Christine T Shiner1, Winston D Byblow2, Penelope A McNulty3. 1. Neuroscience Research Australia and the University of New South Wales, Sydney, Australia. 2. Centre for Brain Research, The University of Auckland, Auckland, New Zealand. 3. Neuroscience Research Australia and the University of New South Wales, Sydney, Australia p.mcnulty@neura.edu.au.
Abstract
BACKGROUND: Motor deficits after a stroke are thought to be compounded by the development of asymmetric interhemispheric inhibition. Bilateral priming was developed to rebalance this asymmetry and thus improve therapy efficacy. OBJECTIVE: This study investigated the effect of bilateral priming before Wii-based Movement Therapy to improve rehabilitation after stroke. METHODS: Ten patients who had suffered a stroke (age, 23-77 years; 3-123 months after stroke) underwent a 14-day program of Wii-based Movement Therapy for upper limb rehabilitation. Formal Wii-based Movement Therapy sessions were immediately preceded by 15 minutes of bilateral priming, whereby active flexion-extension of the less affected wrist drove mirror-symmetric passive movements of the more affected wrist through a custom device. Functional movement was assessed at weeks 0 (before therapy), 3 (after therapy), and 28 (follow-up) using the Wolf Motor Function Test (WMFT), upper limb Fugl-Meyer Assessment (FMA), upper limb range of motion, and Motor Activity Log (MAL). Case-matched controls were patients who had suffered a stroke who received Wii-based Movement Therapy but not bilateral priming. RESULTS: Upper limb functional ability improved for both groups on all measures tested. Posttherapy improvement on the FMA for primed patients was twice that of the unprimed patients (37.3% vs 14.6%, respectively) and was significantly better maintained at 28 weeks (P = .02). Improvements on the WMFT and MAL were similar for both groups, but the pattern of change in range of motion was strikingly different. CONCLUSIONS: Bilateral priming before Wii-based Movement Therapy led to a greater magnitude and retention of improvement compared to control, especially measured with the FMA. These data suggest that bilateral priming can enhance the efficacy of Wii-based Movement Therapy, particularly for patients with low motor function after a stroke.
BACKGROUND:Motor deficits after a stroke are thought to be compounded by the development of asymmetric interhemispheric inhibition. Bilateral priming was developed to rebalance this asymmetry and thus improve therapy efficacy. OBJECTIVE: This study investigated the effect of bilateral priming before Wii-based Movement Therapy to improve rehabilitation after stroke. METHODS: Ten patients who had suffered a stroke (age, 23-77 years; 3-123 months after stroke) underwent a 14-day program of Wii-based Movement Therapy for upper limb rehabilitation. Formal Wii-based Movement Therapy sessions were immediately preceded by 15 minutes of bilateral priming, whereby active flexion-extension of the less affected wrist drove mirror-symmetric passive movements of the more affected wrist through a custom device. Functional movement was assessed at weeks 0 (before therapy), 3 (after therapy), and 28 (follow-up) using the Wolf Motor Function Test (WMFT), upper limb Fugl-Meyer Assessment (FMA), upper limb range of motion, and Motor Activity Log (MAL). Case-matched controls were patients who had suffered a stroke who received Wii-based Movement Therapy but not bilateral priming. RESULTS: Upper limb functional ability improved for both groups on all measures tested. Posttherapy improvement on the FMA for primed patients was twice that of the unprimed patients (37.3% vs 14.6%, respectively) and was significantly better maintained at 28 weeks (P = .02). Improvements on the WMFT and MAL were similar for both groups, but the pattern of change in range of motion was strikingly different. CONCLUSIONS: Bilateral priming before Wii-based Movement Therapy led to a greater magnitude and retention of improvement compared to control, especially measured with the FMA. These data suggest that bilateral priming can enhance the efficacy of Wii-based Movement Therapy, particularly for patients with low motor function after a stroke.
Authors: Mary Ellen Stoykov; Erin King; Fabian J David; Amanda Vatinno; Louis Fogg; Daniel M Corcos Journal: Restor Neurol Neurosci Date: 2020 Impact factor: 2.406
Authors: Mary Ellen Stoykov; Olivia M Biller; Alexandra Wax; Erin King; Jacob M Schauer; Louis F Fogg; Daniel M Corcos Journal: Trials Date: 2022-06-22 Impact factor: 2.728
Authors: Christine T Shiner; Kerrie D Pierce; Angelica G Thompson-Butel; Terry Trinh; Peter R Schofield; Penelope A McNulty Journal: Front Neurol Date: 2016-05-17 Impact factor: 4.003