上气道可塌陷性改变的结构基础。

Structural basis for alterations in upper airway collapsibility.

作者信息

Schwartz A R, Rowley J A, Thut D C, Permutt S, Smith P L

机构信息

Johns Hopkins University Sleep Disorders Center, Division of Pulmonary and Critical Care Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21224, USA.

出版信息

Sleep. 1996 Dec;19(10 Suppl):S184-8. doi: 10.1093/sleep/19.suppl_10.184.

DOI:10.1093/sleep/19.suppl_10.184

PMID:9085506

Abstract

To determine the structural basis for alterations in upper airway (UA) collapsibility, the pharyngeal critical pressure (Pcrit) was measured in an isolated feline upper airway preparation. The effect of airway elongation and dilation was explored by displacing the trachea caudally and the tongue anteriorly, respectively. With caudal-tracheal displacement, Pcrit fell progressively, a result that can be attributed to increased tension within the pharyngeal mucosa. In contrast, anterior-tongue displacement decreased Pcrit when the trachea had been caudally displaced but not with the trachea in the neutral position. These findings suggest that longitudinal tension within the airway mucosa modulates both Pcrit and the response in Pcrit to dilating forces. A mechanical model to account for these findings is discussed.

摘要

为确定上气道（UA）可塌陷性改变的结构基础，在一个分离的猫科动物上气道标本中测量了咽部临界压力（Pcrit）。分别通过将气管向尾侧移位和将舌头向前移位来探究气道延长和扩张的影响。随着气管向尾侧移位，Pcrit逐渐下降，这一结果可归因于咽部黏膜内张力增加。相比之下，当气管已向尾侧移位时，向前舌移位会降低Pcrit，但气管处于中立位置时则不会。这些发现表明，气道黏膜内的纵向张力调节Pcrit以及Pcrit对扩张力的反应。讨论了一个解释这些发现的力学模型。

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上气道可塌陷性改变的结构基础。

Structural basis for alterations in upper airway collapsibility.

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