纤维化间质性肺病运动通气量过大的机制和后果。

IF 1.9 4区医学 Q3 PHYSIOLOGY Respiratory Physiology & Neurobiology Pub Date : 2024-03-29 DOI:10.1016/j.resp.2024.104255

Franciele Plachi , Fernanda M. Balzan , Ricardo Gass , Kimberli D. Käfer , Artur Z. Santos , Marcelo B. Gazzana , J.A. Neder , Danilo C. Berton

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引用次数: 0

摘要

研究人员探讨了纤维化间质性肺病（f-ILD）患者运动通气量过大（EEV）的原因和后果。28 名成人 f-ILD 患者和 13 名对照组患者进行了增量心肺运动测试。EEV定义为通气-二氧化碳输出量（⩒E-⩒CO2）斜率≥36L/L。与对照组相比，患者的肺功能和运动能力较低。患者较低的 DLCO 与较高的⩒E-⩒CO2 斜率有关（与无 EEV 的患者相比，患者在运动时 P2 饱和度下降的程度更大。前一组患者在运动时的呼吸频率和 VT/吸气量比值更高（P＜0.05）。

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Mechanisms and consequences of excess exercise ventilation in fibrosing interstitial lung disease

The causes and consequences of excess exercise ventilation (EEV) in patients with fibrosing interstitial lung disease (f-ILD) were explored. Twenty-eight adults with f-ILD and 13 controls performed an incremental cardiopulmonary exercise test. EEV was defined as ventilation-carbon dioxide output (⩒E-⩒CO₂) slope ≥36 L/L. Patients showed lower pulmonary function and exercise capacity compared to controls. Lower DL_CO was related to higher ⩒E-⩒CO₂ slope in patients (P<0.05). 13/28 patients (46.4%) showed EEV, reporting higher dyspnea scores (P=0.033). Patients with EEV showed a higher dead space (VD)/tidal volume (VT) ratio while O₂ saturation dropped to a greater extent during exercise compared to those without EEV. Higher breathing frequency and VT/inspiratory capacity ratio were observed during exercise in the former group (P<0.05). An exaggerated ventilatory response to exercise in patients with f-ILD is associated with a blunted decrease in the wasted ventilation in the physiological dead space and greater hypoxemia, prompting higher inspiratory constraints and breathlessness.

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来源期刊

Respiratory Physiology & Neurobiology 医学-呼吸系统

CiteScore

4.80

自引率

8.70%

发文量

104

审稿时长

54 days

期刊介绍： Respiratory Physiology & Neurobiology (RESPNB) publishes original articles and invited reviews concerning physiology and pathophysiology of respiration in its broadest sense. Although a special focus is on topics in neurobiology, high quality papers in respiratory molecular and cellular biology are also welcome, as are high-quality papers in traditional areas, such as: -Mechanics of breathing- Gas exchange and acid-base balance- Respiration at rest and exercise- Respiration in unusual conditions, like high or low pressure or changes of temperature, low ambient oxygen- Embryonic and adult respiration- Comparative respiratory physiology. Papers on clinical aspects, original methods, as well as theoretical papers are also considered as long as they foster the understanding of respiratory physiology and pathophysiology.