Anna Danielsson1, Katharina Stibrant Sunnerhagen. 1. Department of Clinical Neuroscience - Rehabilitation Medicine, The Sahlgrenska Academy, Göteborg University, Göteborg, Sweden. anna.danielsson@vgregion.se
Abstract
OBJECTIVE: To measure walking speed and energy cost in patients with prior stroke with and without a carbon composite ankle foot orthosis. DESIGN: Within-group comparisons of 2 walking conditions. PARTICIPANTS: Convenience sample of 10 hemiparetic patients with a stroke at least 6 months earlier (average age 52 years) habituated to a carbon composite ankle foot orthosis. METHODS: Subjects walked on a treadmill at self-selected speed both with and without ankle foot orthosis for 5 minutes on each occasion. Energy expenditure was measured by breath-by-breath analysis and electrocardiography. Main outcome measures were walking speed, oxygen consumption, heart rate and energy cost per metre. RESULTS: Walking speed: without ankle foot orthosis 0.27 (SEM +/- 0.03) m/s, with 0.34 (+/- 0.06) m/s, difference 20%. Oxygen consumption: without ankle foot orthosis 8.6 (+/- 0.4) ml/kg/min, with 8.8 (+/- 0.5) ml/kg/min. Energy cost: without ankle foot orthosis 0.58 (+/- 0.07) ml/kg/m, with 0.51 (+/- 0.06) ml/kg/m, difference 12%. CONCLUSION: Use of a carbon composite ankle foot orthosis in patients with stroke may increase speed and decrease energy cost during walking.
OBJECTIVE: To measure walking speed and energy cost in patients with prior stroke with and without a carbon composite ankle foot orthosis. DESIGN: Within-group comparisons of 2 walking conditions. PARTICIPANTS: Convenience sample of 10 hemiparetic patients with a stroke at least 6 months earlier (average age 52 years) habituated to a carbon composite ankle foot orthosis. METHODS: Subjects walked on a treadmill at self-selected speed both with and without ankle foot orthosis for 5 minutes on each occasion. Energy expenditure was measured by breath-by-breath analysis and electrocardiography. Main outcome measures were walking speed, oxygen consumption, heart rate and energy cost per metre. RESULTS: Walking speed: without ankle foot orthosis 0.27 (SEM +/- 0.03) m/s, with 0.34 (+/- 0.06) m/s, difference 20%. Oxygen consumption: without ankle foot orthosis 8.6 (+/- 0.4) ml/kg/min, with 8.8 (+/- 0.5) ml/kg/min. Energy cost: without ankle foot orthosis 0.58 (+/- 0.07) ml/kg/m, with 0.51 (+/- 0.06) ml/kg/m, difference 12%. CONCLUSION: Use of a carbon composite ankle foot orthosis in patients with stroke may increase speed and decrease energy cost during walking.
Authors: Dequan Zou; Tao He; Michael Dailey; Kirk E Smith; Matthew J Silva; David R Sinacore; Michael J Mueller; Mary K Hastings Journal: J Rehabil Res Dev Date: 2014