Anaerobic athletes demonstrated a significantly greater lactate threshold (77.5 vs 66.8) and VO2 at LT (41.5 vs 29.9 ml/kg/min) compared to untrained subjects, despite modest VO2 max differences.
Cross-Sectional (n=26)
Does aerobic or anaerobic athletic training improve VO2 max and lactate threshold compared to untrained subjects?
Anaerobic training may provide an adequate stimulus to increase lactate threshold similarly to aerobic training, despite only moderate changes in VO2 max.
International Journal of Exercise Science 7(4) : 329-338, 2014. This study compared VO2 max, lactate threshold (LT) and VO2 at LT (VO2LT) among aerobic athletes (ARA) (n=10), anaerobic athletes (ANA) (n=9) and untrained participants (UTS) (n=7). From a treadmill test to exhaustion, VO2 max and LT (4 mmol·L-1 blood lactate concentration) were assessed. Analysis of variance showed VO2 max (ml·kg-1·min-1) was significantly greater for ARA (67.6 ± 9.4) than ANA (53.4 ± 6.4) and UTS (44.9 + 6.9), with ANA significantly greater than UTS. LT for ARA (82.9 + 6.4) was not significantly different than ANA (77.5 + 13.1). However, ARA and ANA were significantly greater than UTS (66.8 + 5.4). VO2LT (ml·kg-1·min-1) was significantly greater for ARA (55.9 + 7.7) and ANA (41.5 + 8.6) than for UTS (29.9 + 4.1) with ANA significantly greater than UTS. Although used to establish groups, VO2 max for ARA (vs. UTS) reflect aerobic training adaptations. Similarly high LT would be expected in ARA. Modest VO2 max for ANA reflects only a mild stimulus to oxidative pathways (plausibly occurring during recovery from repeated high-intensity efforts). However, anaerobic training may provide a stimulus adequate to increase LT. Elevated LT with moderate changes in VO2 max for ANA provide indirect evidence that differential mechanisms alter VO2 max and LT. Still, VO2 at LT would have the greatest implication with regards to aerobic performance. From a practical standpoint, training approaches may be enhanced with a greater understanding of the impact of anaerobic training on LT. Future research should more directly examine threshold-altering mechanisms between these groups of athletes.
Green et al. (Wed,) conducted a cross-sectional in Healthy athletes and untrained subjects (n=26). Aerobic and anaerobic training status vs. Untrained status was evaluated on VO2 max, lactate threshold (LT), and VO2 at LT. Anaerobic athletes demonstrated a significantly greater lactate threshold (77.5 vs 66.8) and VO2 at LT (41.5 vs 29.9 ml/kg/min) compared to untrained subjects, despite modest VO2 max differences.
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