Purpose <p>This study investigated the rate of blood lactate accumulation (<i>v</i>La) across six maximal sprint efforts and identified a breakpoint (<i>v</i>La<sub>BP</sub>) in the <i>v</i>La–power relationship.</p> Methods <p>Twelve physically active males completed 5, 10, 15, 20, 25, and 30-s all-out sprints in randomised order on separate days, with resistances set at 10 to 12.5% of body mass. The <i>v</i>La was calculated as the change in blood lactate between the resting and peak value (∆La) divided by the test duration. A piecewise linear regression was used to identify the <i>v</i>La<sub>BP</sub> and its corresponding power output (P-<i>v</i>La<sub>BP</sub>) in the <i>v</i>La–power relationship. Pulmonary V̇O<sub>2</sub> responses were modelled using V̇O<sub>2</sub> data obtained from exercise and the subsequent 15-min recovery period.</p> Results <p>A distinct P-<i>v</i>La<sub>BP</sub> was identified at 795 ± 135 W and 11.2 ± 1.5 W·kg<sup>−1</sup>, corresponding to a <i>v</i>La of 0.50 ± 0.10 mM·s<sup>–1</sup>, ∆La of 6.50 ± 1.27 mM, and sprint duration of 13.3 ± 1.9 s. The <i>v</i>La did not increase significantly during the 30, 25, 20, and 15-s all-out sprint tests (0.41 ± 0.04 to 0.48 ± 0.10 mM·s⁻<sup>1</sup>; <i>p</i> &gt; 0.05) but increased markedly in the 10 and 5-s tests (0.58 ± 0.14 mM·s⁻<sup>1</sup>, <i>p</i> &lt; 0.05; 0.7 ± 0.20 mM·s⁻<sup>1</sup>, <i>p</i> &lt; 0.01). V̇O<sub>2</sub> on-kinetics below the P-<i>v</i>La<sub>BP</sub> (30 and 15 s) was best described by linear function (R<sup>2</sup> ≥ 0.96; SEE ≤ 272 mL·min<sup>–1</sup>; <i>p</i> &lt; 0.001), while the V̇O<sub>2</sub> data could not be modelled for sprints performed above the P-<i>v</i>La<sub>BP</sub> (10 and 5 s).</p> Conclusion <p>The present study demonstrated that the P-<i>v</i>La<sub>BP</sub> separates ranges of power outputs with discrete V̇O<sub>2</sub> kinetics which are characteristic of different subzones within the extreme intensity exercise domain.</p>

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Rates of maximal blood lactate accumulation in the extreme intensity exercise domain: implications for training prescription

  • Ozgur Ozkaya,
  • Hakan As,
  • Arda Peker,
  • Mark Burnley,
  • Andrew M. Jones

摘要

Purpose

This study investigated the rate of blood lactate accumulation (vLa) across six maximal sprint efforts and identified a breakpoint (vLaBP) in the vLa–power relationship.

Methods

Twelve physically active males completed 5, 10, 15, 20, 25, and 30-s all-out sprints in randomised order on separate days, with resistances set at 10 to 12.5% of body mass. The vLa was calculated as the change in blood lactate between the resting and peak value (∆La) divided by the test duration. A piecewise linear regression was used to identify the vLaBP and its corresponding power output (P-vLaBP) in the vLa–power relationship. Pulmonary V̇O2 responses were modelled using V̇O2 data obtained from exercise and the subsequent 15-min recovery period.

Results

A distinct P-vLaBP was identified at 795 ± 135 W and 11.2 ± 1.5 W·kg−1, corresponding to a vLa of 0.50 ± 0.10 mM·s–1, ∆La of 6.50 ± 1.27 mM, and sprint duration of 13.3 ± 1.9 s. The vLa did not increase significantly during the 30, 25, 20, and 15-s all-out sprint tests (0.41 ± 0.04 to 0.48 ± 0.10 mM·s⁻1; p > 0.05) but increased markedly in the 10 and 5-s tests (0.58 ± 0.14 mM·s⁻1, p < 0.05; 0.7 ± 0.20 mM·s⁻1, p < 0.01). V̇O2 on-kinetics below the P-vLaBP (30 and 15 s) was best described by linear function (R2 ≥ 0.96; SEE ≤ 272 mL·min–1; p < 0.001), while the V̇O2 data could not be modelled for sprints performed above the P-vLaBP (10 and 5 s).

Conclusion

The present study demonstrated that the P-vLaBP separates ranges of power outputs with discrete V̇O2 kinetics which are characteristic of different subzones within the extreme intensity exercise domain.