精英竞走运动员在温暖环境中进行低海拔训练和渐进训练后的高水平表现。

Bastien Krumm, Brent Vallance, Louise Burke, Johan Garcia, Janne Bouten, Franck Brocherie, Jonas J. Saugy, Francesco Botrè, Raphael Faiss
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摘要

目前的长期海拔暴露指南建议海拔高度在 2000 米至 2500 米之间,以优化血红蛋白总量(Hbmass)的增加。然而,为了备战世界田径锦标赛(WC),我们在自然低海拔地区(IO2 = 121 mmHg;20.1°C;67%相对湿度[RH])进行了为期三周的训练(20 米;PIO2 = 150 mmHg;28.3°C;53%相对湿度)。在整个观察期间,每周抽取一次静脉血样本。此外,在暴露于高海拔期间和返回海平面 2 周后,每周通过一氧化碳再呼吸测定血容量。他们在世界长跑锦标赛上取得了高水平的成绩(5 次跻身世界长跑锦标赛前 10 名,3 次创造了职业生涯个人最好成绩)。经过 4 周的低氧血红蛋白水平测试,绝对血红蛋白质量(+1.7%,p = 0.03)和相对血红蛋白质量(+2.3%,p = 0.02)均有轻微但明显的增加。此外,正如在 LHTH 方案中通常观察到的那样,与 LHTH 前相比,高海拔期间的每周训练距离(+28%,p = 0.02)和持续时间(+30%,p = 0.04)显著增加。因此,虽然不能推断出直接的因果关系,但这些结果表明,在低海拔地区增加训练负荷,随后在温暖的环境中逐渐减量,是一种适合精英耐力运动员的备赛策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

High-level performances following low altitude training and tapering in warm environments in elite racewalkers

High-level performances following low altitude training and tapering in warm environments in elite racewalkers

Current guidelines for prolonged altitude exposure suggest altitude levels ranging from 2000 to 2500 m to optimize an increase in total hemoglobin mass (Hbmass). However, natural low altitude locations (<2000 m) remain popular, highlighting the interest to investigate any possible benefit of low altitude camps for endurance athletes. Ten elite racewalkers (4 women and 6 men) underwent a 4-week “live high-train high” (LHTH) camp at an altitude of 1720 m (PIO2 = 121 mmHg; 20.1°C; 67% relative humidity [RH]), followed by a 3-week tapering phase (20 m; PIO2 = 150 mmHg; 28.3°C; 53% RH) in preparation for the World Athletics Championships (WC). Venous blood samples were withdrawn weekly during the entire observation period. In addition, blood volumes were determined weekly by carbon monoxide rebreathing during altitude exposure and 2 weeks after return to sea level. High-level performances were achieved at the WC (five placings among the Top 10 WC races and three all-time career personal bests). A slight but significant increase in absolute (+1.7%, p = 0.03) and relative Hbmass (+2.3%, p = 0.02) was observed after 4-week LHTH. In addition, as usually observed during LHTH protocols, weekly training distance (+28%, p = 0.02) and duration (+30%, p = 0.04) significantly increased during altitude compared to the pre-LHTH period. Therefore, although direct causation cannot be inferred, these results suggest that the combination of increased training load at low altitudes with a subsequent tapering period in a warm environment is a suitable competition-preparation strategy for elite endurance athletes.

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