单次膝关节伸肌力竭运动中无氧贡献的可靠性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-01 Epub Date: 2023-11-08 DOI:10.1055/a-2207-2578
Gabriel Luches-Pereira, Carlos Augusto Kalva-Filho, Danilo Rodrigues Bertucci, Carlos Dellavechia de Carvalho, Ricardo Augusto Barbieri, Marcelo Papoti
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引用次数: 0

摘要

总厌氧贡献(AC[La-]+PCr)是一种有效可靠的方法。然而,活性肌肉质量在AC[La-]+PCr测定中起着重要作用,这可能会影响其可靠性。因此,本研究旨在研究单腿膝关节伸展(1L-KE)运动中两种力竭强度对AC[La-]+PCr可靠性的影响。13名体力活动的男性接受分级锻炼,以确定1L-KE中的峰值功率输出(PPO)。然后,在PPO的100%(TTF100)和110%(TTF110)下,对任务失败进行两次恒负荷练习,并在第三天重复。运动后的血乳酸积累和摄氧量分别用于估计厌氧乳酸和厌氧半乳糖的贡献。与TTF110相比,TTF100后的AC[La-]+PCr值更高(p=0.042)。此外,TTF1000中的AC[La-]+PCr没有显著差异(p=0.432)、低系统误差(80.9mL)和显著ICC(0.71;p=0.004)。然而,发现变异系数升高(13.7%)。总之,我们建议使用1L-KE模型在100%PPO下进行的详尽研究,但在未来的研究中必须仔细考虑其升高的可变性。
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Reliability of Anaerobic Contributions during a Single Exhaustive Knee-extensor Exercise.

The total anaerobic contribution (AC[La-]+PCr) is a valid and reliable methodology. However, the active muscle mass plays an important role in the AC[La-]+PCr determination, which might influence its reliability. Thus, this study aimed to investigate the effects of two exhaustive intensities on the reliability of the AC[La-]+PCr during a one-legged knee extension (1L-KE) exercise. Thirteen physically active males were submitted to a graded exercise to determine the peak power output (PPO) in the 1L-KE. Then, two constant-load exercises were conducted to task failure at 100% (TTF100) and 110% (TTF110) of PPO, and the exercises were repeated on a third day. The blood lactate accumulation and the oxygen uptake after exercise were used to estimate the anaerobic lactic and alactic contributions, respectively. Higher values of AC[La-]+PCr were found after the TTF100 compared to TTF110 (p=0.042). In addition, no significant differences (p=0.432), low systematic error (80.9 mL), and a significant ICC (0.71; p=0.004) were found for AC[La-]+PCr in the TTF100. However, an elevated coefficient of variation was found (13.7%). In conclusion, we suggest the use of the exhaustive efforts performed at 100% of the PPO with the 1L-KE model, but its elevated individual variability must be carefully considered in future studies.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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