School of Human Kinetics and Recreation, Memorial University of Newfoundland, St. John's, NF, A1M 3L8, Canada.
Centre for Exercise and Sports Science Research, Edith Cowan University, Joondalup Campus, 270 Joondalup Drive, Joondalup, WA, Australia.
Eur J Appl Physiol. 2018 Jul;118(7):1427-1445. doi: 10.1007/s00421-018-3874-3. Epub 2018 May 2.
Evidence for performance decrements following prolonged static stretching (SS) has led to a paradigm shift in stretching routines within a warm-up. Rather than SS, dynamic stretching (DS) and dynamic activity (DA) have replaced SS within warm-up routines. The objective of the present study was to compare the effect of differing lower limb SS durations (30 [SS30s], 60 [SS60s] or 120 s [SS120s] of SS per muscle group or no-stretch control) within a comprehensive warm-up protocol consisting of aerobic activity, DS and DA. Sixteen male participants completed the four stretching conditions in a randomized order, after a 5-min low-intensity (cycle) warm-up and before a DS/DA component on separate days. Tests included passive hip and knee ranges of motion (ROM), maximum voluntary knee extensor/flexor force, force produced at 100 ms (F100), vertical jump height and evoked knee extensor contractile properties. For hip flexion (hamstrings) ROM, SS120s provided the largest increase (5.6-11.7%) followed by SS60s (4.3-11.4%), control (4.4-10.6%) and SS30s (3.6-11.1%). For knee flexion (quadriceps) ROM, SS30s provided the largest increase (9.3-18.2%) followed by SS120s (6.5-16.3%), SS60s (7.2-15.2%) and control (6.3-15.2%). There were decreases in quadriceps F100 following SS in SS120s (29.6%) only. There were increases in vertical jump performance in the control (6.2%), SS60s (4.6%) and SS30s (3.3%). While 120 s SS per muscle increased ROM, even within a comprehensive warm-up routine, it also elicited notable performance decrements. However, moderate durations of SS were observed to improve ROM whilst either having negligible or beneficial (but not detrimental) effects on specific aspects of athletic performance.
证据表明,长时间的静态伸展(SS)会导致热身过程中拉伸方式的范式转变。在热身过程中,动态伸展(DS)和动态活动(DA)取代了 SS。本研究的目的是比较不同下肢 SS 持续时间(每组肌肉 30 秒[SS30s]、60 秒[SS60s]或 120 秒[SS120s]的 SS 或无拉伸对照)在有氧活动、DS 和 DA 综合热身方案中的效果。16 名男性参与者在 5 分钟低强度(自行车)热身后,以随机顺序在不同天完成四种拉伸条件,然后进行 DS/DA 测试。测试包括被动髋关节和膝关节活动度(ROM)、最大自主膝关节伸肌/屈肌力量、100ms 时产生的力(F100)、垂直跳跃高度和诱发膝关节伸肌收缩特性。对于髋关节屈曲(腘绳肌)ROM,SS120s 提供了最大的增加(5.6-11.7%),其次是 SS60s(4.3-11.4%)、对照(4.4-10.6%)和 SS30s(3.6-11.1%)。对于膝关节屈曲(股四头肌)ROM,SS30s 提供了最大的增加(9.3-18.2%),其次是 SS120s(6.5-16.3%)、SS60s(7.2-15.2%)和对照(6.3-15.2%)。只有在 SS120s 中,SS 后股四头肌 F100 减少。在对照(6.2%)、SS60s(4.6%)和 SS30s(3.3%)中,垂直跳跃性能均有所提高。虽然每块肌肉 120 秒 SS 增加了 ROM,但即使在综合热身方案中,它也会引起明显的运动表现下降。然而,中等持续时间的 SS 被观察到改善 ROM,同时对运动表现的特定方面具有可忽略或有益(但不是有害)的影响。
