Durability in Youth Squad Triathletes-Influence of Strenuous Cycling on Subsequent Running Performance, Economy, and Substrate Utilization.

IF 3.5 2区医学 Q1 PHYSIOLOGY

International journal of sports physiology and performance Pub Date : 2025-05-14 DOI:10.1123/ijspp.2025-0009

Greta Röhrs, Sebastian Keller, Patrick Wahl

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Abstract

Purpose: This study aimed to investigate oxygen/energy cost (OC/EC) of running and substrate utilization before and after strenuous cycling in well-trained junior triathletes and the relevance of changes in these variables for fatigued running performance.

Methods: Nineteen junior squad triathletes (4 female, 15 male; 17.2 [1.8] y; maximal oxygen uptake (V˙O2peak) 61.4 [5.1] mL·kg-1·min-1) completed 3 submaximal running steps (2.8 m·s-1, +0.4 m·s-1, and 5 min) under fresh conditions, followed by an incremental cycling test (∼2 W·kg-1, +20 W, and 3 min) to exhaustion. Afterward, they performed another incremental running test to exhaustion under fatigued conditions for V˙O2peak, OC, and time-to-exhaustion assessment. During both runs, OC, EC, and carbohydrate/fat oxidation (CHO/FO) were assessed.

Results: Contrary to trivial/small average changes in OC (210 [15] to 209 [14] mL·kg-1·km-1, P = .71) and EC (4.75 [0.33] to 4.59 [0.29] kJ·kg-1·km-1, P = .02), CHO decreased (2.96 [0.68] to 2.08 [0.68] g·min-1) while FO increased (0.15 [0.13] to 0.48 [0.22] g·min-1) significantly from fresh to fatigued running (P < .001). Besides V˙O2peak (r = .68, P = .002), the changes in CHO (r = -.60, P = .01) and FO (r = .67, P = .003) were significantly correlated with fatigued time to exhaustion (1715 [172] s). Multiple regression and commonality analysis identified V˙O2peak, OC, and the change in FO as the best model for time to exhaustion (R2 = 88%).

Conclusion: Despite trivial/small changes in OC/EC from fresh to fatigued running, a pronounced shift in substrate utilization from CHO to FO was evident in junior triathletes, which was also associated with fatigued running performance.

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青少年铁人三项代表队的耐久性——剧烈循环对后续跑步表现、经济性和基质利用率的影响。

目的：本研究旨在调查训练良好的青少年铁人三项运动员在剧烈骑行前后跑步时的氧/能量消耗（OC/EC）和底物利用，以及这些变量的变化与疲劳跑步表现的相关性。方法：少年铁人三项代表队19名运动员(女4名，男15名；17.2 [1.8] y；最大摄氧量（V˙o2峰）61.4 [5.1]mL·kg-1·min-1)在新鲜条件下完成3个次最大跑步步骤（2.8 m·s-1、+0.4 m·s-1和5分钟），然后进行增量循环试验（~ 2 W·kg-1、+20 W和3分钟）直至耗尽。之后，他们在疲劳条件下进行了另一项增量跑步测试，以评估V˙o2峰值、OC和疲劳时间。在两次跑步中，评估了OC， EC和碳水化合物/脂肪氧化（CHO/FO）。结果：与OC （210 ~ 209 [14] mL·kg-1·km-1, P = 0.71）和EC （4.75 [0.33] ~ 4.59 [0.29] kJ·kg-1·km-1, P = 0.02）的平均变化不同，CHO （2.96 [0.68] ~ 2.08 [0.68] g·min-1）显著降低（0.15 [0.13]~ 0.48 [0.22]g·min-1）显著升高（P < 0.001）。除了V˙o2峰（r = 0.68, P = 0.002）外，CHO (r = -。60, P = 0.01)和FO （r = 0.67, P = 0.003）与疲劳至衰竭时间显著相关（1715 [172]s）。多元回归和通用性分析表明，V˙o2峰、OC和FO变化是预测疲劳时间的最佳模型（R2 = 88%）。结论：尽管从新鲜跑步到疲劳跑步的OC/EC变化不大，但在初级铁人三项运动员中，从CHO到FO的底物利用明显转变，这也与疲劳跑步表现有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International journal of sports physiology and performance PHYSIOLOGY-SPORT SCIENCES

CiteScore

5.80

自引率

12.10%

发文量

199

审稿时长

6-12 weeks

期刊介绍： The International Journal of Sports Physiology and Performance (IJSPP) focuses on sport physiology and performance and is dedicated to advancing the knowledge of sport and exercise physiologists, sport-performance researchers, and other sport scientists. The journal publishes authoritative peer-reviewed research in sport physiology and related disciplines, with an emphasis on work having direct practical applications in enhancing sport performance in sport physiology and related disciplines. IJSPP publishes 10 issues per year: January, February, March, April, May, July, August, September, October, and November.