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Research Article Free access | 10.1172/JCI106520
Department of Internal Medicine, The University of Texas (Southwestern) Medical School, and Veterans Administration Hospital, Dallas, Texas 75235
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Department of Internal Medicine, The University of Texas (Southwestern) Medical School, and Veterans Administration Hospital, Dallas, Texas 75235
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Department of Internal Medicine, The University of Texas (Southwestern) Medical School, and Veterans Administration Hospital, Dallas, Texas 75235
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Department of Internal Medicine, The University of Texas (Southwestern) Medical School, and Veterans Administration Hospital, Dallas, Texas 75235
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Published March 1, 1971 - More info
The effect of acute extracellular volume expansion with saline on the intrarenal distribution of glomerular filtrate, was studied in dogs utilizing micropuncture techniques in which samples were obtained by both recollection and from new tubules.
Recollection was examined in seven dogs during continuous hydropenia and in five dogs during continuous saline diuresis. Recollection was associated with an increase in nephron flow rate of 8% during hydropenia and 27% during saline diuresis. In addition, during continuous saline diuresis, shortened transit times and lowered intratubular pressures were recorded in previously punctured tubules. Despite increased tubular flow, fractional reabsorption was unchanged.
Nephron glomerular filtration rates (gfr) were measured during hydropenia and then after acute volume expansion in 10 dogs. In the repunctured tubules gfr rose 38% more than total glomerular filtration rate (GFR). In contrast, when new tubules were punctured during volume expansion, nephron gfr and total GFR changed proportionately. The disproportionate rise in nephron gfr after volume expansion noted with the recollection technique appears to be artifactual when contrasted to micropuncture of new tubules. With acute volume expansion, fractional reabsorption decreased 15% in recollected samples and 16% in newly sampled tubules. Increased nephron gfr cannot account for the fall in fractional reabsorption. It is concluded that in dogs, saline diuresis is not associated with redistribution of filtrate from deep to superficial nephrons, and that the fall in proximal fractional reabsorption is caused by diminished absolute reabsorption.