Accumulated Oxygen Deficit During Exercise to Exhaustion Determined at Different Supramaximal Work-Rates.

Daniel Muniz, Charles Pedlar, Richard Godfrey, Mark Glaister

Research output: Contribution to journalArticlepeer-review

5 Citations (Scopus)
47 Downloads (Pure)

Abstract

Purpose:
The aim of the study was to determine the effect of supramaximal exercise intensity during constant work-rate cycling to exhaustion on the accumulated oxygen deficit (AOD) and to determine the test–retest reliability of AOD.

Methods:
Twenty-one trained male cyclists and triathletes (mean ± SD for age and maximal oxygen uptake [V̇O2max] were 41 ± 7 y and 4.53 ± 0.54 L/min, respectively) performed initial tests to determine the linear relationship between V̇O2 and power output, and V̇O2max. In subsequent trials, AOD was determined from exhaustive square-wave cycling trials at 105%, 112.5% (in duplicate), 120%, and 127.5% V̇O2max.

Results:
Exercise intensity had an effect (P = .011) on the AOD (3.84 ± 1.11, 4.23 ± 0.96, 4.09 ± 0.87, and 3.93 ± 0.89 L at 105%, 112.5%, 120%, and 127.5% V̇O2max, respectively). Specifically, AOD at 112.5% V̇O2max was greater than at 105% V̇O2max (P = .033) and at 127.5% V̇O2max (P = .022), but there were no differences between the AOD at 112.5% and 120% V̇O2max. In 76% of the participants, the maximal AOD occurred at 112.5% or 120% V̇O2max. The reliability statistics of the AOD at 112.5% V̇O2max, determined as intraclass correlation coefficient and coefficient of variation, were .927 and 8.72%, respectively.

Conclusions:
The AOD, determined from square-wave cycling bouts to exhaustion, peaks at intensities of 112.5–120% V̇O2max. Moreover, the AOD at 112.5% V̇O2max exhibits an 8.72% test–retest reliability.
Original languageEnglish
Pages (from-to)351-356
Number of pages6
JournalInternational Journal of Sports Physiology and Performance (IJSPP)
Volume12
Issue number3
Early online date24 Aug 2016
DOIs
Publication statusPublished - 1 Jan 2017

Keywords

  • anaerobic capacity
  • reliability
  • MAOD
  • cycle ergometry

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