A model of the regional uptake of gaseous pollutants in the lung: II. The sensitivity of ozone uptake in laboratory animal lungs to anatomical and ventilatory parameters

Abstract

An O 3 dosimetry model is used to simulate the local absorption of O 3 in the lower respiratory tract of rats and guinea pigs. The model takes into account lower respiratory tract anatomy, transport in the lumen and air spaces, and transport and chemical reactions in the mucous and surfactant layers and in the underlying tissue and capillaries. For each species two anatomical models were used to investigate their influence in predicting absorption. Results with all four anatomical models and various ventilatory parameters showed a qualitative similarity in the shape of the dose versus airway number curves but significant differences in predicted percentage total and percentage pulmonary uptake. The percentage uptake was also sensitive to breathing frequency and tidal volume. Rat lobe models were used to study absorption in lobes and show that O 3 tissue dose in centriacinar regions decreases with increasing distance from the trachea. The effect on results of values used for functional residual capacity and of values used for the chemical rate constants for O 3 reactions in mucous were explored. Results differed quantitatively but not qualitatively.