AUTHOR=Hering Gernot O. , Stepan Jens 

TITLE=The Maximal Lactate Steady State Workload Determines Individual Swimming Performance

JOURNAL=Frontiers in Physiology

VOLUME=12

YEAR=2021

URL=https://www.frontiersin.org/journals/physiology/articles/10.3389/fphys.2021.668123

DOI=10.3389/fphys.2021.668123

ISSN=1664-042X

ABSTRACT=<p>The lactate threshold (LT) and the strongly related maximal lactate steady state workload (MLSS<sub>W</sub>) are critical for physical endurance capacity and therefore of major interest in numerous sports. However, their relevance to individual swimming performance is not well understood. We used a custom-made visual light pacer for real-time speed modulation during front crawl to determine the LT and MLSS<sub>W</sub> in a single-exercise test. When approaching the LT, we found that minute variations in swimming speed had considerable effects on blood lactate concentration ([La<sup>−</sup>]). The LT was characterized by a sudden increase in [La<sup>−</sup>], while the MLSS<sub>W</sub> occurred after a subsequent workload reduction, as indicated by a rapid cessation of blood lactate accumulation. Determination of the MLSS<sub>W</sub> by this so-called “individual lactate threshold” (ILT)-test was highly reproducible and valid in a constant speed test. Mean swimming speed in 800 and 1,500 m competition (S-Comp) was 3.4% above MLSS<sub>W</sub> level and S-Comp, and the difference between S-Comp and the MLSS<sub>W</sub> (Δ S-Comp/MLSS<sub>W</sub>) were higher for long-distance swimmers (800–1,500 m) than for short- and middle-distance swimmers (50–400 m). Moreover, Δ S-Comp/MLSS<sub>W</sub> varied significantly between subjects and had a strong influence on overall swimming performance. Our results demonstrate that the MLSS<sub>W</sub> determines individual swimming performance, reflects endurance capacity in the sub- to supra-threshold range, and is therefore appropriate to adjust training intensity in moderate to severe domains of exercise.</p>