Department of Medical Sciences, NeuroMuscularFunction Research Group, School of Exercise & Sport Sciences, University of Turin, Turin, Italy.
Physiol Meas. 2019 Feb 15;40(2):025002. doi: 10.1088/1361-6579/aaff24.
The neuromuscular quickness capacity can be assessed by calculating the rate of torque development (RTD) during ballistic contractions of maximal (RTD) or submaximal (RTD) amplitudes. In a series of ballistic contractions of submaximal amplitudes, the RTD scaling factor (RTD-SF) represents the slope of the linear regression between achieved peak torques and the corresponding RTD. First we investigated whether the RTD-SF contributes to the prediction, together with maximal voluntary torques (MVT), of the RTD. Then, we evaluated the agreement between the z-scores of RTD and RTD.
The MVT was obtained for the quadriceps and hamstrings muscles of 22 elite young soccer players. RTD-SF was quantified in a series of ballistic contractions of submaximal and maximal amplitudes. RTD was estimated from the regression relationship between the peak torques and the corresponding RTD.
MVT, RTD-SF and y -intercept in total accounted for 76.9 and 61.2% of the variance in RTD in quadriceps and hamstrings, respectively. Specifically, RTD-SF accounted for 13.7% and 18.7% of the variance in RTD, respectively. Generally, the agreement between the z-scores of RTD and RTD was poor both in quadriceps and hamstrings.
These results suggest that RTD-SF may have a functional relevance in the relationship between MVT and RTD and influence the amount of torque that can be achieved in a quick muscle contraction. Moreover, evaluating the RTD does not provide results that are interchangeable with RTD. Thus, evaluating the RTD across the whole range of torque could provide additional meaningful information about neuromuscular quickness.
通过计算最大(RTD)或亚最大(RTD)幅度的弹性能量快速收缩期间的扭矩发展速率(RTD),可以评估神经肌肉快速收缩能力。在一系列亚最大幅度的弹性能量快速收缩中,RTD 缩放因子(RTD-SF)代表实现的峰值扭矩与相应的 RTD 之间线性回归的斜率。首先,我们研究了 RTD-SF 是否与最大自主扭矩(MVT)一起对 RTD 的预测有贡献。然后,我们评估了 RTD 和 RTD 的 z 分数之间的一致性。
我们对 22 名优秀的年轻足球运动员的股四头肌和腿筋肌肉进行了 MVT 测量。在一系列亚最大和最大幅度的弹性能量快速收缩中,量化了 RTD-SF。通过峰值扭矩与相应 RTD 之间的回归关系,估计了 RTD。
MVT、RTD-SF 和 y 截距总共解释了股四头肌和腿筋中 RTD 的 76.9%和 61.2%的方差。具体来说,RTD-SF 分别解释了 RTD 的 13.7%和 18.7%的方差。通常,股四头肌和腿筋的 RTD 和 RTD 的 z 分数之间的一致性都很差。
这些结果表明,RTD-SF 在 MVT 和 RTD 之间的关系中可能具有功能相关性,并影响快速肌肉收缩中可实现的扭矩量。此外,评估 RTD 并不能提供与 RTD 可互换的结果。因此,在整个扭矩范围内评估 RTD 可以提供有关神经肌肉快速性的其他有意义的信息。
