Int J Sports Physiol Perform. 2022 Jun 1;17(6):844-851. doi: 10.1123/ijspp.2021-0362. Epub 2022 Feb 25.
While the physiological determinants of road running have been widely studied, there is a lack of research in trail-running racing performance. The aim of our study was to determine the physiological predictors of trail-running performance in races of different distances in similar terrain and weather conditions.
Seventy-five trail runners participating in one of the races of the Ultra-Trail du Mont-Blanc were recruited. Previous to the race, each runner was evaluated with (1) an incremental treadmill test to determine maximal oxygen uptake, ventilatory thresholds, cost of running, and substrate utilization; (2) a power-force-velocity profile on a cycle ergometer; (3) maximal voluntary contractions of the knee extensors and plantar flexors; and (4) anthropometric characteristics. Neuromuscular fatigue was evaluated after the races. Twenty-four runners finished a SHORT (<55 km), 16 finished a MEDIUM (101 km), and 14 finished a LONG (>145 km) race. Correlations and multiple linear regressions were used to find the determinants of performance in each race distance.
Performance in SHORT was explained by maximal oxygen uptake and lipid utilization at 10 km/h (r2 = .825, P < .001). Performance in MEDIUM was determined by maximal oxygen uptake, maximal isometric strength, and body fat percentage (r2 = .917, P < .001). A linear model could not be applied in LONG, but performance was correlated to peak velocity during the incremental test.
Performance in trail running is mainly predicted by aerobic capacity, while lipid utilization also influences performance in races <60 km and performance in approximately 100 km is influenced by muscle strength and body composition.
虽然道路跑步的生理决定因素已得到广泛研究,但在越野跑比赛表现方面的研究却很少。我们的研究目的是确定在相似地形和天气条件下,不同距离的越野跑比赛中,与跑步表现相关的生理预测指标。
招募了参加环勃朗峰超级越野赛的 75 名越野跑运动员。在比赛前,每位运动员都接受了以下测试:(1)递增跑步机测试,以确定最大摄氧量、通气阈值、跑步成本和底物利用;(2)功率-力量-速度在自行车测力计上的曲线;(3)股四头肌和跖屈肌的最大自主收缩;(4)人体测量特征。比赛后评估神经肌肉疲劳。24 名运动员完成了短距离(<55km)比赛,16 名运动员完成了中距离(101km)比赛,14 名运动员完成了长距离(>145km)比赛。采用相关和多元线性回归分析,以确定每个比赛距离的表现的决定因素。
短距离比赛的表现由 10km/h 时的最大摄氧量和脂肪利用率解释(r2=0.825,P<0.001)。中距离比赛的表现由最大摄氧量、最大等长力量和体脂百分比决定(r2=0.917,P<0.001)。长距离比赛无法应用线性模型,但表现与递增测试中的峰值速度相关。
越野跑的表现主要由有氧能力决定,而脂肪利用率也影响<60km 的比赛表现,大约 100km 的比赛表现受肌肉力量和身体成分影响。
