The current proposal aims to conduct a multi-site randomized controlled trial comparing virtual-reality gaming delivery of Constraint Induced Movement therapy (CI therapy) with (1) traditional clinic-based CI therapy of equal total active therapy duration and (2) a control group equating the dose of in-person therapy. Individuals with chronic stroke will be randomized to one of four different interventions: (1) traditional clinic-based CI therapy (35 therapist/client contact hours), (2) therapist-as-consultant virtual reality CI therapy (5 therapist/client contact hours in the clinic and 15 hours of independent game play at home), (3) therapist-as-consultant virtual reality CI therapy with additional therapist contact via telerehabilitation (5 therapist/client contact hours in the clinic, 2.6 therapist contact hours via teleconference, and 15 hours of independent game play in the home), and (4) 5 hours of standard occupational therapy (OT) / physical therapy (PT). After 6-month follow-up, individuals assigned to standard OT/PT will cross over to a modified gaming therapy condition (a stand-alone application of the rehabilitation game without additional therapist contact).
Detailed study description published in BMC Neurology (2017).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
193
Intensive in-person therapy for upper extremity hemiparesis.
Intensive remote (via video game) therapy for upper extremity hemiparesis.
Intensive remote (via video game) therapy for upper extremity hemiparesis with additional therapist contact via video conference.
Traditional in-person therapy focusing on the rehabilitation of the upper extremity.
University of Alabama at Birmingham
Birmingham, Alabama, United States
University of Missouri
Columbia, Missouri, United States
The Ohio State University, 2154 Dodd Hall
Columbus, Ohio, United States
OhioHealth Rehabilitation
Columbus, Ohio, United States
Providence Medford Medical Center
Medford, Oregon, United States
Wolf Motor Function Test
Assesses the time to complete 15 standardized tasks (e.g., folding a towel, stacking checkers, placing hand on top of a box). Items that cannot be accomplished score 120 seconds. Times are natural log transformed to reflect proportional improvement (approximate % change) and correct for skew. On the log transformed scale, -.22 reflects normal ability, 4.79 = can't accomplish task. For improvement in mean log transformed performance time, -4.79 = best possible improvement, 0 = no improvement, positive scores = worsening. A proportional improvement of 16% (mean log transformed performance time change = -.17) is considered clinically meaningful.
Time frame: 0 to 1 months
Motor Activity Log Quality of Movement Scale
Assessment evaluates the amount and quality of everyday arm use. The scale consists of 28 activities of daily living (e.g., washing hands, drinking from a cup). Participants self-report on an 11-point scale (0-5 with half-point increments, 0=not attempted to 5=attempted with normal movement). The total score on the measure reflects the mean of the individual item scores. A change of 1.0 on the scale is considered clinically meaningful.
Time frame: 0 to 1 months
Change in Neuro-Quality of Life (Neuro-QOL)
Computerized adaptive assessment on several domains of quality of life: sleep, mobility, positive affect and well-being, fatigue, satisfaction with social roles, cognitive function, anxiety, and communication. Neuro-QOL uses a T score which has a mean of 50 and SD of 10, based on the norming sample used. All Neuro-QOL banks and scales are scored such that a higher score reflects more of what is being measured. Scores are reported as mean T-scores across the assessed domains. Positive changes indicate an improvement.
Time frame: 0 to 1 months
Bilateral Activity Monitors
Devices to monitor upper extremity movement are worn throughout treatment. The devices count movements made with each arm, defined as an acceleration of 2g for at least 500 ms. The ratio of more affected to less affected arm use is then calculated for each treatment day. The best linear fit trajectory for each participant is calculated after removal of outliers. The treatment change reported here reflects the difference between the best-fit-line at post-treatment and the best-fit-line at pre-treatment. Positive change indicates improvement.
Time frame: 0 to 1 month
Change in Brief Kinesthesia Test (BKT)
This measures was intended to measure proprioception in the upper extremity; however, performance on the measure is also known to be adversely affected by motor impairment. The experimenter guides individuals along movement trajectories between 2 and 9 inches with their vision obscured. They are then asked to reproduce the movement trajectories. The summed difference between the desired and produced trajectory endpoints in cm is reported. A negative change indicates an improvement.
Time frame: 0 to 1 months
Semmes-Weinstein Monofilament Test
Sensory evaluator of touch sensation. Units are the log transformed grams of pressure detected by the index finger of the paretic hand. Scores range from -1.8 to 5.7. Smaller scores indicate better sensation. Negative change indicates improvement.
Time frame: 0 to 1 months
9 Hole Peg Test
Assessment to measure upper extremity distal motor function. The assessment measures the time to place 9 pegs into grooves on a board. Due to the inability of a majority of the participants to place all 9 pegs during the 120 seconds allotted for the test, performance was transformed into a rate metric to reduce floor effects. The outcome is expressed as change in the number of pegs per minute.
Time frame: 0 to 1 months
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