Breathing pattern changes in response to bronchoconstriction in physically active adults.

IF 1.7 4区医学 Q3 ALLERGY

Journal of Asthma Pub Date : 2025-01-01 Epub Date: 2024-07-26 DOI:10.1080/02770903.2024.2383632

John W Dickinson, Carol M E Smyth, Samantha L Winter

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引用次数: 0

Abstract

Objectives: To determine whether Opto-Electronic Plethysmography (OEP) can distinguish Exercise-Induced Bronchoconstriction (EIB) breathing patterns by comparing individuals with and without EIB, and between broncho-constriction and recovery. Breathing pattern was quantified in terms of regional contribution, breathing timing, and the phase between chest sub-compartments which indicates the synchronization in movement of the different sub-compartments.

Methods: Individuals (n = 47) reporting no respiratory symptoms and no history of any respiratory disease or disorder were assumed to have a healthy breathing pattern. Of 38 participants reporting respiratory symptoms during exercise, and/or a previous diagnosis of asthma or EIB, 10 participants had a positive result to the Eucapnic Voluntary Hyperpnea test, defined as a fall of at least 10% in FEV₁ from baseline at two consecutive time points and were classified into the EIB group. OEP data was obtained from 89 markers and an 11-camera motion capture system operating at 100 Hz as follows: pre- and post-EVH challenge, and post-inhaler in participants who experienced a bronchoconstriction, and 2) for the healthy group during tidal breathing.

Results: RCpRCa-Phase (upper versus lower ribcage), RCaS-Phase (lower ribcage versus shoulders), and RCpS-Phase (upper ribcage versus shoulders) differed between bronchoconstriction and rest in athletes with EIB and rest in healthy participants (p < 0.05), in all cases indicating greater asynchrony post-bronchoconstriction, and later movement of the abdominal ribcage (RCa) post-bronchoconstriction. RCpS-Phase was different (p < 0.05) between all conditions (rest, post-bronchoconstriction, and post-inhaler) in EIB.

Conclusions: OEP can characterize and distinguish EIB-associated breathing patterns compared to rest and individuals without EIB at rest.

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运动量大的成年人支气管收缩时呼吸模式的变化。

目的通过比较有和没有 EIB 的个体，以及支气管收缩和恢复之间的差异，确定光电胸廓描记术（OEP）是否能区分运动诱发的支气管收缩（EIB）呼吸模式。呼吸模式根据区域贡献、呼吸时间和胸腔亚区之间的相位（表明不同亚区运动的同步性）进行量化：假定无呼吸道症状、无任何呼吸道疾病或紊乱病史的个体（n = 47）具有健康的呼吸模式。在 38 名报告在运动时出现呼吸道症状和/或以前诊断为哮喘或 EIB 的参与者中，有 10 名参与者的 Eucapnic Voluntary Hyperpnea 测试结果呈阳性，即 FEV1 在连续两个时间点从基线下降至少 10%，并被归入 EIB 组。从 89 个标记物和一个运行频率为 100 Hz 的 11 相机运动捕捉系统中获得了 OEP 数据，具体如下：EVH 挑战前和挑战后，以及出现支气管收缩的参与者吸入后；2）健康组潮式呼吸时：RCpRCa-Phase（肋骨上部与肋骨下部）、RCaS-Phase（肋骨下部与肩部）和 RCpS-Phase（肋骨上部与肩部）在 EIB 运动员支气管收缩和休息时与健康参与者休息时有所不同（p p 结论：与静息状态和静息状态下无 EIB 的个体相比，OEP 可描述和区分 EIB 相关的呼吸模式。

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

Journal of Asthma 医学-过敏

CiteScore

4.00

自引率

5.30%

发文量

158

审稿时长

3-8 weeks

期刊介绍： Providing an authoritative open forum on asthma and related conditions, Journal of Asthma publishes clinical research around such topics as asthma management, critical and long-term care, preventative measures, environmental counselling, and patient education.