8 research outputs found

    Experimental V’O<sub>2</sub> and simulated muscle V’O<sub>2</sub>, metabolite concentrations and ATP usage/supply fluxes during low-intensity (baseline) and high-intensity cycling exercise in untrained and trained muscle.

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    <p>(A) Experimental and simulated V’O<sub>2</sub>, simulated ADP and pH. (B) Simulated PCr, P<sub>i</sub> and ATP. (C) Simulated ATP usage (UT), ATP supply by OXPHOS (OX), ATP supply by anaerobic glycolysis (GL), ATP supply by creatine kinase (CK). Experimental baseline-heavy-intensity exercise transition: after 3 min. Simulated baseline-heavy-intensity exercise transition: after 3.4 min (the delay by 24 s corresponds to the cardio-dynamic phase of the pulmonary V’O<sub>2</sub> on-kinetics). The muscle V’O<sub>2</sub> is calculated based on the assumption that during baseline-intensity exercise (20 W) muscle V’O<sub>2</sub> constitutes ~75% and during heavy-intensity exercise ~85% of the pulmonary V’O<sub>2</sub> (see Ref. [<a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0154135#pone.0154135.ref040" target="_blank">40</a>]).</p

    Plasma lactate concentration [La<sup>-</sup>]<sub>pl</sub> during an incremental exercise test before (white circles) and after (black circles) 20 weeks of endurance training.

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    <p>The power output was increased by 30 W every 3 minutes up to 240 W. Note the right-ward shift of the lactate curve after training and especially the difference (<i>P</i> < 0.02 Wilcoxon signed rank test) between [La<sup>-</sup>]<sub>pl</sub> at 180 W i.e. near to the power output at which the V’O<sub>2</sub> on-kinetics has been determined, before and after the training. Data are given as means ± SD for 11 subjects.</p
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