Solute concentration in the kidney. I: A model of the renal medulla and its limit cases
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Publication:1230746
DOI10.1016/0025-5564(76)90119-XzbMath0338.92009MaRDI QIDQ1230746
Eugene Daniels, John A. Jacquez, David M. Foster
Publication date: 1976
Published in: Mathematical Biosciences (Search for Journal in Brave)
Related Items
Existence and uniqueness of solutions to a mathematical model of the urine concentrating mechanism, On the metabolic pump in the renal medulla, The central core model of the renal medulla: A particular solution, Performance of one- and two-dimensional models for a slow flow system in a long, permeable tubule, Renal concentrating mechanism: Central core and vasa recta models, Solute concentration in the kidney. II: Input-output studies on a central core model, Use of physiological connectivity in solving renal concentrating mechanism equations, On a simplified model of the renal medulla, A comparison of multinephron and shunt models of the renal concentrating mechanism, Solution of a multinephron, multisolute model of the mammalian kidney by Newton and continuation methods, A complete steady state model of solute and water transport in the kidney
Cites Work
- An analysis of countercurrent exchange with emphasis on renal function
- Quantitative Analysis of Mass and Energy Balance in Non-Ideal Models of the Renal Counterflow System
- Nonmonotonicity of Solutions of Linear Differential Equations Occurring in the Theory of Urine Formation
- Laminar Flow in Channels with Porous Walls
