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炎症应激下肺部气体交换的数学模型。

A mathematical model of pulmonary gas exchange under inflammatory stress.

机构信息

Department of Mathematics, 301 Thackeray, University of Pittsburgh, Pittsburgh, PA 15260, USA.

出版信息

J Theor Biol. 2010 May 21;264(2):161-73. doi: 10.1016/j.jtbi.2010.01.011. Epub 2010 Jan 18.

Abstract

During a severe local or systemic inflammatory response, immune mediators target lung tissue. This process may lead to acute lung injury and impaired diffusion of gas molecules. Although several mathematical models of gas exchange have been described, none simulate acute lung injury following inflammatory stress. In view of recent laboratory and clinical progress in the understanding of the pathophysiology of acute lung injury, such a mathematical model would be useful. We first derived a partial differential equations model of gas exchange on a small physiological unit of the lung ( approximately 25 alveoli), which we refer to as a respiratory unit (RU). We next developed a simple model of the acute inflammatory response and implemented its effects within a RU, creating a single RU model. Linking multiple RUs with various ventilation/perfusion ratios and taking into account pulmonary venous blood remixing yielded our lung-scale model. Using the lung-scale model, we explored the predicted effects of inflammation on ventilation/perfusion distribution and the resulting pulmonary venous partial pressure oxygen level during systemic inflammatory stresses. This model represents a first step towards the development of anatomically faithful models of gas exchange and ventilation under a broad range of local and systemic inflammatory stimuli resulting in acute lung injury, such as infection and mechanical strain of lung tissue.

摘要

在严重的局部或全身炎症反应期间,免疫介质会靶向肺组织。这一过程可能导致急性肺损伤和气体分子扩散受损。尽管已经描述了几种气体交换的数学模型,但没有一种可以模拟炎症应激后的急性肺损伤。鉴于近年来对急性肺损伤病理生理学的实验室和临床进展,这样的数学模型将是有用的。我们首先推导出一个关于肺部小生理单位(约 25 个肺泡)的气体交换偏微分方程模型,我们称之为呼吸单位(RU)。接下来,我们开发了一个简单的急性炎症反应模型,并在 RU 中实现了其效应,创建了一个单一的 RU 模型。通过将多个 RU 与不同的通气/灌注比联系起来,并考虑到肺静脉血液再混合,我们得到了我们的肺尺度模型。使用肺尺度模型,我们探讨了炎症对通气/灌注分布的预测影响,以及全身炎症应激期间肺静脉血氧分压的变化。该模型代表了在广泛的局部和全身炎症刺激导致急性肺损伤(如感染和肺组织机械应变)的情况下,开发气体交换和通气的解剖学忠实模型的第一步。

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