Abstract
If a plane membrane consists of patches, each with a given area and a given diffusion coefficient, then the transient of the total unidirectional flux of a diffusing substance (as defined experimentally by Ussing) is predictable. Here the inverse problem is studied: given only the observed transient of the total unidirectional diffusion flux, the unknown membrane heterogeneity transverse to the flux is to be quantified. The ratio of the arithmetic and of the harmonic means (both area-weighted) of the diffusion coefficients, evaluated over the membrane, is expressed in terms of the observed transient alone and is used to characterize the heterogeneity. A unique exact solution of the inverse problem for two kinds of patches is obtained in closed form. A singular limit of this solution pertains to currently postulated models of endothelial membranes, for which a characteristically shaped transient is predicted.
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Literature
Bass, L. and A. J. Bracken. 1983. “The Flux Ratio Equation Under Nonstationary Boundary Conditions.”Math. Biosci. 66, 87–92.
— and D. S. McAnally. 1984. “The Ratio of Nonstationary Fluxes Into and Out of a Hollow Circular Cylinder.”J. Membrane Biol. 81, 263.
Carslaw, H. S. and J. C. Jaeger. 1959.Conduction of Heat in Solids (2nd edn), pp. 99–101. Oxford: Clarendon Press.
Crone, C. 1980. “The Zweifach International Award 1979: Ariadne's Thread—an Autobiographical Essay on Capillary Permeability.”Microvasc. Res. 20, 133–149.
— and D. G. Levitt. 1984. “Capillary Permeability to Small Solutes.” InHandbook of Physiology—the Cardiovascular System IV, pp. 411–466. Bethesda: American Physiological Society.
Knopp, K. 1951.Theory and Applications of Infinite Series (2nd edn), pp. 238–40. London: Blackie.
Sten-Knudsen, O. and H. H. Ussing. 1981. “The Flux Ratio Equation Under Nonstationary Conditions.”J. Membrane Biol. 63, 233–242.
Ussing, H. H. 1978. “Intepretation of Tracer Fluxes.” InMembrane Transport in Biology, Eds G. Giebisch, D. C. Tosteson and H. H. Ussing, Vol. 1, pp. 115–140. New York: Springer.
—, Eskesen, K. and J. Lim 1981. “The Flux-ratio Transient as a Tool for Separating Transport Paths.” InEpithelial Ion and Water Transport, Eds A. D. C. Mackintosh and J. P. Leader, pp. 257–264. New York: Raven Press.
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Bass, L. The unidirectional flux transient as a tool for quantifying parallel diffusional pathways through membranes. Exact solution for two pathways. Bltn Mathcal Biology 47, 425–434 (1985). https://doi.org/10.1007/BF02459924
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DOI: https://doi.org/10.1007/BF02459924