Influence of surface chemistry and topography of particles on their immersion into the lung's surface-lining layer

doi:10.1152/japplphysiol.00514.2002

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Influence of surface chemistry and topography of particles on their immersion into the lung's surface-lining layer

Marianne Geiser¹^,^*, Samuel Schürch²^,^*, and Peter Gehr¹

¹ Institute of Anatomy, University of Bern, Bern, Switzerland; and ² Department of Physiology and Biophysics, Faculty of Medicine, The University of Calgary, Calgary, Canada T2N 4N1

Inhaled and deposited spherical particles, 1-6 µm in diameter and of differing surface chemistry and topography, were studiedin hamster intrapulmonary conducting airways and alveoli by electronmicroscopy. Polystyrene and Teflon particles, as well as puffballspores, were found submersed in the aqueous lining layer and adjacentto epithelial cells. The extent of particle immersion promotedby a surfactant film was assessed in a "floating-drop-surfacebalance" by light microscopy. Teflon and polystyrene spheres wereimmersed into the subphase by 50-60% at film surface tensionsof 25 and 30 mJ/m², respectively, and totally submersed at 15 and 25 mJ/m², respectively. Puffball spores were immersed by ~50% at 22 mJ/m² and totally submersed at film surface tensions of $<=$ 15 mJ/m². These results suggest that the surface tension in the intrapulmonaryconducting airways of hamsters may reach $<=$ 15 mJ/m² and that respirable particles (<10 µm in diameter) are wettedand displaced into the surface lining layer, which may facilitateinteractions with many lungcells.

aerosols; macrophages; respiratory tract; inhalation; surfactant

^* M. Geiser and S. Schürch contributed equally to thiswork.

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