Training Intensity Distribution of a 7-Day HIIT Shock Microcycle: Is Time in the "Red Zone" Crucial for Maximizing Endurance Performance? A Randomized Controlled Trial.

IF 4.1 2区医学 Q1 SPORT SCIENCES

Sports Medicine - Open Pub Date : 2024-09-05 DOI:10.1186/s40798-024-00761-1

Tilmann Strepp, Julia C Blumkaitis, Mahdi Sareban, Thomas Leonhard Stöggl, Nils Haller

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Abstract

Background: Various studies have shown that the type of intensity measure affects training intensity distribution (TID) computation. These conclusions arise from studies presenting data from meso- and macrocycles, while microcycles, e.g., high-intensity interval training shock microcycles (HIIT-SM) have been neglected so far. Previous literature has suggested that the time spent in the high-intensity zone, i.e., zone 3 (Z3) or the "red zone", during HIIT may be important to achieve improvements in endurance performance parameters. Therefore, this randomized controlled trial aimed to compare the TID based on running velocity (TID_V), running power (TID_P) and heart rate (TID_HR) during a 7-day HIIT-SM. Twenty-nine endurance-trained participant were allocated to a HIIT-SM consisting of 10 HIIT sessions without (HSM, n = 9) or with (HSM + LIT, n = 9) additional low-intensity training or a control group (n = 11). Moreover, we explored relationships between time spent in Z3 determined by running velocity (Z3_V), running power (Z3_P), heart rate (Z3_HR), oxygen uptake ( $Z 3_{\dot{V} O_{2}}$ ) and changes in endurance performance.

Results: Both intervention groups revealed a polarized pattern for TID_V (HSM: Z1: 38 ± 17, Z2: 16 ± 17, Z3: 46 ± 2%; HSM + LIT: Z1: 59 ± 18, Z2: 14 ± 18, Z3: 27 ± 2%) and TID_P (Z1: 50 ± 8, Z2: 14 ± 11, Z3: 36 ± 7%; Z1: 62 ± 15, Z2: 12 ± 16, Z3: 26 ± 2%), while TID_HR (Z1: 48 ± 13, Z2: 26 ± 11, Z3: 26 ± 7%; Z1: 65 ± 17, Z2: 22 ± 18, Z3: 13 ± 4%) showed a pyramidal pattern. Time in Z3_HR was significantly less compared to Z3_V and Z3_P in both intervention groups (all p < 0.01). There was a time x intensity measure interaction for time in Z3 across the 10 HIIT sessions for HSM + LIT (p < 0.001, _pη² = 0.30). Time in Z3_V and Z3_P within each single HIIT session remained stable over the training period for both intervention groups. Time in Z3_HR declined in HSM from the first (47%) to the last (28%) session, which was more pronounced in HSM + LIT (45% to 16%). A moderate dose-response relationship was found for time in Z3_V and changes in peak power output (r_s = 0.52, p = 0.028) as well as time trial performance (r_s = - 0.47, p = 0.049) with no such associations regarding time in Z3_P, Z3_HR, and $Z 3_{\dot{V} O_{2}}$ .

Conclusion: The present study reveals that the type of intensity measure strongly affects TID computation during a HIIT-SM. As heart rate tends to underestimate the intensity during HIIT-SM, heart rate-based training decisions should be made cautiously. In addition, time in Z3_V was most closely associated with changes in endurance performance. Thus, for evaluating a HIIT-SM, we suggest integrating a comprehensive set of intensity measures. Trial Registration Trial register: Clinicaltrials.gov, registration number: NCT05067426.

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7 天 HIIT 冲击微循环的训练强度分布：红区 "时间对最大化耐力表现至关重要吗？随机对照试验。

背景：多项研究表明，强度测量的类型会影响训练强度分布（TID）的计算。这些结论来自于中周期和大周期数据的研究，而微循环，如高强度间歇训练冲击微循环（HIIT-SM）迄今为止一直被忽视。以往的文献表明，在高强度间歇训练过程中，花费在高强度区（即第 3 区（Z3）或 "红区"）的时间对于改善耐力表现参数可能非常重要。因此，本随机对照试验旨在比较 7 天 HIIT-SM 中基于跑步速度（TIDV）、跑步功率（TIDP）和心率（TIDHR）的 TID。29 名接受过耐力训练的参与者被分配到一个 HIIT-SM 组，其中包括 10 次 HIIT 训练（无 HSM，n = 9）或附加低强度训练（HSM + LIT，n = 9），或一个对照组（n = 11）。此外，我们还探讨了根据跑步速度（Z3V）、跑步功率（Z3P）、心率（Z3HR）、摄氧量（Z 3 V ˙ O 2）确定的 Z3 时间与耐力表现变化之间的关系：两个干预组的 TIDV（HSM：Z1：38 ± 17，Z2：16 ± 17，Z3：46 ± 2%；HSM + LIT：Z1：59 ± 18，Z2：14 ± 18，Z3：27 ± 2%）和 TIDP（Z1：50 ± 8，Z2：Z1：62 ± 15，Z2：12 ± 16，Z3：26 ± 2%），而 TIDHR（Z1：48 ± 13，Z2：26 ± 11，Z3：26 ± 7%；Z1：65 ± 17，Z2：22 ± 18，Z3：13 ± 4%）呈现金字塔型。与 Z3V 和 Z3P 相比，两个干预组的 Z3HR 时间都明显减少（所有 p pη2 = 0.30）。在每个单次 HIIT 训练中，两个干预组的 Z3V 和 Z3P 时间在整个训练期间保持稳定。在 HSM 组中，Z3HR 时间从第一节（47%）下降到最后一节（28%），这在 HSM + LIT 组中更为明显（从 45% 下降到 16%）。研究发现，Z3V 时间与峰值功率输出变化（rs = 0.52，p = 0.028）以及计时赛成绩（rs = - 0.47，p = 0.049）之间存在中度剂量反应关系，而 Z3P、Z3HR 和 Z 3 V ˙ O 2 时间之间则没有这种关系：本研究表明，强度测量的类型对 HIIT-SM 期间 TID 的计算有很大影响。由于心率往往会低估 HIIT-SM 时的强度，因此应谨慎做出基于心率的训练决策。此外，Z3V 时间与耐力表现的变化关系最为密切。因此，在评估 HIIT-SM 时，我们建议整合一套全面的强度测量方法。试验注册试验注册：Clinicaltrials.gov，注册号：NCT05067426：NCT05067426。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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