股外侧肌在最大力-速度测试中的肌束缩短行为。

Muscle fascicle shortening behaviour of vastus lateralis during a maximal force-velocity test.

作者信息

Hauraix Hugo, Dorel Sylvain, Rabita Giuseppe, Guilhem Gaël, Nordez Antoine

机构信息

Laboratory "Movement, Interactions, Performance" (EA 4334), Faculty of Sport Sciences, University of Nantes, 25 bis Boulevard Guy Mollet, BP 72206, 44322, Nantes Cedex 3, France.

Laboratory Sport, Expertise and Performance (EA 7370), Research Department, French Institute of Sport (INSEP), Paris, France.

出版信息

Eur J Appl Physiol. 2017 Feb;117(2):289-299. doi: 10.1007/s00421-016-3518-4. Epub 2017 Jan 3.

DOI:10.1007/s00421-016-3518-4

PMID:28044199

Abstract

PURPOSE

Muscle fascicles-tendon interactions are the main determinant in production of high joint velocity. Currently, no study has investigated the muscle fascicles behaviour of knee extensor muscles until the highest reachable velocity (e.g., unloaded knee extension). We aimed to track the changes in vastus lateralis fascicles length during knee extensions to quantify muscle fascicles and tendinous tissues contributions to muscle-tendon unit shortening and to determine maximal muscle fascicles shortening velocity.

METHODS

Fifteen participants performed isokinetic and isoinertial knee extensions, and ultrafast ultrasound imaging was used to observe the vastus lateralis fascicles from low to very high joint velocity.

RESULTS

The muscle fascicles shortening velocity increased linearly with the increase in knee joint velocity up to the maximal joint velocity (mean R = 0.93 ± 0.08). Muscle fascicles contribution to muscle-tendon unit shortening velocity was almost constant regardless of the condition (83 ± 23%). Using Hill's equation, the maximal velocity of knee joint and muscle fascicles was determined at 1000 ± 489°s and 5.1 ± 2.0 L s (47.4 ± 18.7 cm s), respectively.

CONCLUSIONS

Contribution of muscle fascicles to the muscle-tendon unit shortening velocity was much higher for the vastus lateralis in this study compared to the gastrocnemius medialis in two previous studies. Moreover, this contribution of muscle fascicles shortening velocity was constant whatever the velocity condition, even at the highest reachable velocity. Thus, the vastus lateralis fascicles shortening velocity increases linearly with the knee joint velocity until high velocities and its behaviour strongly accorded with the classical Hill's force-velocity relationship.

摘要

目的

肌肉肌束与肌腱的相互作用是产生高关节速度的主要决定因素。目前，尚无研究探究膝伸肌的肌束行为直至可达到的最高速度（例如，无负荷膝关节伸展）。我们旨在追踪膝关节伸展过程中外侧股四头肌肌束长度的变化，以量化肌束和肌腱组织对肌肉 - 肌腱单元缩短的贡献，并确定肌束的最大缩短速度。

方法

15名参与者进行等速和等惯性膝关节伸展，并用超快超声成像从低到非常高的关节速度观察外侧股四头肌肌束。

结果

直至最大关节速度，肌束缩短速度随膝关节速度增加呈线性增加（平均R = 0.93±0.08）。无论何种情况，肌束对肌肉 - 肌腱单元缩短速度的贡献几乎恒定（83±23%）。使用希尔方程，分别确定膝关节和肌束的最大速度为1000±489°/s和5.1±2.0 L/s（47.4±18.7 cm/s）。

结论

在本研究中，与之前两项研究中的腓肠肌内侧头相比，外侧股四头肌的肌束对肌肉 - 肌腱单元缩短速度的贡献要高得多。此外，无论速度条件如何，即使在可达到的最高速度下，肌束缩短速度的这种贡献都是恒定的。因此，外侧股四头肌肌束缩短速度随膝关节速度线性增加直至高速，其行为与经典的希尔力 - 速度关系高度一致。

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股外侧肌在最大力-速度测试中的肌束缩短行为。

Muscle fascicle shortening behaviour of vastus lateralis during a maximal force-velocity test.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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