Inert gas wash-out from tissue: Model analysis

Abstract

Model simulations on variously arranged two-compartment models are performed to provide a basis for interpreting the observed non-monoexponential (or non-linear logarithmic) wash-out time courses of inert gases from tissue. The variables considered are: blood flow, tissue volume, solubility of gas in tissue and blood, and diffusive conductances (diffusing capacities) for tissue/blood gas transfer and for gas transfer between tissue compartments. The wash-out is studied in terms of both mean tissue partial pressure and effluent venous blood partial pressure. Diffusion limitation within a tissue-blood capillary unit is shown to produce logarithmic wash-out rates which increase or decrease during wash-out, depending on the functional structure of the unit. On the other hand, in a system consisting of dissimilar tissue-blood capillary units arranged in parallel, the logarithmic wash-out rate decreases with wash-out time. It is shown that the conventional analysis of nonlinear logarithmic wash-out may overestimate tissue perfusion or the extent of its inhomogeneity.