极化训练能提高业余跑者的表现吗？

Does polarized training improve performance in recreational runners?

机构信息

European University of Madrid, Madrid, Spain.

出版信息

Int J Sports Physiol Perform. 2014 Mar;9(2):265-72. doi: 10.1123/ijspp.2012-0350. Epub 2013 May 22.

DOI:10.1123/ijspp.2012-0350

PMID:23752040

Abstract

PURPOSE

To quantify the impact of training-intensity distribution on 10K performance in recreational athletes.

METHODS

30 endurance runners were randomly assigned to a training program emphasizing low-intensity, sub-ventilatory-threshold (VT), polarized endurance-training distribution (PET) or a moderately high-intensity (between-thresholds) endurance-training program (BThET). Before the study, the subjects performed a maximal exercise test to determine VT and respiratory-compensation threshold (RCT), which allowed training to be controlled based on heart rate during each training session over the 10-wk intervention period. Subjects performed a 10-km race on the same course before and after the intervention period. Training was quantified based on the cumulative time spent in 3 intensity zones: zone 1 (low intensity, <VT), zone 2 (moderate intensity, between VT and RCT), and zone 3 (high intensity, >RCT). The contribution of total training time in each zone was controlled to have more low-intensity training in PET (±77/3/20), whereas for BThET the distribution was higher in zone 2 and lower in zone 1 (±46/35/19).

RESULTS

Both groups significantly improved their 10K time (39min18s ± 4min54s vs 37min19s ± 4min42s, P < .0001 for PET; 39min24s ± 3min54s vs 38min0s ± 4min24s, P < .001 for BThET). Improvements were 5.0% vs 3.6%, ~41 s difference at post-training-intervention. This difference was not significant. However, a subset analysis comparing the 12 runners who actually performed the most PET (n = 6) and BThET (n = 16) distributions showed greater improvement in PET by 1.29 standardized Cohen effect-size units (90% CI 0.31-2.27, P = .038).

CONCLUSIONS

Polarized training can stimulate greater training effects than between-thresholds training in recreational runners.

摘要

目的

量化训练强度分布对业余运动员 10K 成绩的影响。

方法

30 名耐力跑者被随机分配到强调低强度、亚通气阈（VT）、极化耐力训练分布（PET）或适度高强度（阈间）耐力训练方案（BThET）的训练方案中。在研究之前，受试者进行了最大运动测试，以确定 VT 和呼吸补偿阈值（RCT），这允许根据每个训练期间的心率控制训练，在 10 周的干预期间。受试者在干预前后在同一课程上进行了 10 公里比赛。训练基于在 3 个强度区域中花费的累积时间进行量化：区域 1（低强度，<VT）、区域 2（中等强度，VT 和 RCT 之间）和区域 3（高强度，>RCT）。控制每个区域的总训练时间的贡献，使 PET 中的低强度训练更多（±77/3/20），而对于 BThET，区域 2 的分布更高，区域 1 的分布更低（±46/35/19）。

结果

两组的 10K 时间都有显著提高（39 分 18 秒±4 分 54 秒比 37 分 19 秒±4 分 42 秒，PET 为<.0001；39 分 24 秒±3 分 54 秒比 38 分 0 秒±4 分 24 秒，BThET<.001）。训练后的改善率分别为 5.0%和 3.6%，训练后干预的差异为 41 秒。这个差异并不显著。然而，对比较实际进行最多 PET（n=6）和 BThET（n=16）分布的 12 名跑者的子集分析显示，PET 的改善更大，标准化 Cohen 效应量单位为 1.29（90%CI 0.31-2.27，P=.038）。

结论

极化训练可以刺激业余跑者比阈间训练产生更大的训练效果。

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极化训练能提高业余跑者的表现吗？

Does polarized training improve performance in recreational runners?

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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