方法而非程序会影响竞技游泳运动员的乳酸阈值测定。

IF 3.5 2区医学 Q1 PHYSIOLOGY

International journal of sports physiology and performance Pub Date : 2024-07-30 Print Date: 2024-10-01 DOI:10.1123/ijspp.2023-0389

Gavriil G Arsoniadis, Ioannis S Nikitakis, Michael Peyrebrune, Petros G Botonis, Argyris G Toubekis

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引用次数: 0

摘要

目的：该研究验证了游泳中与乳酸阈值（LT）相对应的变量。通过2种不同的增量方案计算出LT对应的速度（sLT）、血液乳酸浓度（BLLT）、摄氧量（VO2LT）和心率（HRLT），并与最大乳酸稳态（MLSS）进行比较验证：方法：10 名竞技游泳运动员进行了 7 × 200 米前爬增量 "台阶测试"，采用两种方案：(1) 重复之间休息 30 秒（短休息增量方案）和 (2) 5 分钟周期（游泳 + 休息时间，长休息增量方案）。在评估 sLT 以及相应的 BLLT、VO2LT 和 HRLT 时使用了五种方法：两条线的交点、Dmax、修正的 Dmax、目测以及组合线性回归线和指数回归线的交点。随后，游泳者进行两到三次 30 分钟的连续努力，以确定速度（sMLSS）和与 MLSS 相对应的生理参数：结果：两种方案都产生了相似的 sLT 和相应的生理变量（P > .05）。Bland-Altman 图显示两种方案之间的结果一致（sLT，偏差：-0.017 [0.002] m-s-1；BLLT，偏差：0.0 [0.5] mmol-L-1；VO2LT，偏差：-0.1 [2.2] mL-kg-1-min-1；HRLT，偏差：-2 [8] beats-min-1）。然而，与在 MLSS 时的速度相比，使用短时间休息的修正 Dmax 计算出的 sLT 更高（1.346 [0.076] vs 1.300 [0.101] m-s-1；P < .05）：在短休息和长休息增量方案中使用所有其他方法计算的 sLT、BLLT、VO2LT 和 HRLT 与 MLSS 相比没有差异（P > .05）。两种 7 × 200 米方案均可用于测定 sLT 和相应的生理参数，但修改后的最大值法可能会高估 sLT。

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The Method but Not the Protocol Affects Lactate-Threshold Determination in Competitive Swimmers.

Purpose: The study validated variables corresponding to lactate threshold (LT) in swimming. Speed (sLT), blood lactate concentration (BLLT), oxygen uptake (VO2LT), and heart rate (HRLT) corresponding to LT were calculated by 2 different incremental protocols and validated in comparison with maximal lactate steady state (MLSS).

Methods: Ten competitive swimmers performed a 7 × 200-m front-crawl incremental "step test" with 2 protocols: (1) with 30-second rests between repetitions (short-rest incremental protocols) and (2) on a 5-minute cycle (swim + rest time, long-rest incremental protocols). Five methods were used for the assessment of sLT and corresponding BLLT, VO2LT, and HRLT: intersection of 2 lines, Dmax, modified Dmax, visual inspection, and intersection of combined linear and exponential regression lines. Subsequently, swimmers performed two to three 30-minute continuous efforts to identify speed (sMLSS) and physiological parameters corresponding to MLSS.

Results: Both protocols resulted in similar sLT and corresponding physiological variables (P > .05). Bland-Altman plots showed agreement between protocols (sLT, bias: -0.017 [0.002] m·s-1; BLLT, bias: 0.0 [0.5] mmol·L-1; VO2LT, bias: -0.1 [2.2] mL·kg-1·min-1; HRLT. bias: -2 [8] beats·min-1). However, sLT calculated by modified Dmax using short rest was higher compared with speed at MLSS (1.346 [0.076] vs 1.300 [0.101] m·s-1; P < .05).

Conclusions: Calculated sLT, BLLT, VO2LT, and HRLT using all other methods in short-rest and long-rest incremental protocols were no different compared with MLSS (P > .05). Both 7 × 200-m protocols are valid for determination of sLT and corresponding physiological parameters, but the modified Dmax method may overestimate sLT.

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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.