长时间骑行过程中摄入碳水化合物可提高次日计时赛的表现并改变氨基酸浓度。
Carbohydrate Ingestion during Prolonged Cycling Improves Next-Day Time Trial Performance and Alters Amino Acid Concentrations.
机构信息
Department of Physical Performance, Norwegian School of Sport Sciences, Oslo, NORWAY.
Department of Nutrition, Division for Molecular Nutrition, University of Oslo, Oslo, NORWAY.
出版信息
Med Sci Sports Exerc. 2023 Dec 1;55(12):2228-2240. doi: 10.1249/MSS.0000000000003264. Epub 2023 Aug 2.
INTRODUCTION
Exercise with low carbohydrate availability increases protein degradation, which may reduce subsequent performance considerably. The present study aimed to investigate the effect of carbohydrate ingestion during standardized exercise with and without exhaustion on protein degradation and next-day performance.
METHODS
Seven trained male cyclists (V̇O 2max 66.8 ± 1.9 mL·kg -1 ·min -1 ; mean ± SEM) cycled to exhaustion (~2.5 h) at a power output eliciting 68% of V̇O 2max (W 68% ). This was followed by repeating 1-min work/1-min recovery intervals at 90% of V̇O 2max (W 90% ) until exhaustion. During W 68% , cyclists consumed a placebo water drink (PLA) the first time and a carbohydrate drink (CHO), 1 g carbohydrate·kg -1 ·h -1 , the second time. The participants performed the same amount of work under the two conditions, separated by at least 1 wk. A standardized diet was provided to the participants so that the two conditions were isoenergetic. To test the impact of carbohydrates on recovery, participants completed a time trial (TT) the next day.
RESULTS
Carbohydrate ingestion maintained carbohydrate availability during W 68% and W 90% : total carbohydrate oxidation was significantly higher in CHO ( P = 0.022), and plasma glucose concentration was maintained compared with PLA ( P = 0.025). Next-day performance during TT was better after CHO ingestion (CHO, 41:49 ± 1:38 min; PLA, 42:50 ± 1:46 min; P = 0.020; effect size d = 0.23, small), as was gross efficiency (CHO, 18.6% ± 0.3%; PLA, 17.9% ± 0.3%; P = 0.019). Urinary nitrogen excretion ( P = 0.897) and urinary 3-methylhistidine excretion ( P = 0.673) did not significantly differ during the study period. Finally, tyrosine and phenylalanine plasma concentrations increased in PLA but not in CHO ( P = 0.018).
CONCLUSIONS
Carbohydrate ingestion during exhaustive exercise reduced deterioration in next-day performance through reduced metabolic stress and development of fatigue. In addition, some parameters point toward less protein degradation, which would preserve muscle function.
简介
低碳水化合物供应的运动可增加蛋白质降解,这可能会大大降低后续的运动表现。本研究旨在探讨标准化运动过程中是否摄入碳水化合物,以及是否摄入碳水化合物对蛋白质降解和次日运动表现的影响。
方法
7 名受过训练的男性自行车运动员(最大摄氧量 66.8±1.9 mL·kg -1 ·min -1 ;平均值±SEM)以 68%的最大摄氧量(W 68% )输出功率骑行至力竭(~2.5 h)。然后,他们以 90%的最大摄氧量(W 90% )重复 1 分钟工作/1 分钟恢复间隔,直到力竭。在 W 68%时,自行车运动员第一次饮用安慰剂水(PLA),第二次饮用碳水化合物饮料(CHO),碳水化合物摄入量为 1 g·kg -1 ·h -1 。参与者在两次条件下完成相同的工作量,两次之间至少间隔 1 周。为了测试碳水化合物对恢复的影响,参与者第二天完成计时赛(TT)。
结果
碳水化合物的摄入维持了 W 68%和 W 90%期间的碳水化合物供应:CHO 中的总碳水化合物氧化显著更高(P=0.022),与 PLA 相比,血浆葡萄糖浓度得到维持(P=0.025)。CHO 摄入后次日 TT 运动表现更好(CHO,41:49±1:38 min;PLA,42:50±1:46 min;P=0.020;效应大小 d=0.23,小),总效率也更高(CHO,18.6%±0.3%;PLA,17.9%±0.3%;P=0.019)。研究期间,尿氮排泄(P=0.897)和尿 3-甲基组氨酸排泄(P=0.673)无显著差异。最后,PLA 中酪氨酸和苯丙氨酸的血浆浓度增加,但 CHO 中没有(P=0.018)。
结论
在剧烈运动过程中摄入碳水化合物可通过降低代谢应激和疲劳发展来减少次日运动表现的恶化。此外,一些参数表明蛋白质降解减少,这将有助于保持肌肉功能。
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