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下肢肌肉特征与短跑和跳跃时的速度-力量曲线之间的关系。

Relationships between Lower Limb Muscle Characteristics and Force-Velocity Profiles Derived during Sprinting and Jumping.

机构信息

Department of Movement and Sports Sciences, Ghent University, Ghent, BELGIUM.

Qscan Radiology, Queensland, AUSTRALIA.

出版信息

Med Sci Sports Exerc. 2021 Jul 1;53(7):1400-1411. doi: 10.1249/MSS.0000000000002605.

Abstract

PURPOSE

This study aimed to identify the relationships between lower limb muscle characteristics and mechanical variables derived from the vertical (jumping) and horizontal (sprinting) force-velocity-power (FVP) profiles.

METHODS

Nineteen subelite male rugby league players performed a series of squat jumps and linear 30-m sprints to derive the vertical and horizontal FVP profiles, respectively. The theoretical maximal force (F0), velocity (V0), and power (Pmax) were derived from both the vertical (i.e., vF0, vV0, and vPmax) and the horizontal (i.e., hF0, hV0, and hPmax) FVP profiles. Vastus lateralis (VL), biceps femoris long head, and gastrocnemius medialis (GM) and lateralis muscle fascicle length, pennation angle, and thickness were measured using B-mode ultrasonography. Magnetic resonance imaging was used to calculate volumes of major lower limb muscles, whereas proton magnetic resonance spectroscopy was used to quantify the carnosine content of the GM to estimate muscle fiber typology.

RESULTS

Variation in vPmax was best explained by GM muscle fiber typology (i.e., greater estimated proportion of Type II fibers) and VL volume (adjusted r2 = 0.440, P = 0.006), whereas adductor and vastus medialis volume and GM muscle fiber typology explained the most variation in hPmax (adjusted r2 = 0.634, P = 0.032). Rectus femoris and VL volume explained variation in vF0 (r2 = 0.430, P = 0.008), whereas adductor and vastus medialis volume explained variation in hF0 (r2 = 0.432, P = 0.007). Variations in vV0 and hV0 were best explained by GM muscle fiber typology (adjusted r2 = 0.580, P < 0.001) and GM muscle fiber typology and biceps femoris short head volume (adjusted r2 = 0.590, P < 0.001), respectively.

CONCLUSION

Muscle fiber typology and muscle volume are strong determinants of maximal muscle power in jumping and sprinting by influencing the velocity- and force-oriented mechanical variables.

摘要

目的

本研究旨在确定下肢肌肉特征与垂直(跳跃)和水平(冲刺)力量-速度-功率(FVP)曲线中得出的力学变量之间的关系。

方法

19 名次精英男性橄榄球联赛运动员进行了一系列深蹲跳和 30 米直线冲刺,以分别得出垂直和水平 FVP 曲线。理论最大力(F0)、速度(V0)和功率(Pmax)分别来自垂直(即 vF0、vV0 和 vPmax)和水平(即 hF0、hV0 和 hPmax)FVP 曲线。使用 B 型超声测量股外侧肌(VL)、股二头肌长头、腓肠肌内侧(GM)和外侧肌束长度、肌纤维羽状角和厚度。磁共振成像用于计算主要下肢肌肉的体积,而质子磁共振波谱用于定量 GM 的肌肽含量以估计肌肉纤维类型。

结果

vPmax 的变化最好由 GM 肌肉纤维类型(即估计的 II 型纤维比例更高)和 VL 体积解释(调整后的 r2 = 0.440,P = 0.006),而内收肌和股中间肌体积和 GM 肌肉纤维类型解释了 hPmax 的最大变化(调整后的 r2 = 0.634,P = 0.032)。股直肌和 VL 体积解释了 vF0 的变化(r2 = 0.430,P = 0.008),而内收肌和股中间肌体积解释了 hF0 的变化(r2 = 0.432,P = 0.007)。vV0 和 hV0 的变化最好由 GM 肌肉纤维类型(调整后的 r2 = 0.580,P < 0.001)和 GM 肌肉纤维类型和股二头肌短头体积(调整后的 r2 = 0.590,P < 0.001)解释。

结论

肌肉纤维类型和肌肉体积是跳跃和冲刺中最大肌肉力量的重要决定因素,通过影响速度和力导向的力学变量。

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