Anne Delextrat, Andreu Sastre-Munar, Mark de Ste Croix, Gregory Walsh
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引用次数: 0
摘要
提出了用偏心模式测量腘绳肌峰值偏心强度的技术局限性。pecc在预测运动表现或损伤风险因素方面的有效性也有限。因此,我们的目的是比较PTHecc和其他在偏心和被动模式下测试的等速变量。男子曲棍球运动员20名(20.2±1.1岁);179.7±6.9 cm;73.4±7.1 kg和12.2±3.4%体脂)在使用Biodex System 4等速测力仪的偏心模式和被动模式(杠杆臂自动运动)时,以60°·s-1(3次重复)和180°·s-1(5次重复)的速度对双腿进行腘绳肌的最大偏心收缩。测量了以下变量:PTHecc,峰值扭矩角(APT,°),转角特定的Hecc扭矩(间隔10°)以及前50 ms和前100 ms的扭矩发展速率(RTD)。主要结果显示,与偏心模式相比,被动模式仅导致非优势腿的PTHecc显著增加,而在接近膝关节屈曲的角度处,APT、RTD和角度特异性Hecc显著减少。相比之下,在被动模式下,在接近延伸角(10°-40°)时,可以观察到更大的角度特异性Hecc。这表明,虽然可以使用偏心或同心模式来比较等速数据与现有文献,但更可取的是使用被动模式来评估峰值扭矩或接近膝关节伸展的扭矩。偏心模式可能更好地评估运动开始时的变量,如RTD。
A cross-sectional study comparing passive and eccentric modes of an isokinetic dynamometer to assess eccentric torque in trained athletes: Methodological considerations
Some technical limitations to using the eccentric mode to measure peak eccentric strength of the hamstrings (PTHecc) were raised. PTHecc also has limited validity to predict performance or injury risk factor. Therefore, our aim was to compare PTHecc and other isokinetic variables tested in the eccentric and passive modes. Twenty male hockey players (20.2 ± 1.1 years; 179.7 ± 6.9 cm; 73.4 ± 7.1 kg and 12.2 ± 3.4% of body fat) performed maximal eccentric contractions of the hamstrings at 60°·s−1 (three repetitions) and 180°·s−1 (five repetitions) on both legs and using the eccentric mode and the passive mode (automatic movement of the lever arm) of the Biodex System 4 isokinetic dynamometer. The following variables were measured: PTHecc, the angle of peak torque (APT,°), angle-specific Hecc torque at intervals of 10° and the rate of torque development (RTD) in the first 50 ms and the first 100 ms. The main results showed that compared to the eccentric mode, the passive mode led to a significantly greater PTHecc in the non-dominant leg only and significantly smaller APT, RTD and angle-specific Hecc at angles close to knee flexion. In contrast, significantly greater angle-specific Hecc was observed in the passive mode at angles close to extension (10°–40°). This suggests that, although eccentric or concentric modes can be used to compare isokinetic data to existing literature, it is preferable to use the passive mode to assess peak torque or torque close to knee extension. The eccentric mode might be better to assess variables at the start of movement such as RTD.
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