Department of Movement and Sports Sciences, Ghent University, Ghent, BELGIUM.
Department of Movement Sciences, KU Leuven, Leuven, BELGIUM.
Med Sci Sports Exerc. 2023 Aug 1;55(8):1401-1408. doi: 10.1249/MSS.0000000000003171. Epub 2023 Mar 14.
The purpose of this study was to examine the suitability of a single ramp incremental test to predict critical power (CP) and W' . We hypothesized that CP would correspond to the corrected power output (PO) at the respiratory compensation point (RCP) and W' would be calculable from the work done above RCP.
One hundred fifty-three healthy young people (26 ± 4 yr, 51.4 ± 7.6 mL·min -1 ·kg -1 ) performed a maximal ramp test (20, 25, or 30 W·min -1 ), followed by three to five constant load trials to determine CP and W' . CP and W' were estimated using a "best individual fit" approach, selecting the mathematical model with the smallest total error. The RCP was identified by means of gas exchange analysis and then translated into its appropriate PO by applying a correction strategy in order to account for the gap in the V̇O 2 /PO relationship between ramp and constant load exercise. We evaluated the agreement between CP and the PO at RCP, and between W' and the total work done above CP ( W'RAMP > CP ) and above RCP ( W'RAMP > RCP ) during the ramp test.
The CP was significantly higher than the PO at RCP (Δ = 8 ± 16 W, P < 0.001). W'RAMP > CP was significantly lower than W' (Δ = 1.9 ± 3.3 kJ, P < 0.001), whereas W'RAMP > RCP and W' did not differ from each other (Δ = -0.6 ± 5.8 kJ, P = 0.21).
Despite the fact that CP and RCP occurred in close proximity, the estimation of W' from ramp exercise may be problematic given the likelihood of underestimation and considering the large variability. Therefore, we do not recommend the interchangeable use of CP and W' values derived from constant load versus ramp exercise, in particular, when the goal is to obtain accurate estimates or to predict performance capacity.
本研究旨在检验单级递增测试预测临界功率(CP)和 W'的适用性。我们假设 CP 将对应于呼吸补偿点(RCP)时的校正功率输出(PO),并且 W'可以从 RCP 以上的功中计算得出。
153 名健康年轻人(26 ± 4 岁,51.4 ± 7.6 mL·min -1 ·kg -1 )进行了最大斜坡测试(20、25 或 30 W·min -1 ),然后进行了三到五次恒定负荷试验以确定 CP 和 W'。CP 和 W'使用“最佳个体拟合”方法进行估计,选择总误差最小的数学模型。RCP 通过气体交换分析确定,然后通过应用校正策略将其转换为适当的 PO,以考虑斜坡和恒负荷运动之间的 V̇O 2 /PO 关系中的差距。我们评估了 CP 与 RCP 时的 PO 之间以及 W'与斜坡测试中 CP 以上(W'RAMP > CP)和 RCP 以上(W'RAMP > RCP)的总功之间的一致性。
CP 明显高于 RCP 时的 PO(Δ=8±16 W,P<0.001)。W'RAMP > CP 明显低于 W'(Δ=1.9±3.3 kJ,P<0.001),而 W'RAMP > RCP 与 W'之间没有差异(Δ=-0.6±5.8 kJ,P=0.21)。
尽管 CP 和 RCP 非常接近,但考虑到低估的可能性和较大的变异性,从斜坡运动中估计 W'可能存在问题。因此,我们不建议在目标是获得准确估计或预测性能能力时,交替使用来自恒负荷与斜坡运动的 CP 和 W'值。
