Department of Sport and Exercise Science, University of Bedfordshire, Polhill Avenue, Bedford, UK.
Eur J Appl Physiol. 2010 Jun;109(3):491-8. doi: 10.1007/s00421-010-1386-x. Epub 2010 Feb 17.
Dynamic stretching has gained popularity, due to a number of studies showing an increase in high intensity performance compared to static stretch modalities. Twenty-four males (age mean 21 +/- 0.3 years) performed a standardised 10 min jogging warm-up followed by either; no stretching (NS), slow dynamic stretching at 50 b/min (SDS) or fast dynamic stretching at 100 b/min (FDS). Post-warm-up, squat, countermovement and depth jumps were performed. Heart rate, tympanic temperature, electromyography (EMG) and kinematic data (100 Hz) were collected during each jump. Results indicated that the FDS condition showed significantly greater jump height in all tests compared to the SDS and NS conditions. Further, the SDS trial resulted in significantly greater performance in the drop and squat jump compared to the NS condition. The reasons behind these performance changes are multi-faceted, but appear to be related to increases in heart rate and core temperature with slow dynamic stretches, while the greater increase in performance for the fast dynamic stretch intervention is linked to greater nervous system activation, shown by significant increases in EMG. In conclusion, a faster dynamic stretch component appears to prepare an athlete for a more optimum performance.
动态拉伸由于多项研究表明其在高强度表现方面比静态拉伸方式有所提高,因此受到了欢迎。24 名男性(年龄平均值为 21 +/- 0.3 岁)进行了标准的 10 分钟慢跑热身,然后进行以下三种方式之一:不拉伸(NS)、以 50 b/min 的速度进行缓慢动态拉伸(SDS)或以 100 b/min 的速度进行快速动态拉伸(FDS)。热身结束后,进行深蹲、反向跳和纵跳。在每次跳跃时收集心率、鼓膜温度、肌电图(EMG)和运动学数据(100 Hz)。结果表明,与 SDS 和 NS 条件相比,FDS 条件在所有测试中均表现出明显更高的跳跃高度。此外,SDS 试验与 NS 条件相比,在深蹲跳和跳箱跳中表现出明显更好的成绩。这些性能变化的原因是多方面的,但似乎与缓慢动态拉伸时心率和核心温度的升高有关,而快速动态拉伸干预的性能提高则与更大的神经系统激活有关,EMG 的显著增加表明了这一点。总之,更快的动态拉伸部分似乎可以使运动员为更优的表现做好准备。
