Département de kinésiologie, Université Laval, 2300, rue de la Terrasse, Quebec, QC, G1V 0A6, Canada.
Eur J Appl Physiol. 2019 Jan;119(1):191-200. doi: 10.1007/s00421-018-4015-8. Epub 2018 Oct 22.
It has been shown that an inspiratory muscle warm-up (IMW) could enhance performance. IMW may also improve the near-infrared spectroscopy (NIRS)-derived tissue oxygen saturation index (TSI) during cycling. However, there exists contradictory data about the effect of this conditioning strategy on performance and muscle oxygenation. We examined the effect of IMW on speed skating performance and studied the underpinning physiological mechanisms related to muscle oxygenation.
In a crossover, randomized, single-blind study, eight elite speed skaters performed 3000 m on-ice time trials, preceded by either IMW (2 × 30 breaths, 40% maximal inspiratory pressure) or SHAM (2 × 30 breaths, 15% maximal inspiratory pressure). Changes in TSI, oxyhemoglobin-oxymyoglobin ([OHbMb]), deoxyhemoglobin-deoxymyoglobin ([HHbMb]), total hemoglobin-myoglobin ([THbMb]) and HHbMbdiff ([OHbMb]-[HHbMb]) in the right vastus lateralis muscle were monitored by NIRS. All variables were compared at different time points of the race simulation with repeated-measures analysis of variance. Differences between IMW and SHAM were also analyzed using Cohen's effect size (ES) ± 90% confidence limits, and magnitude-based inferences.
Compared with SHAM, IMW had no clear impact on skating time (IMW 262.88 ± 17.62 s vs. SHAM 264.05 ± 21.12 s, effect size (ES) 0.05; 90% confidence limits, - 0.22, 0.32, p = 0.7366), TSI, HbMbdiff, [THbMb], [OHbMb] and perceptual responses.
IMW did not modify skating time during a 3000 m time trial in speed skaters, in the conditions of our study. The unchanged [THbMb] and TSI demonstrate that the mechanisms by which IMW could possibly exert an effect on performance were unaffected by this intervention.
已有研究表明,吸气肌热身(IMW)可以提高运动表现。IMW 还可能提高自行车运动过程中的近红外光谱(NIRS)衍生的组织氧饱和度指数(TSI)。然而,关于这种调节策略对运动表现和肌肉氧合的影响,存在相互矛盾的数据。我们研究了 IMW 对速度滑冰表现的影响,并研究了与肌肉氧合相关的潜在生理机制。
在一项交叉、随机、单盲研究中,8 名精英速滑运动员在冰上进行了 3000 米计时赛,此前分别进行了 IMW(2×30 次呼吸,40%最大吸气压力)或 SHAM(2×30 次呼吸,15%最大吸气压力)。通过 NIRS 监测右侧股外侧肌的 TSI、氧合血红蛋白-氧合肌红蛋白([OHbMb])、脱氧血红蛋白-脱氧肌红蛋白([HHbMb])、总血红蛋白-肌红蛋白([THbMb])和 HHbMbdiff([OHbMb]-[HHbMb])的变化。使用重复测量方差分析比较比赛模拟的不同时间点的所有变量。还使用 Cohen 的效应量(ES)±90%置信区间和基于幅度的推论分析比较了 IMW 和 SHAM 之间的差异。
与 SHAM 相比,IMW 对滑冰时间没有明显影响(IMW 262.88±17.62 s 与 SHAM 264.05±21.12 s,ES 0.05;90%置信区间,-0.22,0.32,p=0.7366)、TSI、HbMbdiff、[THbMb]、[OHbMb]和知觉反应。
在本研究条件下,IMW 并未改变速度滑冰运动员 3000 米计时赛的滑冰时间。不变的[THbMb]和 TSI 表明,IMW 可能对表现产生影响的机制不受这种干预的影响。
