通过测量呼吸空气和氦氧混合气时的最大呼气流量来确定哮喘气道阻塞部位。

Site of airway obstruction in asthma as determined by measuring maximal expiratory flow breathing air and a helium-oxygen mixture.

作者信息

Despas P J, Leroux M, Macklem P T

出版信息

J Clin Invest. 1972 Dec;51(12):3235-43. doi: 10.1172/JCI107150.

DOI:10.1172/JCI107150

PMID:4640957

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC333005/

Abstract

Because maximum expiratory flow-volume rates in normal subjects are dependent on gas density, the resistance between alveoli and the point at which dynamic compression begins (R(us)) is mostly due to convective acceleration and turbulence. We measured maximum expiratory flow-volume (MEFV) curves in asthmatics and chronic bronchitics breathing air and He-O(2). In the latter and in some asthmatics, MEFV curves did not change, indicating that R(us) is mostly due to laminar flow. Therefore, the point at which dynamic compression begins must be further upstream than in normal subjects and the site of obstruction must be in small airways. In other asthmatics, flow increased normally indicating obstruction in larger airways. The response to He-O(2) did not correlate with initial values of pulmonary resistance, the initial MEFV curves or the response to bronchodilators. We conclude that the site of airway obstruction varies among asthmatics and that the site of obstruction is not detectable by measurement of the usual parameters of lung mechanics.

摘要

由于正常受试者的最大呼气流量-容积速率取决于气体密度，肺泡与动态压缩开始点之间的阻力（R(us)）主要归因于对流加速和湍流。我们测量了哮喘患者和慢性支气管炎患者在呼吸空气和氦氧混合气时的最大呼气流量-容积（MEFV）曲线。在呼吸氦氧混合气时以及部分哮喘患者中，MEFV曲线未发生变化，这表明R(us)主要归因于层流。因此，动态压缩开始点必定比正常受试者更靠近上游，且阻塞部位必定在小气道。在其他哮喘患者中，流量正常增加，表明大气道存在阻塞。对氦氧混合气的反应与肺阻力初始值、初始MEFV曲线或对支气管扩张剂的反应无关。我们得出结论，哮喘患者的气道阻塞部位各不相同，且通过测量常规肺力学参数无法检测到阻塞部位。

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本文引用的文献

BRONCHIAL PRESSURE MEASUREMENTS IN EMPHYSEMA AND BRONCHITIS.肺气肿和支气管炎患者的支气管压力测量

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J Appl Physiol. 1967 Apr;22(4):707-13. doi: 10.1152/jappl.1967.22.4.707.

Significance of the relationship between lung recoil and maximum expiratory flow.肺回缩与最大呼气流量之间关系的意义

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