竞技公路自行车运动员训练负荷的监测方法及其与体能和成绩变化的关系

Methods of Monitoring Training Load and Their Relationships to Changes in Fitness and Performance in Competitive Road Cyclists.

作者信息

Sanders Dajo, Abt Grant, Hesselink Matthijs K C, Myers Tony, Akubat Ibrahim

出版信息

Int J Sports Physiol Perform. 2017 May;12(5):668-675. doi: 10.1123/ijspp.2016-0454. Epub 2017 Jan 17.

DOI:10.1123/ijspp.2016-0454

PMID:28095061

Abstract

PURPOSE

To assess the dose-response relationships between different training-load methods and aerobic fitness and performance in competitive road cyclists.

METHODS

Training data from 15 well-trained competitive cyclists were collected during a 10-wk (December-March) preseason training period. Before and after the training period, participants underwent a laboratory incremental exercise test with gas-exchange and lactate measures and a performance assessment using an 8-min time trial (8MT). Internal training load was calculated using Banister TRIMP, Edwards TRIMP, individualized TRIMP (iTRIMP), Lucia TRIMP (luTRIMP), and session rating of perceived exertion (sRPE). External load was measured using Training Stress Score (TSS).

RESULTS

Large to very large relationships (r = .54-.81) between training load and changes in submaximal fitness variables (power at 2 and 4 mmol/L) were observed for all training-load calculation methods. The strongest relationships with changes in aerobic fitness variables were observed for iTRIMP (r = .81 [95% CI .51-.93, r = .77 [95% CI .43-.92]) and TSS (r = .75 [95% CI .31-.93], r = .79 [95% CI .40-.94]). The strongest dose-response relationships with changes in the 8MT test were observed for iTRIMP (r = .63 [95% CI .17-.86]) and luTRIMP (r = .70 [95% CI .29-.89).

CONCLUSIONS

Training-load quantification methods that integrate individual physiological characteristics have the strongest dose-response relationships, suggesting this to be an essential factor in the quantification of training load in cycling.

摘要

目的

评估不同训练负荷方法与竞技公路自行车运动员有氧适能及运动表现之间的剂量反应关系。

方法

在为期10周（12月至3月）的赛季前训练期收集了15名训练有素的竞技自行车运动员的训练数据。在训练期前后，参与者接受了一项带有气体交换和乳酸测量的实验室递增运动测试以及一项使用8分钟计时赛（8MT）的运动表现评估。使用巴尼斯特训练负荷积分（TRIMP）、爱德华兹TRIMP、个性化TRIMP（iTRIMP）、卢西亚TRIMP（luTRIMP）和主观用力程度训练课评分（sRPE）来计算内部训练负荷。使用训练压力评分（TSS）来测量外部负荷。

结果

对于所有训练负荷计算方法，观察到训练负荷与次最大适能变量（2和4毫摩尔/升时的功率）变化之间存在大到非常大的关系（r = 0.54 - 0.81）。观察到iTRIMP（r = 0.81 [95%置信区间0.51 - 0.93]，r = 0.77 [95%置信区间0.43 - 0.92]）和TSS（r = 0.75 [95%置信区间0.31 - 0.93]，r = 0.79 [95%置信区间0.40 - 0.94]）与有氧适能变量变化的关系最强。观察到iTRIMP（r = 0.63 [95%置信区间0.17 - 0.86]）和luTRIMP（r = 0.70 [95%置信区间0.29 - 0.89]）与8MT测试变化的剂量反应关系最强。

结论

整合个体生理特征的训练负荷量化方法具有最强的剂量反应关系，表明这是自行车运动训练负荷量化中的一个关键因素。

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竞技公路自行车运动员训练负荷的监测方法及其与体能和成绩变化的关系

Methods of Monitoring Training Load and Their Relationships to Changes in Fitness and Performance in Competitive Road Cyclists.

作者信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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