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Literature DB >> 4714447

Concentrating engines and the kidney. II. Multisolute central core systems.

Abstract

The analysis of the central core model of the renal medulla is extended to multisolute systems. It is shown that total solute concentration obeys the same differential equations for core and ascending limb as in a single solute system. Equations are derived for the concentration of individual solutes. Application of these equations to a two solute system shows that a central core system can concentrate with all transport being down a concentration gradient. This analysis applied to the renal medulla shows that mixing of urea from the collecting duct (CD) and salt from the loop of Henle in the central core of the inner medulla contributes to the concentration of urine during antidiuresis. It also sets criteria for completely passive function of the loop in the inner medulla, but whether these are satisfied cannot be determined from present experimental data.

Entities: Chemical

Mesh：

Substances：
Urea

Year: 1973 PMID： 4714447 PMCID： PMC1484281 DOI： 10.1016/S0006-3495(73)86006-0

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

18 in total

1. ORIGIN OF SODIUM CONCENTRATION PROFILE IN THE RENAL MEDULLA.

Authors: G G PINTER; J L SHOHET
Journal: Nature Date: 1963-12-07 Impact factor: 49.962

2. ANALYSIS OF ELECTROLYTE MOVEMENT IN THIN HENLE'S LOOPS OF HAMSTER PAPILLA.

Authors: D J MARSH; S SOLOMON
Journal: Am J Physiol Date: 1965-06

3. Micropuncture study of the mammalian urinary concentrating mechanism: evidence for the countercurrent hypothesis.

Authors: C W GOTTSCHALK; M MYLLE
Journal: Am J Physiol Date: 1959-04

4. [Osmotic pressure in cortical tubules in rat kidney].

Authors: H WIRZ
Journal: Helv Physiol Pharmacol Acta Date: 1956

5. Dilution and concentration of the urine and the action of antidiuretic hormone.

Authors: R W BERLINER; N G LEVINSKY; D G DAVIDSON; M EDEN
Journal: Am J Med Date: 1958-05 Impact factor: 4.965

6. [Studies on the problem of urine concentration and dilution; distribution of electrolytes (sodium, potassium, calcium, magnesium, anorganic phosphate), urea amino acids and exogenous creatinine in the cortex and medulla of dog kidney in various diuretic conditions].

Authors: K H JARAUSCH; K J ULLRICH
Journal: Pflugers Arch Gesamte Physiol Menschen Tiere Date: 1956

7. Permeability of the loop of Henle, vasa recta, and collecting duct to water, urea, and sodium.

Authors: T Morgan; R W Berliner
Journal: Am J Physiol Date: 1968-07

8. A study on the concentration mechanism of the renal medulla by mathematical model.

Authors: F Marumo; Y Yoshikawa; S Koshikawa
Journal: Jpn Circ J Date: 1967-09

9. Concentration in renal counterflow systems.

Authors: J L Stephenson
Journal: Biophys J Date: 1966-09 Impact factor: 4.033

10. Ability of counterflow systems to concentrate.

Authors: J L Stephenson
Journal: Nature Date: 1965-06-19 Impact factor: 49.962

12 in total

1. Model of solute and water movement in the kidney.

Authors: J L Stephenson; R Mejia; R P Tewarson
Journal: Proc Natl Acad Sci U S A Date: 1976-01 Impact factor: 11.205

2. Mathematical model of renal regulation of urea excretion.

Authors: M A Knepper; G M Saidel; P J Palatt
Journal: Med Biol Eng Date: 1976-07

3. Concentrating engines and the kidney. III. Canonical mass balance equation for multinephron models of the renal medulla.

Authors: J L Stephenson
Journal: Biophys J Date: 1976-11 Impact factor: 4.033

10. The clinical physiology of water metabolism. Part II: Renal mechanisms for urinary concentration; diabetes insipidus.

Authors: R E Weitzman; C R Kleeman
Journal: West J Med Date: 1979-12