Pelegrinelli Alexandre R M, Dela Bela Laís F, Silva Mariana F, Rodrigues Lucas C R, Batista João P, Guenka Leandro C, Dias Josilainne M, Brown Lee E, Carregaro Rodrigo L, Moura Felipe A, Cardoso Jefferson R
Laboratory of Biomechanics and Clinical Epidemiology, Research Group in Physical Therapy Assessment and Intervention (PAIFIT), Universidade Estadual de Londrina, Londrina, Brazil.
Laboratory of Applied Biomechanics, Universidade Estadual de Londrina, Londrina, Brazil.
S Afr J Physiother. 2019 Jun 11;75(1):478. doi: 10.4102/sajp.v75i1.478. eCollection 2019.
Many studies have investigated isokinetic performance in volleyball players but not through surface maps.
The goals of this study were to assess velocity-specific isokinetic knee extensor-flexor muscle strength and to compare the isokinetic knee extensor-flexor muscles between professional (PRO) and under-17 (U17) female volleyball players.
This cross-sectional laboratory study was developed with two groups: PRO ( = 12), median = 21.3 years, and U17 ( = 9), median = 15 years. Peak torque, total work, mean power, angle of peak torque, hamstring-quadriceps torque ratio (H-Q ratio) and torque-angle-velocity surface maps were analysed from knee extension-flexion at 60, 120 and 300 degrees per second (°/s).
Significant differences were identified for extensor peak torque between PRO = 202.3 Newton metre (N·m) (standard deviation [SD] = 24.4) and U17 = 141.6 N·m (30.1) at 60 °/s ( < 0.001; = 2.21) as well as flexor peak torque (PRO = 75.7 N·m [10.3] and U17 = 57.7 N·m [11.4]) at 120 °/s ( < 0.001; = 1.65) for the dominant limb. There were also significant group differences for total work and mean power at all velocities for extension and flexion. Surface maps demonstrated higher torque at lower speeds for both groups with smaller torque changes across velocities for flexion.
Different groups of female volleyball players showed contrasting concentric knee muscle strength across isokinetic velocities.
These results demonstrate the importance of specific strength training for different age groups, even within the same sport, and provide insight into muscle strength.
许多研究调查了排球运动员的等速运动表现,但未通过表面图进行研究。
本研究的目的是评估特定速度下的等速膝关节屈伸肌力量,并比较职业(PRO)和17岁以下(U17)女子排球运动员的等速膝关节屈伸肌力量。
本横断面实验室研究分为两组:PRO组(n = 12),中位年龄 = 21.3岁;U17组(n = 9),中位年龄 = 15岁。分析了在每秒60、120和300度(°/s)膝关节屈伸时的峰值扭矩、总功、平均功率、峰值扭矩角度、腘绳肌与股四头肌扭矩比(H-Q比)以及扭矩-角度-速度表面图。
在60°/s时,优势侧肢体的伸肌峰值扭矩在PRO组为202.3牛顿米(N·m)(标准差[SD]=24.4),U17组为141.6 N·m(30.1),差异有统计学意义(P<0.001;效应量=2.21);在120°/s时,屈肌峰值扭矩(PRO组为75.7 N·m[10.3],U17组为57.7 N·m[11.4])差异也有统计学意义(P<0.001;效应量=1.65)。在所有速度下,屈伸的总功和平均功率在两组之间也存在显著差异。表面图显示两组在较低速度下扭矩较高,而屈肌在不同速度下扭矩变化较小。
不同组别的女子排球运动员在等速运动速度下表现出不同的同心膝关节肌肉力量。
这些结果表明,即使在同一项运动中,针对不同年龄组进行特定的力量训练也很重要,并为肌肉力量提供了见解。
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