Med Sci Sports Exerc. 2018 Mar;50(3):580-588. doi: 10.1249/MSS.0000000000001467.
This study aimed to examine the extent to which the classical physiological variables of endurance running performance (maximal oxygen uptake (V˙O2max), %V˙O2max at ventilatory threshold (VT), and running economy (RE)) but also muscle strength factors contribute to short trail running (TR) performance.
A homogeneous group of nine highly trained trail runners performed an official TR race (27 km) and laboratory-based sessions to determine V˙O2max, %V˙O2max at VT, level RE (RE0%) and RE on a +10% slope, maximal voluntary concentric and eccentric knee extension torques, local endurance assessed by a fatigue index (FI), and a time to exhaustion at 87.5% of the velocity associated with V˙O2max. A simple regression method and commonality analysis identifying unique and common coefficients of each independent variable were used to determine the best predictors for the TR race time (dependent variable).
Pearson correlations showed that FI and V˙O2max had the highest correlations (r = 0.91 and r = -0.76, respectively) with TR performance. The other selected variables were not significantly correlated with TR performance. The analysis of unique and common coefficients of relative V˙O2max, %V˙O2max at VT, and RE0% provides a low prediction of TR performance (R = 0.48). However, adding FI and RE on a +10% slope (instead of RE0%) markedly improved the predictive power of the model (R = 0.98). FI and V˙O2max showed the highest unique (49.8% and 20.4% of total effect, respectively) and common (26.9% of total effect) contributions to the regression equation.
The classic endurance running model does not allow for meaningful prediction of short TR performance. Incorporating more specific factors into TR such as local endurance and gradient-specific RE testing procedures should be considered to better characterize short TR performance.
本研究旨在考察经典的耐力跑表现生理变量(最大摄氧量(V˙O2max)、通气阈(VT)时的 %V˙O2max 和跑步经济性(RE))以及肌肉力量因素在短距离越野跑(TR)表现中的贡献程度。
一组 9 名高度训练的越野跑运动员进行了一场正式的 TR 比赛(27 公里)和实验室测试,以确定 V˙O2max、VT 时的 %V˙O2max、水平 RE(RE0%)和 +10%坡度的 RE、最大自主向心和离心膝关节伸展扭矩、通过疲劳指数(FI)评估的局部耐力,以及在与 V˙O2max 相关的 87.5%速度下的力竭时间。采用简单回归方法和共性分析确定每个自变量的独特和共同系数,以确定 TR 比赛时间(因变量)的最佳预测因子。
皮尔逊相关分析显示,FI 和 V˙O2max 与 TR 表现的相关性最高(r = 0.91 和 r = -0.76)。其他选定的变量与 TR 表现没有显著相关性。相对 V˙O2max、VT 时的 %V˙O2max 和 RE0%的独特和共同系数分析对 TR 表现的预测能力较低(R = 0.48)。然而,添加 FI 和 +10%坡度的 RE(而不是 RE0%)显著提高了模型的预测能力(R = 0.98)。FI 和 V˙O2max 对回归方程的独特(分别为总效应的 49.8%和 20.4%)和共同(总效应的 26.9%)贡献最大。
经典的耐力跑模型无法对短距离 TR 表现进行有意义的预测。在 TR 中纳入更具体的因素,如局部耐力和特定坡度的 RE 测试程序,应被视为更好地描述短距离 TR 表现的方法。
