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Sodium exchange process in lower vertebrates studies by means of {sup 24}Na. Their interpretation as a 'purification' of radioactive water; Les echanges de sodium des vertebres inferieurs etudies a l'aide du {sup 24}Na. Leur interpretation comme une 'epuration' d'eau radioactive

Abstract

Fresh-water fish and amphibians live in an aquatic medium which is very hypotonic with respect to their internal medium. By osmosis the water passes through their permeable teguments (gills, mucous membranes, skin). It is known from the work of Krogh (1937-1939) that this water is eliminated by the kidney, which emits a copious diluted urine. Yet however great the dilution, the urinary excretion results in a loss of salts for the organism. This loss is compensated, even in the absence of any nourishment, by active absorption of ions. Some recent workers have attempted, by using radioactive isotopes, to establish the balance between the input and output flows of ions through the permeable membranes in vivo, whereas chemical analytical methods only allow the net result of these exchanges to be obtained. We have attempted to present here a new method for the simultaneous measurement of the sodium flow takes over the whole animal. This method has been applied to the fresh-water fish Carassius auratus and to the frog Rana esculenta. In the course of this investigation we have considered interpreting it as a 'purification of radioactive water'. (author) [French] Les poissons d'eau douce et les amphibiens vivent dans un milieu aquatique  More>>
Authors:
Maetz, J [1] 
  1. Commissariat a l'Energie Atomique, Saclay (France). Centre d'Etudes Nucleaires
Publication Date:
Jul 01, 1958
Product Type:
Technical Report
Report Number:
CEA-R-1046
Resource Relation:
Other Information: 8 refs
Subject:
60 APPLIED LIFE SCIENCES; ABSORPTION; FISHES; FLOW RATE; FROGS; GILLS; IN VIVO; LABORATORY ANIMALS; MEMBRANE TRANSPORT; METABOLISM; OSMOSIS; PERMEABILITY; RADIONUCLIDE KINETICS; RENAL CLEARANCE; SODIUM 24; SODIUM IONS; TIME DEPENDENCE; TRACER TECHNIQUES
OSTI ID:
20912762
Research Organizations:
CEA Saclay, 91 - Gif-sur-Yvette (France)
Country of Origin:
France
Language:
French
Other Identifying Numbers:
TRN: FR07R1046073938
Availability:
Available from INIS in electronic form
Submitting Site:
FRN
Size:
18 pages
Announcement Date:
Sep 22, 2007

Citation Formats

Maetz, J. Sodium exchange process in lower vertebrates studies by means of {sup 24}Na. Their interpretation as a 'purification' of radioactive water; Les echanges de sodium des vertebres inferieurs etudies a l'aide du {sup 24}Na. Leur interpretation comme une 'epuration' d'eau radioactive. France: N. p., 1958. Web.
Maetz, J. Sodium exchange process in lower vertebrates studies by means of {sup 24}Na. Their interpretation as a 'purification' of radioactive water; Les echanges de sodium des vertebres inferieurs etudies a l'aide du {sup 24}Na. Leur interpretation comme une 'epuration' d'eau radioactive. France.
Maetz, J. 1958. "Sodium exchange process in lower vertebrates studies by means of {sup 24}Na. Their interpretation as a 'purification' of radioactive water; Les echanges de sodium des vertebres inferieurs etudies a l'aide du {sup 24}Na. Leur interpretation comme une 'epuration' d'eau radioactive." France.
@misc{etde_20912762,
title = {Sodium exchange process in lower vertebrates studies by means of {sup 24}Na. Their interpretation as a 'purification' of radioactive water; Les echanges de sodium des vertebres inferieurs etudies a l'aide du {sup 24}Na. Leur interpretation comme une 'epuration' d'eau radioactive}
author = {Maetz, J}
abstractNote = {Fresh-water fish and amphibians live in an aquatic medium which is very hypotonic with respect to their internal medium. By osmosis the water passes through their permeable teguments (gills, mucous membranes, skin). It is known from the work of Krogh (1937-1939) that this water is eliminated by the kidney, which emits a copious diluted urine. Yet however great the dilution, the urinary excretion results in a loss of salts for the organism. This loss is compensated, even in the absence of any nourishment, by active absorption of ions. Some recent workers have attempted, by using radioactive isotopes, to establish the balance between the input and output flows of ions through the permeable membranes in vivo, whereas chemical analytical methods only allow the net result of these exchanges to be obtained. We have attempted to present here a new method for the simultaneous measurement of the sodium flow takes over the whole animal. This method has been applied to the fresh-water fish Carassius auratus and to the frog Rana esculenta. In the course of this investigation we have considered interpreting it as a 'purification of radioactive water'. (author) [French] Les poissons d'eau douce et les amphibiens vivent dans un milieu aquatique tres hypotonique par rapport a leur milieu interieur. Par osmose, l'eau penetre a travers leurs teguments permeables (branchies, muqueuses, peau). On sait depuis les travaux de Krogh (1937-1939) que cette eau est eliminee par le rein qui emet une urine abondante et diluee. Mais si diluee soit-elle, l'excretion uranaire entraine une perte de sels pour l'organisme. Cette perte est compensee, meme en l'absence de toute alimentation, par une absorption active d'ions. Quelques travaux recents ont tente, grace a l'utilisation des isotopes radioactifs, de dresser le bilan des flux d'entree et de sortie des ions a travers les membranes permeables in vivo, alors que les methodes d'analyse chimique permettent seulement de dresser le bilan net de ces echanges. Nous avons voulu presenter ici une methode nouvelle de mesure simultanee des flux de sodium sur l'animal entier. Cette methode a ete appliquee sur le poisson d'eau douce Carassius auratus et sur la grenouille Rana esculenta. Au cours de cette etude, nous avons observe que la faculte d'absorption des ions sodium etait si intense que nous nous sommes propose de l'interpreter comme une 'epuration d'eau radioactive'. (auteur)}
place = {France}
year = {1958}
month = {Jul}
}