O2 pulse anaerobic threshold estimation was highly correlated with the lactate turn point (R=0.68 in cyclists) and is recommended for noninvasive determination of AnT in endurance cyclists.
Observational (n=31)
Does O2 pulse-AnT accurately estimate the anaerobic threshold compared to LTP2 in endurance cyclists and active men?
O2 pulse-AnT is a valid noninvasive method for determining the anaerobic threshold in highly trained endurance cyclists, especially those who do not exhibit a heart rate deflection point.
Effect estimate: R = 0.68 (cyclists); R = 0.58 (active men) (95% CI 5.1-8.6)
The purpose of this study was to determine the validity of anaerobic threshold (AnT)-equivalent to the second turn point for lactate (LTP2)-estimation using the O2 pulse changes in highly trained endurance cyclists who do not show heart rate deflection point (HRDP) during incremental testing. Sixteen endurance cyclists (age, 24.8 ± 4.7 years) and fifteen active men (age, 24.8 ± 3.7 years) performed an incremental cycling test to exhaustion. Pulmonary oxygen uptake (VCombining Dot AboveO2) and other hemodynamic variables, heart rate, and blood lactate concentration were measured continuously throughout the test. O2 pulse anaerobic threshold (O2 pulse-AnT) was defined as the second turn point in O2 pulse-workload curve. LTP2 was considered as gold standard assessment of AnT and was applied to confirm the validity of O2 pulse-AnT. Intraclass correlation coefficients and the Bland-Altman method were used to determine the relationship and agreement between the O2 corresponding to LTP2 and O2 pulse-AnT, respectively. The active men and 68.7% of the endurance cyclists showed HRDP, whereas all subjects showed O2 pulse-AnT during incremental testing. In both groups, the values for VCombining Dot AboveO2 corresponding to LTP2 were not significantly different from the VCombining Dot AboveO2 at O2 pulse-AnT. The VCombining Dot AboveO2 at LTP2 and O2 pulse-AnT were highly correlated (endurance cyclists: R = 0.68; standard error of estimate SEE = 3.74 ml·kg·min and active men: R = 0.58; SEE = 2.91 ml·kg·min) and Bland-Altman plot revealed the limit of agreement of O2 at LTP2 and O2 pulse-AnT differences between 5.1 and 8.6 ml·kg·min (95% CI). In summary, results of this study showed that the second turn point in the O2 pulse-workload curve occurs around LTP2. Therefore, using O2 pulse-AnT is recommended for the noninvasive determination of AnT in highly trained endurance cyclists who do not show HRDP during incremental exercise.
Rohollah Nikooie (Fri,) conducted a observational in Healthy endurance cyclists and active men (n=31). O2 pulse anaerobic threshold (O2 pulse-AnT) estimation vs. Second turn point for lactate (LTP2) was evaluated on Relationship and agreement between VO2 at LTP2 and O2 pulse-AnT (R = 0.68 (cyclists); R = 0.58 (active men), 95% CI 5.1-8.6). O2 pulse anaerobic threshold estimation was highly correlated with the lactate turn point (R=0.68 in cyclists) and is recommended for noninvasive determination of AnT in endurance cyclists.
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