The relationship between relative aerobic load,energy cost,and speed of walking in individuals post-stroke期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

The relationship between relative aerobic load,energy cost,and speed of walking in individuals post-stroke

Affiliation:	1. Department of Human Movement Sciences, Faculty of Behavioural and Movement Sciences, Vrije Universiteit Amsterdam, Amsterdam Movement Sciences, the Netherlands;2. Heliomare Research and Development, Wijk aan Zee, the Netherlands;3. Coronel Institute of Occupational Health, Amsterdam University Medical Center, University of Amsterdam, Amsterdam, the Netherlands;4. Sport- en BeweegKliniek, Haarlem, the Netherlands;5. University of Groningen, University Medical Center Groningen, Center for Human Movement Sciences, Groningen, the Netherlands

Abstract:	BackgroundIndividuals post-stroke walk slower than their able-bodied peers, which limits participation. This might be attributed to neurological impairments, but could also be caused by a mismatch between aerobic capacity and aerobic load of walking leading to an unsustainable relative aerobic load at most economic speed and preference for a lower walking speed.Research questionWhat is the impact of aerobic capacity and aerobic load of walking on walking ability post-stroke?MethodsForty individuals post-stroke (more impaired N = 21; preferred walking speed (PWS)<0.8 m/s, less impaired N = 19), and 15 able-bodied individuals performed five, 5-minute treadmill walking trials at 70 %, 85 %, 100 %, 115 % and 130 % PWS. Energy expenditure (mlO₂/kg/min) and energy cost (mlO₂/kg/m) were derived from oxygen uptake ( ${\dot{V} O}_{2}$ ). Relative load was defined as energy expenditure divided by peak aerobic capacity (% ${\dot{V} O}_{2}$ peak) and by ${\dot{V} O}_{2}$ at ventilatory threshold (% ${\dot{V} O}_{2}$ -VT). Relative load and energy cost at PWS were compared with one-way ANOVA’s. The effect of speed on these parameters was modeled with Generalized Estimating Equations.ResultsBoth more and less impaired individuals post-stroke showed lower PWS than able-bodied controls (0.44 [0.19−0.76] and 1.04 [0.81−1.43] vs 1.36 [0.89−1.53] m/s) and higher relative load at PWS (50.2 ± 14.4 and 51.7 ± 16.8 vs 36.2 ± 7.6 % ${\dot{V} O}_{2}$ peak and 101.9 ± 20.5 and 97.0 ± 27.3 vs 64.9 ± 13.8 % ${\dot{V} O}_{2}$ -VT). Energy cost at PWS of more impaired (0.30 [.19–1.03] mlO₂/kg/m) was higher than less-impaired (0.19[0.10−0.24] mlO₂/kg/m) and able-bodied (0.15 [0.13−0.18] mlO₂/kg/m). For post-stroke individuals, increasing walking speed above PWS decreased energy cost, but resulted in a relative load above endurance threshold.SignificanceIndividuals post-stroke seem to reduce walking speed to prevent unsustainably high relative aerobic loads at the expense of reduced economy. When aiming to improve walking ability post-stroke, it is important to consider training aerobic capacity.

Keywords:	Gait Exercise test Oxygen consumption Anaerobic threshold Cardiorespiratory fitness (CRF) Physical fitness
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