Hough Paul A, Ross Emma Z, Howatson Glyn
School of Human Sciences, St Mary's University College, Twickenham, United Kingdom.
J Strength Cond Res. 2009 Mar;23(2):507-12. doi: 10.1519/JSC.0b013e31818cc65d.
The results of previous research have demonstrated that static stretching (SS) can reduce muscular performance and that dynamic stretching (DS) can enhance muscular performance. The purpose of this study was to assess the effects of SS and DS on vertical jump (VJ) performance and electromyographic (EMG) activity of the m. vastus medialis. Eleven healthy men (age 21 +/- 2 years) took part in 3 conditions (no stretching [NS], SS, and DS), on separate occasions in a randomized, crossover design. During each condition, measurements of VJ height and EMG activity during the VJ were recorded. A repeated-measures analysis of variance and post hoc analysis indicated that VJ height was significantly less (4.19 +/- 4.47%) after SS than NS (p < 0.05) and significantly greater (9.44 +/- 4.25%) in DS than SS (p < 0.05). There was significantly greater EMG amplitude in the DS compared with the SS (p < 0.05). The results demonstrated that SS has a negative influence on VJ performance, whereas DS has a positive impact. Increased VJ performance after DS may be attributed to postactivation potentiation, whereas the reduction in VJ performance after SS may be attributable to neurological impairment and a possible alteration in the viscoelastic properties of the muscular tendon unit (MTU). This investigation provides some physiological basis for the inclusion of DS and exclusion of SS in preparation for activities requiring jumping performance.
先前的研究结果表明,静态拉伸(SS)会降低肌肉性能,而动态拉伸(DS)则可增强肌肉性能。本研究的目的是评估静态拉伸和动态拉伸对垂直跳跃(VJ)性能以及股内侧肌肌电图(EMG)活动的影响。11名健康男性(年龄21±2岁)以随机交叉设计在不同时间参与了3种条件测试(无拉伸[NS]、静态拉伸、动态拉伸)。在每种条件下,均记录垂直跳跃高度及跳跃过程中的肌电图活动。重复测量方差分析及事后分析表明,与无拉伸相比,静态拉伸后垂直跳跃高度显著降低(4.19±4.47%)(p<0.05),而与静态拉伸相比,动态拉伸后的垂直跳跃高度显著增加(9.44±4.25%)(p<0.05)。与静态拉伸相比,动态拉伸时肌电图振幅显著更大(p<0.05)。结果表明,静态拉伸对垂直跳跃性能有负面影响,而动态拉伸有积极影响。动态拉伸后垂直跳跃性能的提高可能归因于激活后增强效应,而静态拉伸后垂直跳跃性能的降低可能归因于神经功能受损以及肌腱肌肉单元(MTU)粘弹性特性的可能改变。本研究为在需要跳跃性能的活动准备中纳入动态拉伸和排除静态拉伸提供了一些生理学依据。
