A Two-test Protocol for the Precise Determination of the Maximal Lactate Steady State

June 15, 2018 - By

Authors

Daniel Yaeger, Willamette University
Jena Winger, Willamette University
Kristin Murphy, Willamette University
Stasinos Stavrianeas, Willamette University
International Journal of Exercise Science 11(4): 681-695, 2018.
DOI: 10.70252/ALJO7892

Abstract

The purpose of this study was to determine the efficacy of a two-test method for precisely identifying the Maximal Lactate Steady State (MLSS). Eight male competitive cyclists performed two bouts on a cycle ergometer. Following a maximal oxygen consumption (O_2max) test (66.91 ± 5.29 mL∙kg^-1∙min^-1) we identified the lactate deflection point using the visual deflection (T_Vis), Log-Log (T_Log), D_max (T_Dmax), RER = 1.00 (T_RER), ventilatory threshold (T_Vent), and the 1.0 mmol·L^-1 increase above baseline (T₊₁) methods. The second incremental test (SIT) consisted of 6-7 stages (5 min each) starting 20-30 W below to 20-30 W above the predetermined deflection point, in 10 W increments. Comparison of the two tests yielded different threshold estimates (range 11-46W) for all methods (P = 0.001-0.019) except the T_Log (P = 0.194) and T_RER (P = 0.100). The SIT resulted in significantly (P = 0.007) more narrow range of thresholds (27.5 ± 11.01W) compared to the O_2max test (70 ± 42.51W). The T_Vis from the SIT was identified as the MLSS and was verified using three 45-minute steady-state exercise bouts at 95%, 100%, and 105% of MLSS intensity (average increment 12.8 W). Blood lactate and O₂ were recorded every 5 minutes and differed between the three intensities at every time point (P < 0.001). O₂ increased from the 5^th to the 45^th minute by 7.02 mL∙kg^-1∙min^-1 (100% MLSS), 3.63 mL∙kg^-1∙min^-1 (95% MLSS) and 7.5 mL∙kg^-1∙min^-1 (105% MLSS, to the 30^th minute). These results indicate that the MLSS was identified correctly by the SIT, the single incremental test overestimated the MLSS intensity, and the T_Vis provides a very accurate determination of the lactate breakpoint. The use of a second submaximal test is required for a precise identification of MLSS.

Recommended Citation

Yaeger, Daniel; Winger, Jena; Murphy, Kristin; and Stavrianeas, Stasinos (2018) “A Two-test Protocol for the Precise Determination of the Maximal Lactate Steady State,” International Journal of Exercise Science: Vol. 11 : Iss. 4, Pages 681 – 695.
DOI: https://doi.org/10.70252/ALJO7892