Defective exercise-related expiratory muscle recruitment in patients with PHOX2B mutations: A clue to neural determinants of the congenital central hypoventilation syndrome.

IF 10.4 2区 医学 Q1 RESPIRATORY SYSTEM
Pulmonology Pub Date : 2025-12-31 Epub Date: 2024-10-24 DOI:10.1016/j.pulmoe.2024.01.005
P Laveneziana, Q Fossé, M Bret, M Patout, B Dudoignon, C Llontop, C Morélot-Panzini, F Cayetanot, L Bodineau, C Straus, T Similowski
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Abstract

Introduction and objectives: The human congenital central hypoventilation syndrome (CCHS) is caused by mutations in the PHOX2B (paired-like homeobox 2B) gene. Genetically engineered PHOX2B rodents exhibit defective development of the brainstem retrotrapezoid nucleus (RTN), a carbon dioxide sensitive structure that critically controls expiratory muscle recruitment. This has been linked to a blunted exercise ventilatory response. Whether this can be extrapolated to human CCHS is unknown and represents the objective of this study.

Materials and methods: Thirteen adult CCHS patients and 13 healthy participants performed an incremental symptom-limited cycle cardiopulmonary exercise test. Responses were analyzed using guideline approaches (ventilation V'E, tidal volume VT, breathing frequency, oxygen consumption, carbon dioxide production) complemented by a breathing pattern analysis (i.e. expiratory and inspiratory reserve volume, ERV and IRV).

Results: A ventilatory response occurred in both study groups, as follows: V'E and VT increased in CCHS patients until 40 W and then decreased, which was not observed in the healthy participants (p<0.001). In the latter, exercise-related ERV and IRV decreases attested to concomitant expiratory and inspiratory recruitment. In the CCHS patients, inspiratory recruitment occurred but there was no evidence of expiratory recruitment (absence of any ERV decrease, p<0.001).

Conclusions: Assuming a similar organization of respiratory rhythmogenesis in humans and rodents, the lack of exercise-related expiratory recruitment observed in our CCHS patients is compatible with a PHOX2B-related defect of a neural structure that would be analogous to the rodents' RTN. Provided corroboration, ERV recruitment could serve as a physiological outcome in studies aiming at correcting breathing control in CCHS.

PHOX2B 基因突变患者与运动相关的呼气肌肉募集缺陷:先天性中枢通气不足综合征神经决定因素的线索。
导言和目的:人类先天性中枢通气不足综合征(CCHS)是由 PHOX2B(成对类同源染色体 2B)基因突变引起的。经基因工程改造的 PHOX2B 啮齿类表现出脑干后扁桃体核(RTN)的发育缺陷,RTN 是一种对二氧化碳敏感的结构,对呼气肌肉的募集起着关键性的控制作用。这与运动通气反应迟钝有关。本研究的目的是了解这一现象是否可用于人类 CCHS:13 名成年 CCHS 患者和 13 名健康参与者进行了增量症状限制循环心肺运动测试。采用指南方法(通气量 V'E、潮气量 VT、呼吸频率、耗氧量、二氧化碳产生量)分析反应,并辅以呼吸模式分析(即呼气和吸气储备量、ERV 和 IRV):两个研究组都出现了通气反应,具体情况如下:结果:两组研究人员都出现了通气反应,具体情况如下:CCHS 患者的 V'E 和 VT 在 40 W 前增加,然后减少,而健康参与者则没有出现这种情况(p 结论:假设呼吸起搏的组织结构相似,则 CCHS 患者的 V'E 和 VT 在 40 W 前增加,然后减少:假设人类和啮齿类动物的呼吸节律发生组织相似,那么在我们的 CCHS 患者身上观察到的与运动相关的呼气招募缺失与 PHOX2B 相关的神经结构缺失相符,该神经结构类似于啮齿类动物的 RTN。如果能得到证实,ERV吸入可作为旨在纠正CCHS患者呼吸控制的研究中的一项生理结果。
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来源期刊
Pulmonology
Pulmonology Medicine-Pulmonary and Respiratory Medicine
CiteScore
14.30
自引率
5.10%
发文量
159
审稿时长
19 days
期刊介绍: Pulmonology (previously Revista Portuguesa de Pneumologia) is the official journal of the Portuguese Society of Pulmonology (Sociedade Portuguesa de Pneumologia/SPP). The journal publishes 6 issues per year and focuses on respiratory system diseases in adults and clinical research. It accepts various types of articles including peer-reviewed original articles, review articles, editorials, and opinion articles. The journal is published in English and is freely accessible through its website, as well as Medline and other databases. It is indexed in Science Citation Index Expanded, Journal of Citation Reports, Index Medicus/MEDLINE, Scopus, and EMBASE/Excerpta Medica.
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