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耐力自行车训练对健康活跃男性的神经肌肉疲劳的影响。第二部分:皮质脊髓兴奋性和主动激活。

Effects of endurance cycling training on neuromuscular fatigue in healthy active men. Part II: Corticospinal excitability and voluntary activation.

机构信息

Human Performance Laboratory, Faculty of Kinesiology, University of Calgary, 2500 University Drive NW, Calgary, AB, T2N 1N4, Canada.

Laboratoire Interuniversitaire de Biologie de la Motricité, Université Savoie Mont Blanc, EA 7424, 73000, Chambéry, France.

出版信息

Eur J Appl Physiol. 2018 Nov;118(11):2295-2305. doi: 10.1007/s00421-018-3951-7. Epub 2018 Aug 20.

DOI:10.1007/s00421-018-3951-7
PMID:30128852
Abstract

This study investigated the effects of 9-week endurance cycling training on central fatigability and corticomotor excitability of the locomotor muscles. Fourteen healthy participants undertook three incremental fatiguing cycling tests to volitional exhaustion (EXH): (i) before training (PRE), (ii) after training at the same absolute power output as PRE (POST) and (iii) after training at the same percentage of V̇O as PRE (POST). At baseline (i.e. before cycling), every 5 min during cycling and immediately at EXH, a neuromuscular evaluation including a series of 5-s knee extensions at 100, 75 and 50% of maximal voluntary knee extension (MVC) was performed. During each contraction, transcranial magnetic and peripheral nerve stimuli were elicited to obtain motor evoked potential (MEP), silent period (SP) and compound muscle action potential (Mmax) and to calculate voluntary activation (VA). The MEP·Mmax ratio recorded from vastus lateralis at 100 and 50% MVC did not show any difference between conditions. At 75% MVC, MEP exhibited significantly lower values in POST and POST compared to PRE at baseline (P = 0.022 and P = 0.011, respectively) as well as at 25% of time to EXH of PRE (P = 0.022) for POST. No adaptations, either at baseline or during cycling, were observed for VA and SPs. In conclusion, endurance training may result in some adaptations in the corticomotor responses when measured at rest or with low level of fatigue, yet these adaptations do not translate into attenuation of central fatigue at a similar cycling workload or at exhaustion.

摘要

这项研究调查了 9 周耐力自行车训练对运动肌肉中枢疲劳性和皮质运动兴奋性的影响。14 名健康参与者进行了三次递增疲劳的自行车测试,直至达到意愿性衰竭(EXH):(i)在训练前(PRE),(ii)在与 PRE 相同的绝对功率输出下进行训练后(POST),以及(iii)在与 PRE 相同的 V̇O 百分比下进行训练后(POST)。在基线(即在骑自行车之前),在每次骑自行车的每 5 分钟以及在 EXH 时,进行神经肌肉评估,包括一系列 5 秒的膝关节伸展,伸展幅度为最大自主膝关节伸展(MVC)的 100%、75%和 50%。在每次收缩期间,引出经颅磁刺激和外周神经刺激,以获得运动诱发电位(MEP)、静息期(SP)和复合肌肉动作电位(Mmax),并计算出自愿激活(VA)。在 100%和 50% MVC 时,从股外侧记录的 MEP·Mmax 比值在 POST 和 POST 条件下与 PRE 相比没有任何差异。在 75% MVC 时,与 PRE 的基线相比,POST 和 POST 在基线(分别为 P = 0.022 和 P = 0.011)以及 PRE 达到 EXH 的 25%时间时(P = 0.022)的 MEP 值显著降低。VA 和 SPs 在基线或在自行车运动期间均未观察到任何适应性变化。结论是,耐力训练可能导致在休息或低疲劳水平下测量的皮质运动反应出现一些适应性变化,但这些适应性变化并不能转化为在相似的自行车工作量或衰竭时减轻中枢疲劳。

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