Surface pressure hysteresis of mixed lipid/protein monolayers: applications to the alveolar dynamics.

R Mutafchieva, I Panaiotov, D S Dimitrov
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引用次数: 4

Abstract

Experimental data on surface pressure-surface area hysteresis of mixed serum albumin/dipalmitoyl lecithin/sphingomyelin monolayers in the Langmuir trough are presented. Several possible physicochemical mechanisms of the hysteresis are discussed: Marangoni effect, surface pressure relaxations, bulk-to-surface diffusion interchange, and collapse. Depending on the concrete conditions each of these mechanisms can be important. Possible applications of these results to the alveolar dynamics are presented and discussed on the basis of the balloon model of the alveolus. The main conclusions of biological importance are that 1) the alveolar stability depends on the DPL/SM ratio as well as on the protein content. Under normal breathing conditions the surface pressure hysteresis is small and does not play a decisive role in the alveolar dynamics. 2) At large extent of compression the collapse predominates in determining the hysteretic behavior of the alveolar surface.

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混合脂质/蛋白单层的表面压力滞后:在肺泡动力学中的应用。
本文报道了Langmuir槽中混合血清白蛋白/双棕榈酰卵磷脂/鞘磷脂单分子膜的表面压力-表面积滞后性的实验数据。讨论了迟滞的几种可能的物理化学机制:马兰戈尼效应、表面压力松弛、体-表面扩散交换和坍塌。根据具体情况,这些机制中的每一种都可能很重要。在肺泡球囊模型的基础上,提出并讨论了这些结果在肺泡动力学中的可能应用。主要的生物学意义结论是:1)肺泡稳定性与DPL/SM比值及蛋白含量有关。在正常呼吸条件下,体表压力滞回很小,在肺泡动力学中不起决定性作用。2)在很大程度的压缩下,塌陷在决定肺泡表面的滞后行为方面占主导地位。
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