冲刺自行车性能通过短期对比水浸得以维持。
Sprint cycling performance is maintained with short-term contrast water immersion.
机构信息
Department of Physiology, Trinity College Dublin, Dublin, Ireland.
出版信息
Med Sci Sports Exerc. 2011 Nov;43(11):2180-8. doi: 10.1249/MSS.0b013e31821d06d9.
PURPOSE
Given the widespread use of water immersion during recovery from exercise, we aimed to investigate the effect of contrast water immersion on recovery of sprint cycling performance, HR and, blood lactate.
METHODS
Two groups completed high-intensity sprint exercise before and after a 30-min randomized recovery. The Wingate group (n = 8) performed 3 × 30-s Wingate tests (4-min rest periods). The repeated intermittent sprint group (n = 8) cycled for alternating 30-s periods at 40% of predetermined maximum power and 120% maximum power, until exhaustion. Both groups completed three trials using a different recovery treatment for each trial (balanced randomized application). Recovery treatments were passive rest, 1:1 contrast water immersion (2.5 min of cold (8°C) to 2.5 min of hot (40°C)), and 1:4 contrast water immersion (1 min of cold to 4 min of hot). Blood lactate and HR were recorded throughout, and peak power and total work for pre- and postrecovery Wingate performance and exercise time and total work for repeated sprinting were recorded.
RESULTS
Recovery of Wingate peak power was 8% greater after 1:4 contrast water immersion than after passive rest, whereas both contrast water immersion ratios provided a greater recovery of exercise time (∼ 10%) and total work (∼ 14%) for repeated sprinting than for passive rest. Blood lactate was similar between trials. Compared with passive rest, HR initially declined more slowly during contrast water immersion but increased with each transition to a cold immersion phase.
CONCLUSIONS
These data support contrast water immersion being effective in maintaining performance during a short-term recovery from sprint exercise. This effect needs further investigation but is likely explained by cardiovascular mechanisms, shown here by an elevation in HR upon each cold immersion.
目的
鉴于运动后恢复期间广泛使用水浸,我们旨在研究对比水浸对短跑自行车性能、心率和血乳酸恢复的影响。
方法
两组在高强度短跑运动前后完成 30 分钟的随机恢复。Wingate 组(n = 8)进行了 3 次 30 秒 Wingate 测试(4 分钟休息期)。重复间歇冲刺组(n = 8)以 40%的预定最大功率和 120%的最大功率交替骑行 30 秒,直至力竭。两组均使用不同的恢复处理进行了三次试验,每次试验的恢复处理均为随机平衡应用。恢复处理分别为被动休息、1:1 对比水浸(2.5 分钟冷(8°C)至 2.5 分钟热(40°C))和 1:4 对比水浸(1 分钟冷至 4 分钟热)。在整个过程中记录血乳酸和心率,记录预恢复和恢复后的 Wingate 性能的峰值功率和总工作量以及重复冲刺的运动时间和总工作量。
结果
与被动休息相比,1:4 对比水浸后 Wingate 峰值功率恢复提高了 8%,而两种对比水浸比被动休息恢复运动时间(约 10%)和总工作量(约 14%)对重复冲刺的效果更好。血乳酸在试验之间相似。与被动休息相比,在对比水浸期间心率初始下降更慢,但每次过渡到冷浸阶段时都会增加。
结论
这些数据支持在短时间内从短跑运动中恢复时,对比水浸可以有效地保持性能。这种效果需要进一步研究,但可能是由心血管机制解释的,这里通过每次冷浸时 HR 的升高来显示。
Zotero 插件