Abstract
Sangren and Sheppard developed a mathematical model for first-order processes taking place in the regional circulation, applicable—for example—to tracer studies of potassium transport. It permits calculation of specific activity at any point along a “tube of flow” or in the cuff of tissue surrounding it as a function of time following a spike injection of tracer. In efforts to relate to the exchange a rate curves obtained within vivo counters pointed at the region of interest, we developed a compartment-system model of the process. In investigating the properties of the Sangren and Sheppard model integrated over an entire circulatory bed, as thein vivo counter would see it, we found that when the distribution of transit times of the “tubes of flow” can be approximated by an exponential sum, the solution reduces to that of the compartment system model. This results in an important simplification in the calculation, and insight into the assumptions underlying the two different models. A curve-fitting computer program for the compartment model has been written and applied to double-isotope studies of potassium transport in the hind leg of the dog.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature
Carslaw, H. S. and J. C. Jaeger. 1959.Conduction of Heat in Solids, 2nd Ed. Oxford, Clarendon. pp. 391–394.
Churchill, R. V. 1958.Operational Mathematics, 2nd Ed. New York, McGraw-Hill, N.Y.
Dobson, E. L. and G. F. Warner. 1957. “Measurement of Regional Sodium Turnover Rates and Their Application to the Estimation of Regional Blood Flow.”Am. J. Physiol., 189–276.
— and —. 1969. “Clearance Rates Following Intra-Arterial Injections in the Study of Peripheral Vascular Beds”. InMethods in Medical Research, Vol. 8, ed. H. D. Bruner. Chicago, Year Book Publishers.
Hippensteele, J. R. 1967. “Tracer Kinetic Studies of the Dynamics of the Microcirculation in Peripheral Vascular Beds” (Ph.D. thesis). Lawrence Radiation Laboratory Report UCRL-17774, Aug. 1967. University of California, Berkeley, California.
—, H. G. Parker, E. L. Dobson and J. J. Lynch. 1969. “Potassium Exchange from the Sodium Space in the Dog’s Leg.”Fed. Proc.,28, 824—(abstract).
Sangren, W. C. and C. W. Sheppard. 1953. “A Mathematical Derivation of the Exchange of a Labelled Substance between a Liquid Flowing in a Vessel and an External Compartment”.Bull. Math. Biophys.,15, 387–394.
Sheppard, C. W. 1962.Basic Principles of the Tracer Method. New York, Wiley.
Zierler, K. L. 1962. “Circulation Times and the Theory of Indicator-Dilution Methods for Determining Blood Flow and Volume.”Handbook of Physiology, Sec. 2; Circulation, Vol. 1, Chapt. 18, p. 585, American Physiological Society.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Parker, H.G., Dobson, E.L. & Hippensteele, J.R. Mathematical models for exchange of substances in regional vascular beds— Measurement of the rates within vivo counters. Bulletin of Mathematical Biophysics 34, 503–520 (1972). https://doi.org/10.1007/BF02476711
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF02476711