Laursen P B, Rhodes E C
School of Human Kinetics, University of British Columbia, Vancouver, Canada.
Sports Med. 2001;31(3):195-209. doi: 10.2165/00007256-200131030-00004.
In the recent past, researchers have found many key physiological variables that correlate highly with endurance performance. These include maximal oxygen uptake (VO2max), anaerobic threshold (AT), economy of motion and the fractional utilisation of oxygen uptake (VO2). However, beyond typical endurance events such as the marathon, termed 'ultraendurance' (i.e. >4 hours), performance becomes harder to predict. The ultraendurance triathlon (UET) is a 3-sport event consisting of a 3.8 km swim and a 180 km cycle, followed by a 42.2 km marathon run. It has been hypothesised that these triathletes ride at approximately their ventilatory threshold (Tvent) during the UET cycling phase. However, laboratory assessments of cycling time to exhaustion at a subject's AT peak at 255 minutes. This suggests that the AT is too great an intensity to be maintained during a UET, and that other factors cause detriments in prolonged performance. Potential defeating factors include the provision of fuels and fluids due to finite gastric emptying rates causing changes in substrate utilisation, as well as fluid and electrolyte imbalances. Thus, an optimum ultraendurance intensity that may be relative to the AT intensity is needed to establish ultraendurance intensity guidelines. This optimal UET intensity could be referred to as the ultraendurance threshold.
最近,研究人员发现了许多与耐力表现高度相关的关键生理变量。这些变量包括最大摄氧量(VO2max)、无氧阈值(AT)、运动经济性以及摄氧量(VO2)的分数利用率。然而,除了马拉松等典型的耐力项目(即“超长耐力”项目,时长>4小时)外,表现变得更难预测。超长耐力三项全能赛(UET)是一项包含三项运动的赛事,包括3.8公里游泳、180公里自行车骑行,随后是42.2公里马拉松跑。据推测,这些三项全能运动员在UET自行车骑行阶段的骑行强度约为其通气阈值(Tvent)。然而,在实验室中,受试者在AT峰值时的自行车骑行至力竭时间为255分钟。这表明,在UET期间,AT强度过高难以维持,其他因素会导致长时间表现下降。潜在的不利因素包括由于胃排空率有限导致底物利用发生变化,以及液体和电解质失衡,从而影响燃料和液体的供应。因此,需要确定一个相对于AT强度的最佳超长耐力强度,以制定超长耐力强度指南。这种最佳的UET强度可称为超长耐力阈值。
