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Title: Post-swim oxygen consumption: assessment methodologies and kinetics analysis. Author: Monteiro AS, Carvalho DD, Azevedo R, Vilas-Boas JP, Zacca R, Fernandes RJ. Journal: Physiol Meas; 2020 Nov 06; 41(10):105005. PubMed ID: 33164913. Abstract: OBJECTIVE: This study aimed at comparing different recovery-based methods to assess the highest exercise oxygen uptake value ([Formula: see text]O2peak) when swimming at low-moderate, heavy and severe intensities. Complementarily, the different recovery curve kinetics were analysed. APPROACH: Eighteen competitive swimmers performed a 5 × 200 m front crawl intermittent protocol (0.05 m · s-1 increments and 3 min intervals), with respiratory gas exchange being continuously measured breath-by-breath during and post-exercise using a portable gas analyser. The directly determined [Formula: see text]O2peak ([Formula: see text]O2dir) was compared with the values obtained by linear and exponential backward extrapolations (of different intervals) and the recovery curve mathematical modelling. MAIN RESULTS: [Formula: see text]O2dir rose with intensity increase: 41.96 ± 6.22, 46.36 ± 6.89 and 50.97 ± 7.28 ml · kg-1 min-1 for low-moderate, heavy and severe swims. Linear and exponential regressions applied to the first 20 s of recovery presented the [Formula: see text]O2peak values closest to [Formula: see text]O2dir at low-moderate (42.80 ± 5.54 vs 42.88 ± 5.58 ml kg-1 min-1), heavy (47.12 ± 4.91 vs 47.48 ± 5.09 ml kg-1 min-1) and severe intensity domains (51.24 ± 6.89 vs 53.60 ± 8.54 ml kg-1 · min-1, respectively; r = 0.5-0.8, p < 0.05). The mono-exponential function was the best fit at low-moderate and heavy intensities, while the bi-exponential function better characterized the severe exercise domain (with a slow component amplitude, time delay and time constant of 6.2 ± 2.3 ml kg-1 min-1, 116.6 ± 24.3 and 39.9 ± 15.2 s, respectively). SIGNIFICANCE: The backward extrapolation of the first 20 s of recovery is the best method to assess the [Formula: see text]O2peak for a large spectrum of swimming intensities. Complementarily, intensity increases imply different recovery curve kinetics, particularly a mono-exponential behaviour for low-moderate and heavy exertions and a bi-exponential dynamics for severe paces.[Abstract] [Full Text] [Related] [New Search]