在阻塞性和限制性肺病小鼠模型中进行的用力呼气测量。

Forced expiration measurements in mouse models of obstructive and restrictive lung diseases.

作者信息

Devos Fien C, Maaske André, Robichaud Annette, Pollaris Lore, Seys Sven, Lopez Carolina Aznar, Verbeken Erik, Tenbusch Matthias, Lories Rik, Nemery Benoit, Hoet Peter Hm, Vanoirbeek Jeroen Aj

机构信息

Center for Environment and Health, KU Leuven, Leuven, Belgium.

Molecular and Medical Virology, Ruhr-University, Bochum, Germany.

出版信息

Respir Res. 2017 Jun 19;18(1):123. doi: 10.1186/s12931-017-0610-1.

DOI:10.1186/s12931-017-0610-1

PMID:28629359

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5477381/

Abstract

BACKGROUND

Pulmonary function measurements are important when studying respiratory disease models. Both resistance and compliance have been used to assess lung function in mice. Yet, it is not always clear how these parameters relate to forced expiration (FE)-related parameters, most commonly used in humans. We aimed to characterize FE measurements in four well-established mouse models of lung diseases.

METHOD

Detailed respiratory mechanics and FE measurements were assessed concurrently in Balb/c mice, using the forced oscillation and negative pressure-driven forced expiration techniques, respectively. Measurements were performed at baseline and following increasing methacholine challenges in control Balb/c mice as well as in four disease models: bleomycin-induced fibrosis, elastase-induced emphysema, LPS-induced acute lung injury and house dust mite-induced asthma.

RESULTS

Respiratory mechanics parameters (airway resistance, tissue damping and tissue elastance) confirmed disease-specific phenotypes either at baseline or following methacholine challenge. Similarly, lung function defects could be detected in each disease model by at least one FE-related parameter (FEV, FEF, FVC, FEV/FVC ratio and PEF) at baseline or during the methacholine provocation assay.

CONCLUSIONS

FE-derived outcomes in four mouse disease models behaved similarly to changes found in human spirometry. Routine combined lung function assessments could increase the translational utility of mouse models.

摘要

背景

在研究呼吸系统疾病模型时，肺功能测量非常重要。阻力和顺应性都已被用于评估小鼠的肺功能。然而，这些参数与人类最常用的用力呼气（FE）相关参数之间的关系并不总是很清楚。我们旨在描述四种成熟的小鼠肺部疾病模型中的FE测量情况。

方法

分别使用强迫振荡技术和负压驱动的强迫呼气技术，同时在Balb/c小鼠中评估详细的呼吸力学和FE测量。在对照Balb/c小鼠以及四种疾病模型（博来霉素诱导的纤维化、弹性蛋白酶诱导的肺气肿、脂多糖诱导的急性肺损伤和屋尘螨诱导的哮喘）中，于基线时以及递增乙酰甲胆碱激发后进行测量。

结果

呼吸力学参数（气道阻力、组织阻尼和组织弹性）在基线时或乙酰甲胆碱激发后证实了疾病特异性表型。同样，在每个疾病模型中，在基线时或乙酰甲胆碱激发试验期间，至少可以通过一个与FE相关的参数（FEV、FEF、FVC、FEV/FVC比值和PEF）检测到肺功能缺陷。

结论

四种小鼠疾病模型中源自FE的结果与人类肺活量测定中发现的变化表现相似。常规的联合肺功能评估可以提高小鼠模型的转化效用。

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在阻塞性和限制性肺病小鼠模型中进行的用力呼气测量。

Forced expiration measurements in mouse models of obstructive and restrictive lung diseases.

作者信息

机构信息

出版信息

BACKGROUND

METHOD

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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