Detrended fluctuation analysis to determine physiologic thresholds, investigation and evidence from incremental cycling test.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-09-28 DOI:10.1007/s00421-024-05614-z

Johan Cassirame, Esther Eustache, Lucas Garbellotto, Simon Chevrolat, Philippe Gimenez, Pierre-Marie Leprêtre

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Abstract

Purpose: Training zones are generally assessed by gas-exchange thresholds (GET). Several mathematical analyses of heart rate variability (HRV) are proposed for indirect GET determination. Our study aimed to investigate the accordance of the detrend fluctuation analysis (DFA α1) for determining GET with first (VT1) and second ventilatory (VT2) thresholds in well-trained subjects.

Methods: Eighteen female and 38 male sub-elite cyclists performed a maximal incremental cycling test of 2-min stage duration with continuous gas exchange and HR measurements. Power output (PO), Oxygen uptake ( $\dot{V}$ O₂) and HR at VT1 and VT2 were compared with DFA α1 0.75 (HRVT1) and 0.50 (HRVT2). Agreements between PO, $\dot{V}$ O₂ and HR values were analyzed using Bland-Altman analysis.

Results: Large limits of agreement between VT1 and HRVT1 were observed for measures of $\dot{V}$ O₂ expressed in mL.min^-1.kg^-1 [- 21.3; + 14.1], HR [ 39.2; + 26.9] bpm and PO [- 118; + 83] watts. Indeed, agreements were also low between VT2 and HRVT2 for measures of $\dot{V}$ O₂ [- 26.7; + 4.3] mL.min^-1.kg^-1, HR [- 45.5; + 10.6] bpm and PO [- 157; + 35] watts. Our results also showed a sex effect: women obtained worst predictions based on DFA α1 than men for HR (p = 0.014), PO (p = 0.044) at VT1 and ${\dot{V} O}_{2}$ (p = 0.045), HR (p = 0.003) and PO (p = 0.004) at VT2.

Conclusion: There was unsatisfactory agreement between the GET and DFA α1 methods for VT1 and VT2 determination in both sex well-trained cyclists. Trial registration number 2233534 on 2024/03/05 retrospectively registered.

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通过去趋势波动分析来确定生理阈值，从增量循环测试中进行调查和取证。

目的：训练区一般通过气体交换阈值（GET）来评估。有几种心率变异性（HRV）数学分析方法可用于间接确定 GET。我们的研究旨在调查去趋势波动分析法（DFA α1）与第一（VT1）和第二换气（VT2）阈值的一致性，以确定训练有素的受试者的 GET：18 名女性和 38 名男性亚精英自行车运动员进行了持续 2 分钟的最大增量自行车测试，并进行了连续气体交换和心率测量。输出功率（PO）、摄氧量（V ˙ O2）和 VT1 和 VT2 时的心率与 DFA α1 0.75（HRVT1）和 0.50（HRVT2）进行了比较。使用 Bland-Altman 分析法分析了 PO、V˙ O2 和 HR 值之间的一致性：以 mL.min-1.kg-1 表示的 V ˙ O2 [- 21.3; + 14.1]、HR [ 39.2; + 26.9] bpm 和 PO [- 118; + 83] 瓦特的测量值在 VT1 和 HRVT1 之间存在较大的一致性限制。事实上，VT2 和 HRVT2 在测量 V ˙ O2 [- 26.7; + 4.3] mL.min-1.kg-1、HR [- 45.5; + 10.6] bpm 和 PO [- 157; + 35] 瓦特方面的一致性也很低。我们的结果还显示了性别效应：在 VT1 的心率（p = 0.014）和 PO（p = 0.044）以及 V ˙ O 2（p = 0.045）、VT2 的心率（p = 0.003）和 PO（p = 0.004）方面，基于 DFA α1 的女性预测结果比男性差：结论：对于训练有素的男女自行车运动员，GET 和 DFA α1 方法在测定 VT1 和 VT2 时的一致性并不令人满意。试验注册号 2233534，2024/03/05，回顾性注册。

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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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464