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特发性间质性肺炎中通过流固耦合对腺泡内气流和肺功能的特征描述。

Characterization of air flow and lung function in the pulmonary acinus by fluid-structure interaction in idiopathic interstitial pneumonias.

机构信息

College of Aerospace Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, Jiangsu, China.

Department of Rheumatology, Affiliated Hospital of Nanjing University of Chinese Medicine, Nanjing, Jiangsu, China.

出版信息

PLoS One. 2019 Mar 28;14(3):e0214441. doi: 10.1371/journal.pone.0214441. eCollection 2019.

DOI:10.1371/journal.pone.0214441

PMID:30921412

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6438611/

Abstract

BACKGROUND AND OBJECTIVE

The idiopathic interstitial pneumonias (IIPs) are diffuse parenchymal lung disorders that are associated with substantial morbidity and mortality. Early diagnosis and disease stratification of IIP patients are important because these are related with the treatment and prognosis. Idiopathic pulmonary fibrosis (IPF) and nonspecific interstitial pneumonia (NSIP) are two major distinctive pathologic patterns of pulmonary fibrosis. We researched the application of the fluid-structure interaction (FSI) to the respiratory system and compared the pulmonary acinus mechanics and functions in healthy and IIP models.

METHODS

The human pulmonary alveolus is idealized by a three-dimensional honeycomb-like geometry, and a fluid-structure interaction analysis is performed to study the normal and diseased breathing mechanics. The computational domain consists of two generations of alveolar ducts within the pulmonary acinus, with alveolar geometries approximated as closely packed 14-sided polygons.

FINDINGS

In a normal breathing cycle, the flow rate of the healthy model is significantly larger than that of the NSIP and IPF models. Similar trends are observed for the volume change and the maximum pressure drop. The flow rate and the volume change of the NSIP are almost the same as those of IPF. The maximum pressure drop of NSIP is 5.5% larger than that of IPF. There is a 47% decrease in the pulmonary acinus compliance for the NSIP and IPF compared with that of the healthy model. The acinus resistances of NSIP and IPF are higher than those of the healthy lung by 6.4~11.2%. In particular, the pulmonary acinus resistance of the NSIP lung is higher than that of the IPF lung by 4.5%.

CONCLUSIONS

Our study demonstrates the differences of air flow and lung function in the pulmonary acinus between the healthy and the IIP models. These changes in the lung are important considerations for early diagnosis and disease stratification in patients. Patient-based geometry can to be included in the computational models in future studies.

摘要

背景与目的

特发性间质性肺炎（IIP）是弥漫性实质肺疾病，与较高的发病率和死亡率相关。IIP 患者的早期诊断和疾病分层很重要，因为这与治疗和预后相关。特发性肺纤维化（IPF）和非特异性间质性肺炎（NSIP）是两种主要的肺纤维化病理模式。我们研究了流固耦合（FSI）在呼吸系统中的应用，并比较了健康和 IIP 模型中的肺腺泡力学和功能。

方法

采用三维蜂窝状几何形状来理想化人体肺肺泡，并进行流固耦合分析以研究正常和患病呼吸力学。计算域由肺腺泡内的两代肺泡管组成，肺泡几何形状近似为紧密堆积的 14 边形。

结果

在正常呼吸周期中，健康模型的流量明显大于 NSIP 和 IPF 模型。体积变化和最大压降也观察到类似的趋势。NSIP 的流量和体积变化几乎与 IPF 相同。NSIP 的最大压降比 IPF 大 5.5%。与健康模型相比，NSIP 和 IPF 的肺腺泡顺应性降低了 47%。NSIP 和 IPF 的腺泡阻力比健康肺高 6.4%~11.2%。特别是，NSIP 肺的肺腺泡阻力比 IPF 肺高 4.5%。

结论

我们的研究表明了健康和 IIP 模型之间肺腺泡内气流和肺功能的差异。这些肺部变化对于患者的早期诊断和疾病分层非常重要。未来的研究可以考虑将基于患者的几何形状纳入计算模型中。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ddac/6438611/30643941c208/pone.0214441.g001.jpg

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特发性间质性肺炎中通过流固耦合对腺泡内气流和肺功能的特征描述。

Characterization of air flow and lung function in the pulmonary acinus by fluid-structure interaction in idiopathic interstitial pneumonias.

机构信息

出版信息

BACKGROUND AND OBJECTIVE

METHODS

FINDINGS

CONCLUSIONS

背景与目的

方法

结果

结论

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