Abstract.
The aim of this study was to examine the effect of increasing the ratio of concentric to eccentric muscle activation on oxygen uptake (V˙O2) kinetics during treadmill running. Nine subjects [2 women; mean (SD) age 29 (7) years, height 1.77 (0.07) m, body mass 73.0 (7.5) kg] completed incremental treadmill tests to exhaustion at 0% and 10% gradients to establish the gradient-specific ventilatory threshold (VT) and maximal oxygen uptake (V˙O2max). Subsequently, the subjects performed repeated moderate intensity (80% of gradient-specific VT) and heavy intensity (50% of the difference between the gradient specific VT and V˙O2max) square-wave runs with the treadmill gradient set at 0% and 10%. For moderate intensity exercise, there were no significant differences between treadmill gradients for V˙O2 kinetics. For heavy intensity exercise, the amplitude of the primary component of V˙O2 was not significantly different between 0% and 10% treadmill gradients [mean (SEM) 2,940 (196) compared to 2,869 (156) ml·min–1, respectively], but the amplitude of the V˙O2 slow component was significantly greater at the 10% gradient [283 (43) compared to 397 (37) ml·min–1; P<0.05]. These results indicate that the muscle contraction regimen (i.e. the relative contribution of concentric and eccentric muscle action) significantly influences the amplitude of the V˙O2 slow component.
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Pringle, J.S., Carter, H., Doust, J.H. et al. Oxygen uptake kinetics during horizontal and uphill treadmill running in humans. Eur J Appl Physiol 88, 163–169 (2002). https://doi.org/10.1007/s00421-002-0687-0
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DOI: https://doi.org/10.1007/s00421-002-0687-0