BACKGROUND: Converging evidence suggests that the amount of stepping practice is an important training parameter that influences locomotor recovery poststroke. More recent data suggest that stepping intensity and variability are also important, although such strategies are often discouraged early poststroke. OBJECTIVE: The present study examined the efficacy of high-intensity, variable stepping training on walking and nonwalking outcomes in individuals 1 to 6 months poststroke as compared with conventional interventions. Methods Individuals with unilateral stroke (mean duration = 101 days) were randomized to receive ≤40, 1-hour experimental or control training sessions over 10 weeks. Experimental interventions consisted only of stepping practice at high cardiovascular intensity (70%-80% heart rate reserve) in variable contexts (tasks or environments). Control interventions were determined by clinical physical therapists and supplemented using standardized conventional strategies. Blinded assessments were obtained at baseline, midtraining, and posttraining with a 2-month follow-up. Results A total of 32 individuals (15 experimental) received different training paradigms that varied in the amount, intensity, and types of tasks performed. Primary outcomes of walking speed (experimental, 0.27 ± 0.22 m/s vs control, 0.09 ± 0.09 m/s) and distances (119 ± 113 m vs 30 ± 32 m) were different between groups, with stepping amount and intensity related to these differences. Gains in temporal gait symmetry and self-reported participation scores were greater following experimental training, without differences in balance or sit-to-stand performance. Conclusion Variable intensive stepping training resulted in greater improvements in walking ability than conventional interventions early poststroke. Future studies should evaluate the relative contributions of these training parameters.
RCT Entities:
BACKGROUND: Converging evidence suggests that the amount of stepping practice is an important training parameter that influences locomotor recovery poststroke. More recent data suggest that stepping intensity and variability are also important, although such strategies are often discouraged early poststroke. OBJECTIVE: The present study examined the efficacy of high-intensity, variable stepping training on walking and nonwalking outcomes in individuals 1 to 6 months poststroke as compared with conventional interventions. Methods Individuals with unilateral stroke (mean duration = 101 days) were randomized to receive ≤40, 1-hour experimental or control training sessions over 10 weeks. Experimental interventions consisted only of stepping practice at high cardiovascular intensity (70%-80% heart rate reserve) in variable contexts (tasks or environments). Control interventions were determined by clinical physical therapists and supplemented using standardized conventional strategies. Blinded assessments were obtained at baseline, midtraining, and posttraining with a 2-month follow-up. Results A total of 32 individuals (15 experimental) received different training paradigms that varied in the amount, intensity, and types of tasks performed. Primary outcomes of walking speed (experimental, 0.27 ± 0.22 m/s vs control, 0.09 ± 0.09 m/s) and distances (119 ± 113 m vs 30 ± 32 m) were different between groups, with stepping amount and intensity related to these differences. Gains in temporal gait symmetry and self-reported participation scores were greater following experimental training, without differences in balance or sit-to-stand performance. Conclusion Variable intensive stepping training resulted in greater improvements in walking ability than conventional interventions early poststroke. Future studies should evaluate the relative contributions of these training parameters.
Authors: Gabrielle Brazg; Meghan Fahey; Carey L Holleran; Mark Connolly; Jane Woodward; Patrick W Hennessy; Brian D Schmit; T George Hornby Journal: Neurorehabil Neural Repair Date: 2017-10-30 Impact factor: 3.919
Authors: Jennifer K Lotter; Christopher E Henderson; Abbey Plawecki; Molly E Holthus; Emily H Lucas; Marzieh M Ardestani; Brian D Schmit; T George Hornby Journal: Neurorehabil Neural Repair Date: 2020-06-01 Impact factor: 3.919
Authors: Abigail L Leddy; Mark Connolly; Carey L Holleran; Patrick W Hennessy; Jane Woodward; Ross A Arena; Elliot J Roth; T George Hornby Journal: J Neurol Phys Ther Date: 2016-10 Impact factor: 3.649
Authors: Jonathan M Wood; Hyosub E Kim; Margaret A French; Darcy S Reisman; Susanne M Morton Journal: J Neurophysiol Date: 2020-05-20 Impact factor: 2.714
Authors: Tanya Onushko; Gordhan B Mahtani; Gabrielle Brazg; T George Hornby; Brian D Schmit Journal: J Neurotrauma Date: 2019-03-28 Impact factor: 5.269
Authors: Carey L Holleran; Patrick W Hennessey; Abigail L Leddy; Gordhan B Mahtani; Gabrielle Brazg; Brian D Schmit; T George Hornby Journal: J Neurol Phys Ther Date: 2018-04 Impact factor: 3.649
Authors: Jennifer L Moore; Jan E Nordvik; Anne Erichsen; Ingvild Rosseland; Elisabeth Bø; T George Hornby Journal: Stroke Date: 2019-12-30 Impact factor: 7.914