Applied Sciences (Jun 2024)

Electroencephalography Response during an Incremental Test According to the V̇O<sub>2</sub>max Plateau Incidence

  • Véronique Billat,
  • Christian Berthomier,
  • Michel Clémençon,
  • Marie Brandewinder,
  • Slim Essid,
  • Cécilia Damon,
  • François Rigaud,
  • Alexis Bénichoux,
  • Emmanuel Maby,
  • Lesly Fornoni,
  • Patrick Bouchet,
  • Pascal Van Beers,
  • Bertrand Massot,
  • Patrice Revol,
  • Luc Poinsard,
  • Thomas Creveaux,
  • Christian Collet,
  • Jérémie Mattout,
  • Vincent Pialoux

DOI
https://doi.org/10.3390/app14135411
Journal volume & issue
Vol. 14, no. 13
p. 5411

Abstract

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V̇O2max is recognized as a key measure in exercise physiology and sports medicine. However, only 20–50% of maximal incremental exercise tests (IET) result in a plateau of V̇O2 (V̇O2pl). To our knowledge, no study has yet examined the possible difference in brain activity during an IET, in V̇O2pl and non-plateau athletes with the same V̇O2max and age. This study aimed to shed light on the central governor hypothesis, namely that the inability to reach a V̇O2pl may be dictated by the brain rather than by a peripheral physical limit. This hypothesis can now be explored using electroencephalography (EEG) during IET, measuring concomitant power in specific frequency bands. Forty-two athletes were divided into two groups: those who practiced endurance sports and those who did not, and were asked to perform an IET. EEG signals and gas exchange were recorded. A V̇O2pl was observed in twenty-two subjects (52%). EEG power increased in all subjects during IET, except in the alpha band, which showed variability, but not significantly (64% increase, 34% decrease, p = 0.07). No differences were found between endurance athletes and non-endurance athletes, except for V̇O2max (60.10 ± 6.16 vs. 51.77 ± 6.41, p V̇O2 was found to decrease in all subjects during IET, in the alpha, beta and theta bands. In conclusion, the presence or absence of a V̇O2pl is not related to the type of EEG response during an IET. Nevertheless, the decline in brain and V̇O2 powers/ratios in all frequency bands suggests that aerobic power may be constrained by brain mobilization.

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