aim: To examine the effect of a perturbation-based balance training on balance reaction characteristics in post stroke individuals.
60 stroke subjects from the neurology rehabilitation unit at Loewenstein hospital will be randomly allocated to one of two groups: 1) perturbations based balance training 2) weight shifting and gait training without external perturbations (control). Group 1 - Perturbations based balance training Subjects will complete a perturbation based balance training while standing and walking on the BalanceTutor (MediTouch). Perturbation level will be individually adjusted and progressed according to subject's abilities. Progression occurs by increasing perturbation level (increase distance, velocity and acceleration). At each practiced level subjects will be exposed to random right/left/forward/backward unannounced platform translations while standing and to right/left perturbations (in defined events in gait cycle) while walking. In order to examine adaptation to repeated perturbations, kinematic data will be collected in the first session. Group 2 - Weight shifting and gait training Subjects will complete a balance training program that includes voluntary weight shifting while standing on a computerized posturography (NeuroCom) and walking on a treadmill. Weight shifting toward a target will be adjusted and progressed according to subject's abilities. Progression in difficulty level will occur by increasing the distance to target without changing the base of support. At each practiced level weight shifting will be conducted to right/left/forward/backward directions. In the gait part of the session, subjects will be asked to walk at their preferred treadmill walking speed. Subjects in both groups will complete 10-12 training sessions, 4-5 per week for 3 weeks. Each session will last 30 minutes and will include practice in standing and walking. Subject's activities will be documented in each session in both groups. Furthermore, in each session subjects will be asked to rate their perceived level of challenge on a 0-10 scale. Pre- and post-intervention measurements will be conducted. A follow-up measurement will be conducted 3-6 weeks post intervention. The following measurements will be administered: 1)Compensatory balance reaction kinematic measurement: Compensatory balance reactions will be measured using the BalanceTutor (MediTouch). The BalanceTutor is a mechatronic device consisting of a computerized treadmill with a horizontal movable platform and an operator station. Measurements will be taken in two conditions: Standing. Subjects will be instructed to stand and will be exposed to random unexpected platform translations. The platform translations will be increased systematically and controlled. The increases in platform translation will be adjusted by the examiner to the subject's ability to recover from perturbations. Participants will be asked to respond in a "natural" manner to perturbations. Walking. Subjects will be instructed to walk comfortably (self-paced) on the treadmill, and will be exposed to random unexpected platform translations. The platform translations will be increased systematically and controlled and will be adjusted by the examiner to the subject's ability to recover from perturbations. Compensatory balance reaction characteristics (reaction time, swing time, compensatory step time, step length etc.) will be collected through a three-dimensional motion analysis system. During examination subjects will wear a loose safety harness that will prevent a fall and yet allow the execution of balance recovery reactions. In addition, clinical measures will be used: Berg Balance Scale, 6 minute walk test, 10 meter walk test, the Fugl-Meyer test for motor recovery after stroke and the ABC (Activities-specific Balance Confidence) scale. Normalized lesion data will be computed using the ABLE module within MEDx software (Medical Numerics).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
34
Loewenstein hospital
Raanana, Israel
Change in Compensatory Step Execution Time
Will be calculated as the time from platform perturbation to foot contact using a 3D motion analysis system. Step execution time in response to surface translations toward the non-paretic side.
Time frame: 1-5 days before the first session of intervention and 1-5 days after the last session of intervention.
Change in Compensatory Step Velocity
will be calculated from step length and step swing time data, using a 3D motion analysis system. Step velocity in response to surface translations toward the non-paretic side.
Time frame: 1-3 days before the first session of intervention and 1-3 days after the last session of intervention.
Change in Berg Balance Scale Score
A 14-item objective measure (ordinal scale) designed to assess static balance and fall risk. Minimus score =0, Maximal score=56. Higher values represent a better outcome.
Time frame: 1-3 days before the first session of intervention and 1-3 days after the last session of intervention.
Change in Fall Threshold
The perturbation level at which the subject lost balance and fell into the safety harness. Score on a scale (1-7). Each unit represents the perturbation intensity where the subject was unable to recover balance and fell into harness system. Higher values represent a better outcome.
Time frame: 1-3 days before the first session of intervention and 1-3 days after the last session of intervention.
Change in Activities-specific Balance Confidence (ABC) Scale
A self-report measure of balance confidence in performing various activities without losing balance or experiencing a sense of unsteadiness. Score on a scale (0-100). Higher values represent a better outcome.
Time frame: 1-3 days before the first session of intervention and 1-3 days after the last session of intervention.
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.