Disturbance of alveolar lining layer: effects on alveolar microstructure

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J Appl Physiol 76: 1983-1992, 1994;
8750-7587/94 $5.00

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Disturbance of alveolar lining layer: effects on alveolar microstructure

H. Bachofen, S. Schurch and F. Possmayer
Department of Anatomy, University of Berne, Switzerland.

To further study the influence of altered surface tensions on alveolar micromechanics, we analyzed the structure-function relationships in excised rabbit lungs filled with or rinsed by a fluorocarbon (approximately 15 mN/m) or by hexadecane (approximately 25 mN/m). The lungs were fixed and dehydrated by vascular perfusion, and the tissue samples were analyzed by light, transmission, and scanning electron microscopy. We made three observations. 1) Pressure-volume (P-V) loops hexadecane-filled lungs are shifted to the left and coincide with those of saline-filled lungs, indicating near-zero interfacial tension. In accordance, the alveolar microstructure and surface area of hexadecane-filled lungs resemble those of saline-filled lungs. 2) The P-V loops of fluorocarbon-filled lungs are not shifted to the left but coincide with those of fluorocarbon-rinsed lungs. Under both conditions, the alveolar microstructure is qualitatively identical and the alveolar surface areas are markedly reduced compared with normal air-filled lungs. These findings show that fluorocarbon-filled or fluorocarbon-rinsed lungs are subjected to similar interfacial tensions at the alveolar level. 3) Hexadecane-rinsed lungs show a pear-shaped P-V curve and a complex surface texture of peripheral air spaces. These results, together with in vitro observations, suggest a metamorphic interplay between lung surfactant and hexadecane in lining the surface and determining the surface tension. Evidently, the effects of foreign liquids introduced into the lung on the structure-function relationship cannot accurately be predicted from their in vitro surface tensions. This fact should be considered in the development of artificial surfactants.

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