motor
and neural control, movement performance, daily functions, and quality of life. Motor and
neural control mechanisms involving movement strategies, muscle and force output, and brain
reorganization will be evaluated using kinematic, electromyographic (EMG), and kinetic
analyses, and also functional magnetic resonance imaging (fMRI) examinations. Clinical
outcomes will include movement performance, daily functions, and quality of life, measured
by MYOTON-3, Modified Ashworth Scale, the Fugl-Meyer Assessment, Wolf Motor Function Test,
Functional Independence Measure, ABILHAND questionnaire, accelerometers, and Stroke Impact
Scale. This 5-year project will recruit an estimated 200 patients with stroke. For Part 1,
120 patients with mild-to-moderate motor impairment will be randomized to the dose-matched
unilateral, bilateral, or combined group. For Part 1, 80 stroke patients with moderate motor
impairment will be randomized to the dose-matched unilateral or bilateral robot-assisted
therapy group. Treatment regimens will be designed to ensure that patients in the 3 groups
in Part 1 and 2 groups in Part 2 receive an equivalent intensity of treatment (5 days/week
for 1.5 hours/day for 4 consecutive weeks). The intervention will be provided at 4
hospitals. Two certified occupational therapists will be trained in the administration of
the 5 types of rehabilitation protocols by the PI and a co-PI and will complete a written
competency test before subject treatment.
Biomechanical (kinematic, EMG, and kinetic) and fMRI examinations will be performed before,
immediately after the 4-week intervention period, and at the 3-month follow-up period (no
fMRI examination at follow-up). Clinical measures will be administered before, at midterm (2
weeks after intervention), immediately after, and 3 months after the intervention. At least
3 examiners (1 research assistant, 1 graduate student, and 1 post-doc fellow) blind to group
allocation will be in charge of biomechanical, fMRI, and clinical measures. Each type of
measure will require 2 evaluators to collaborate for completing the assessment. Before being
allowed to work with participants, the examiner's competence will be assessed by the PI and
co-PI, and interrater reliability for clinical tests established.
Multivariate analysis of covariance will be used to examine changes in all outcome measures
as a function of treatment while controlling for baseline data. Multiple regression models
will be established to determine the potential predictors for different functional outcomes
of each intervention (unilateral and bilateral training approach). The responsiveness and
validity of the biomechanical measures relevant for clinimetric scrutiny will be examined by
the index of standardized response mean and Spearman correlation coefficients. The clinical
important differences of the biomechanical parameters will be determined by the anchor-based
and the distribution-based clinical important differences estimate.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Factorial Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment
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