随着时间的推移确定精英游泳运动员的最佳超负荷和减量。
Identifying Optimal Overload and Taper in Elite Swimmers over Time.
机构信息
Research Mission-Laboratory of Physiology, INSEP , Paris, France ;
Department of Physiology, Australian Institute of Sport , Belconnen, Canberra, Australia ;
出版信息
J Sports Sci Med. 2013 Dec 1;12(4):668-78. eCollection 2013.
The aim of this exploratory study was to identify the most influential training designs during the final six weeks of training (F6T) before a major swimming event, taking into account athletes' evolution over several seasons. Fifteen female and 17 male elite swimmers were followed for one to nine F6T periods. The F6T was divided into two sub-periods of a three-week overload period (OP) and a three-week taper period (TP). The final time trial performance was recorded for each swimmer in his or her specialty at the end of both OP and TP. The change in performances (ΔP) between OP and TP was recorded. Training variables were derived from the weekly training volume at several intensity levels as a percentage of the individual maximal volume measured at each intensity level, and the individual total training load (TTL) was considered to be the mean of the loads at these seven intensity levels. Also, training patterns were identified from TTL in the three weeks of both OP and TP by cluster analysis. Mixed-model was used to analyse the longitudinal data. The training pattern during OP that was associated with the greatest improvement in performance was a training load peak followed by a linear slow decay (84 ± 17, 81 ± 22, and 80 ± 19 % of the maximal training load measured throughout the F6T period for each subject, Mean ± SD) (p < 0.05). During TP, a training load peak in the 1(st) week associated with a slow decay design (57 ± 26, 45 ± 24 and 38 ± 14%) led to higher ΔP (p < 0.05). From the 1(st) to 3(rd) season, the best results were characterized by maintenance of a medium training load from OP to TP. Progressively from the 4(th) season, high training loads during OP followed by a sharp decrease during TP were associated with higher ΔP. Key PointsDuring the overload training period, a medium training load peak in the first week followed by an exponential slow decay training load design was linked to highest performance improvement.During the taper period, a training load peak in the first week associated with a slow decay design led to higher performances.Over the course of the swimmers' athletic careers, better performances were obtained with an increase in training load during the overload period followed by a sharper decrease in the taper period.Training loads schedules during the final six weeks of training before a major swimming event and changes over time could be prescribed on the basis of the model results.
本探索性研究的目的是确定在重大游泳赛事前的最后六周训练(F6T)期间最具影响力的训练设计,同时考虑运动员在几个赛季中的发展情况。15 名女性和 17 名男性精英游泳运动员在一到九个 F6T 期间被跟踪观察。F6T 分为三周超荷期(OP)和三周减量期(TP)两个亚期。每位游泳运动员在 OP 和 TP 结束时都在其专项中进行了最后一次计时赛成绩记录。记录 OP 和 TP 之间的性能变化(ΔP)。训练变量是根据每周在多个强度水平下的训练量计算得出的,以个体在每个强度水平下的最大容量的百分比表示,个体总训练负荷(TTL)被认为是这七个强度水平的负荷平均值。此外,通过聚类分析,在 OP 和 TP 的三周内从 TTL 中确定了训练模式。混合模型用于分析纵向数据。与性能提高最大相关的 OP 期间的训练模式是训练负荷峰值,随后是线性缓慢下降(每个受试者在 F6T 期间测量的最大训练负荷的 84 ± 17%、81 ± 22%和 80 ± 19%)(p < 0.05)。在 TP 期间,第 1 周的训练负荷峰值与缓慢下降设计相关(57 ± 26%、45 ± 24%和 38 ± 14%)导致更高的ΔP(p < 0.05)。从第 1 个赛季到第 3 个赛季,最佳结果的特点是从 OP 到 TP 保持中等训练负荷。从第 4 个赛季开始,OP 期间的高训练负荷随后在 TP 期间急剧下降与更高的ΔP 相关。要点在超荷训练期间,第 1 周的中等训练负荷峰值,随后是指数缓慢下降的训练负荷设计,与最高性能提高相关。在减量期,第 1 周的训练负荷峰值与缓慢下降设计相关,可导致更高的成绩。在游泳运动员的运动生涯中,随着超荷期训练负荷的增加和减量期训练负荷的急剧下降,可以获得更好的成绩。根据模型结果,可以在重大游泳赛事前的最后六周训练期间制定训练计划和随时间的变化。
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