Individuals 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.
What is the impact of aerobic capacity and aerobic load of walking on walking ability post-stroke?
Forty 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 (mlO/kg/min) and energy cost (mlO/kg/m) were derived from oxygen uptake (V˙O). Relative load was defined as energy expenditure divided by peak aerobic capacity (%V˙Opeak) and by V˙O at ventilatory threshold (%V˙O-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.
Both 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 %V˙Opeak and 101.9 ± 20.5 and 97.0 ± 27.3 vs 64.9 ± 13.8 %V˙O-VT). Energy cost at PWS of more impaired (0.30 [.19-1.03] mlO/kg/m) was higher than less-impaired (0.19[0.10-0.24] mlO/kg/m) and able-bodied (0.15 [0.13-0.18] mlO/kg/m). For post-stroke individuals, increasing walking speed above PWS decreased energy cost, but resulted in a relative load above endurance threshold.
Individuals 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.
Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.
About The Expert
Ilse Blokland
Arianne Gravesteijn
Matthijs Busse
Floor Groot
Coen van Bennekom
Jaap van Dieen
Jos de Koning
Han Houdijk
References
PubMed