冷水浸泡恢复模拟碰撞运动后。

Cold water immersion recovery after simulated collision sport exercise.

机构信息

School of Human Movement Studies, Charles Sturt University, Bathurst, New South Wales, Australia.

出版信息

Med Sci Sports Exerc. 2012 Feb;44(2):206-16. doi: 10.1249/MSS.0b013e31822b0977.

DOI:10.1249/MSS.0b013e31822b0977

PMID:21716151

Abstract

PURPOSE

This investigation examined the effects of cold water immersion (CWI) recovery after simulated collision sport exercise.

METHODS

Ten male rugby athletes performed three sessions consisting of a 2 × 30-min intermittent-sprint exercise (ISE) protocol with either tackling (T) or no tackling (CONT), followed by a 20-min CWI intervention (TCWI) or passive recovery (TPASS and CONT) in a randomized order. The ISE consisted of a 15-m sprint every minute separated by self-paced bouts of hard running, jogging, and walking for the remainder of the minute. Every sixth rotation, participants performed 5 × 10-m runs, receiving a shoulder-led tackle to the lower body on each effort. Sprint time and distance covered during ISE were recorded, with voluntary (maximal voluntary contraction; MVC) and evoked neuromuscular function (voluntary activation; VA), electromyogram (root mean square (RMS)), ratings of perceived muscle soreness (MS), capillary and venous blood markers for metabolites and muscle damage, respectively measured before and after exercise, immediately after recovery, and 2 and 24 h after recovery.

RESULTS

Total distance covered during exercise was significantly greater in CONT (P = 0.01), without differences between TPASS and TCWI (P > 0.05). TCWI resulted in increased MVC, VA, and RMS immediately after recovery (P < 0.05). M-wave amplitude and peak twitch were significantly increased after recovery and 2 h after recovery, respectively, in TCWI (P < 0.05). Although TCWI had no effect on the elevation in blood markers for muscle damage (P > 0.05), lactate was significantly reduced after recovery compared with TPASS (P = 0.04). CWI also resulted in reduced MS 2 h after recovery compared with TPASS (P < 0.05).

CONCLUSIONS

The introduction of body contact reduces exercise performance, whereas the use of CWI results in a faster recovery of MVC, VA, and RMS and improves muscle contractile properties and perceptions of soreness after collision-based exercise.

摘要

目的

本研究旨在探讨冷水浸泡（CWI）对模拟碰撞运动后恢复的影响。

方法

10 名男性橄榄球运动员进行了 3 次试验，包括 2 次 30 分钟的间歇性冲刺运动（ISE）方案，分别进行有触身（T）或无触身（CONT）的 tackling，随后以随机顺序进行 20 分钟的 CWI 干预（TCWI）或被动恢复（TPASS 和 CONT）。ISE 由每 1 分钟进行 15 米冲刺组成，冲刺之间由自主进行的高强度跑步、慢跑和步行回合隔开。每第六轮，参与者进行 5 次 10 米跑，每次都要对下半身进行肩部引导的 Tackling。记录 ISE 期间的冲刺时间和距离，分别测量运动前、运动后、恢复后即刻以及恢复后 2 小时和 24 小时的最大自主收缩（MVC）和诱发神经肌肉功能（VA）、肌电图（均方根（RMS））、肌肉酸痛的感知评分（MS）、毛细血管和静脉血液中的代谢物和肌肉损伤标志物。

结果

CONT 组的运动总距离显著大于 TPASS 和 TCWI 组（P = 0.01）。TCWI 恢复后即刻的 MVC、VA 和 RMS 增加（P < 0.05）。M 波振幅和最大单次收缩在恢复后和恢复后 2 小时分别显著增加，在 TCWI 组中（P < 0.05）。尽管 TCWI 对肌肉损伤标志物的升高没有影响（P > 0.05），但与 TPASS 相比，CWI 后恢复时的乳酸显著降低（P = 0.04）。CWI 还使恢复后 2 小时的 MS 降低，与 TPASS 相比（P < 0.05）。

结论

身体接触的引入会降低运动表现，而 CWI 的使用会更快地恢复 MVC、VA 和 RMS，并改善肌肉收缩性能和碰撞后运动后的酸痛感。

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冷水浸泡恢复模拟碰撞运动后。

Cold water immersion recovery after simulated collision sport exercise.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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