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Renal clearances of14C-inulin and polyfructosan in the rat (1977)

Edwards, Brian R. ; Stern, Paul

Springer

Pflügers Archiv 369 (1977), S. 281-283

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ISSN: 1432-2013

Keywords: inulin clearance ; polyfructosan clearance ; glomerular filtration rate ; increased ureteral pressure

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Polyfructosan has been used as a substitute for inulin in GFR determinations. However, the validity of this substitution in conditions where renal tubular permeability to other substances, such as mannitol, sucrose and iothalamate, is increased has not been tested. Experiments were performed on 8 rats to compare the clearances of polyfructosan (CPF) and14C-inulin (CIN) during hydropenia, 3% BW saline expansion, elevation of one ureteral catheter by 30 cm, and following return of increased ureteral pressure to the control level. No significant difference between CPF and CIN could be detected except in the kidney subjected to increased ureteral pressure. However, the magnitude of this difference — which may relate to the different molecular weights of the two compounds — was so small that we conclude that the use of CPF, as an index of GFR, is no less reliable than CIN under the conditions tested.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00582196

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Macroscopic thermodynamics of flowing polymeric liquids (1999)

Dressler, Marco ; Edwards, Brian J. ; Öttinger, Hans Christian

Springer

Rheologica acta 38 (1999), S. 117-136

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ISSN: 1435-1528

Keywords: Key words Non-isothermal flows ; Polymeric liquids ; Thermodynamics ; Non-Newtonian fluids

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Physics

Notes: Abstract The thermodynamics and mechanics of non-isothermal polymeric fluids are examined within the auspices of a new methodology wherein the laws of physics and principles of mechanics which are applicable to these thermodynamic systems are imbedded in a definite mathematical structure of a general, abstract equation. Such a concept allows new insight to be obtained concerning some aspects of non-isothermal flows of polymeric fluids, and permits a consistent expression and interpretation of other thermodynamic theories for these systems which have been developed over the past forty years. A major portion of this article is devoted to demonstrating the above statements, and in so doing some common misconceptions occurring in a significant fraction of the literature regarding this subject are exposed. The definite mathematical structure of the new methodology permits the thermodynamically consistent generalization of isothermal, incompressible models of polymeric fluids to non-isothermal, compressible conditions. Doing thus reproduces, corrects, and extends non-isothermal models which have been developed over the years, and also allows for simpler (but equivalent) representations of these models in terms of alternate variables with a clearer connection to the microstructure of the material than the stress tensor and heat flux vector fields. Furthermore, a generalization of the GENERIC structure is proposed that accommodates interactions between phenomena of differing parities, which impose antisymmetry upon the corresponding elements of the dissipative operator matrix.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s003970050162

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