Blood Lactate Removal During Active Recovery Related to the Aerobic Threshold

 

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Abstract

This study compared the variance in blood lactate (LA) removal (LAR) following intense exercise for 15 subjects during rest or active recovery (AR) at intensities expressed relative to V̇O₂max and the Aerobic Threshold (AerT). Two 3-min, 30 W incremental tests on the cycle ergometer were used to determine V̇O₂max (51.8 ± 4.6 ml·kg^-1·min^-1) and AerT (52.9 ± 4.7% V̇O₂max). AerT was determined from an initial continuous rise in LA above resting values and from the 1st “break” in V̇_E vs V̇O₂. Subjects performed six randomly ordered bouts of 10 min of exercise at 90% V̇O₂max, followed by 1 min of rest and either 20 min of further rest or AR at AerT-30% (A-30), -20% (A-20), -10% (A-10), ±10% (A), or +10% V̇O₂max (A+10). LA was determined after the 10 min of exercise and each 3 min of recovery. The calculation of individual half-times (t 1/2) for LAR revealed a significantly slower t 1/2 for rest compared to any AR and faster t 1/2 for A-20, A-10, and A compared to A+10. Regression analysis revealed no difference in r ² (0.74-0.77) for t 1/2 of LAR for all recovery conditions with intensity expressed as% V̇O₂max or AerT ±% V̇O₂max. With rest recovery data excluded, however, a greater proportion of the variance in LAR was explained with intensity expressed as AerT ±% V̇O₂max (r ² = 0.77) than as% V̇O₂max (r ² = 0.64). Peak LAR during AR was predicted to occur at AerT-10% V̇O₂max. It is concluded that AR slightly below AerT improves LAR compared to rest or AR above AerT. Expressing AR intensity as AerT ±% V̇O₂max decreases the interindividual variance.