Affiliation:
1. Biomedical Engineering Department, Northwestern University, Evanston 60208, USA.
Abstract
The spreading rate of an exogenous surfactant monolayer due to surface tension gradients is examined by using our previously reported theoretical analysis, with particular attention given to the effects of endogenous surfactant. It is found that the presence of an endogenous surfactant reduces the spreading rate of exogenous surfactant and that, in certain circumstances, the spreading may be halted. A recently published paper (F. F. Espinosa, A. H. Shapiro, J. J. Fredberg, and R. D. Kamm. J. Appl. Physiol. 75: 2028–2039, 1993) reaches the opposite conclusion about the effect of endogenous surfactant, i.e., that the presence of an endogenous surfactant increases the spreading rate of the exogenous surfactant. This communication discusses the relevant issues associated with these different results and what the implications may be for surfactant replacement therapy. It is found that the endogenous surfactant, which is ahead of the advancing exogenous surfactant front, undergoes a concentration increase due to surface area compression of the air-liquid interface. Hence the spreading exogenous surfactant can raise surfactant concentrations in regions distal to its own location, and this is a previously unrecognized potential therapeutic mechanism of instilled surfactants. After initial instillations of intratracheal boluses of exogenous surfactant, additional surfactant may better reach the desired target site if delivered by aerosol. Predictions of surfactant and piggy-backed drug-delivery times through the lung are also discussed.
Publisher
American Physiological Society
Subject
Physiology (medical),Physiology
Cited by
60 articles.
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