E T Harness1, N Yozbatiran, S C Cramer. 1. Project Walk Spinal Cord Injury Recovery, Department of Research and Development, Carlsbad, CA, USA.
Abstract
BACKGROUND: Exercise has beneficial effects on muscle and motor function after spinal cord injury (SCI). Little is known regarding effects of prolonged intense exercise (IE) in humans with chronic SCI. DESIGN: Prospective, non-randomized, controlled observational study. The intervention was either a multimodal IE program (n=21) or a control (CTL) intervention consisting of self-regulated exercise (n=8). OBJECTIVE: Measure sensorimotor function over 6 months in relation to an IE program. SETTING: Single outpatient center. SUBJECTS: Subjects with chronic SCI (n=29 total), mainly ASIA Impairment Scale A and B, injury levels C4-T11. RESULTS: Baseline neurological assessments (for example, ASIA motor score, 39+/-3 vs 42+/-5, IE vs CTL, P>0.5, mean+/-s.e.m.) did not differ between the two groups. During the 6 months, IE subjects averaged 7.3+/-0.7 h per week exercise, not significantly different from CTL subjects (5.2+/-1.3 h per week, P>0.1). However, after 6 months, IE subjects showed significantly greater motor gains than CTL subjects in the main outcome measure, ASIA motor score (change of 4.8+/-1.0 vs -0.1+/-0.5 points, P=0.0001). The main outcome measure was calculated by ASIA motor score. These IE subject ASIA motor gains correlated with number of exercise hours per week (r=0.53, P<0.02), and with type of specific IE components, particularly load bearing. CONCLUSIONS: Multimodal IE can significantly improve motor function in subjects with chronic SCI. An organized program may provide greater motor benefits than a self-regulated program; load bearing might be of particular value. IE might have therapeutic value in chronic SCI, and as an adjunct to other restorative therapies.
BACKGROUND: Exercise has beneficial effects on muscle and motor function after spinal cord injury (SCI). Little is known regarding effects of prolonged intense exercise (IE) in humans with chronic SCI. DESIGN: Prospective, non-randomized, controlled observational study. The intervention was either a multimodal IE program (n=21) or a control (CTL) intervention consisting of self-regulated exercise (n=8). OBJECTIVE: Measure sensorimotor function over 6 months in relation to an IE program. SETTING: Single outpatient center. SUBJECTS: Subjects with chronic SCI (n=29 total), mainly ASIA Impairment Scale A and B, injury levels C4-T11. RESULTS: Baseline neurological assessments (for example, ASIA motor score, 39+/-3 vs 42+/-5, IE vs CTL, P>0.5, mean+/-s.e.m.) did not differ between the two groups. During the 6 months, IE subjects averaged 7.3+/-0.7 h per week exercise, not significantly different from CTL subjects (5.2+/-1.3 h per week, P>0.1). However, after 6 months, IE subjects showed significantly greater motor gains than CTL subjects in the main outcome measure, ASIA motor score (change of 4.8+/-1.0 vs -0.1+/-0.5 points, P=0.0001). The main outcome measure was calculated by ASIA motor score. These IE subject ASIA motor gains correlated with number of exercise hours per week (r=0.53, P<0.02), and with type of specific IE components, particularly load bearing. CONCLUSIONS: Multimodal IE can significantly improve motor function in subjects with chronic SCI. An organized program may provide greater motor benefits than a self-regulated program; load bearing might be of particular value. IE might have therapeutic value in chronic SCI, and as an adjunct to other restorative therapies.
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