An Explanation for and Experimental Correction of the Abnormal Water Diuresis in Cirrhosis *

Schedl, Harold P.; Bartter, Frederic C.

doi:10.1172/jci104035

Cited by 158 publications

(46 citation statements)

References 19 publications

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“…Although the mechanism of the abnormal renal function was not clear, this animal model was shown to bear several close similarities to human pathophysiology observed in patients with liver disease. Thus, patients with cirrhosis of the liver may demonstrate enhanced renal reabsorption of sodium, delayed excretion of a water Received for publication 16 October 1974 and in revised form 30 December 1974. load, ascites, edema, and impaired urinary concentrating ability (4)(5)(6)(7)(8). Similar abnormalities were demonstrated in clearance studies in dogs with common bile duct ligation (3).…”

supporting

confidence: 61%

A micropuncture study of renal salt and water retention in chronic bile duct obstruction.

Bank¹,

Aynedjian²

1975

J. Clin. Invest.

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supporting

confidence: 61%

A micropuncture study of renal salt and water retention in chronic bile duct obstruction.

Bank¹,

Aynedjian²

1975

J. Clin. Invest.

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“…As these authors point out, an inhibitory effect of mannitol in the descending limb of the loop is not necessarily incompatible with clearance studies which have demonstrated that mannitol infusions increase free water clearance. In view of this observation, the clearance studies of Bell et al (41) and of Schedl and Barrter (42) could be reinterpreted to imply that the major site of salt and water retention in edematous patients is in the loop of Henle.…”

Section: Methodsmentioning

confidence: 99%

Effects of Acute Volume Expansion and Altered Hemodynamics on Renal Tubular Function in Chronic Caval Dogs

Levy¹

1972

J. Clin. Invest.

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A B S T R A C T It is well established that dogs with chronic partial constriction of the thoracic inferior vena cava develop sodium retention, ascites, and respond poorly to acute saline loading. A group of such chronic caval dogs, and a group of normal controls were studied during hydropenia, and again after acute saline loading by clearance and recollection xnicropuncture techniques. After volume expansion, the caval dogs excreted 52 ImEq/ min per kidney of sodium compared with 370 MEq/min per kidney for the normal controls. During hydropenia and after the saline infusions, single nephron filtration rates, fractional reabsorption of sodium within the proximal tubule, and proximal delivery of filtrate to the distal nephron were comparable in both groups of dogs.Micropuncture of distal tubular segments confirmed that the loop of Henle was the major site for salt and water retention in the expanded caval dogs. Alteration of intrarenal hemodynamics by vasodilating one kidney and elevating systemic arterial blood pressure induced a normal natriuretic response in the saline-loaded caval dogs. Proximal tubular function remained unchanged and the loop of Henle appeared to be the major site responsive to these hemodynamic maneuvers. These same experiments in saline-loaded control dogs had no effect on function of the proximal or distal nephron and did not increase urinary excretion of sodium or water.These experiments provide evidence that the loop of Henle is the major site for sodium retention in volumeexpanded chronic caval dogs excreting minimal amounts of sodium.This report was published in part in abstract form in Clin.

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“…Since a depression of the glomerular filtration rate is usually associated with hypovolemia, it was thought earlier that this was responsible for the concomitant urinary suggested that volume depletion induces an increase in sodium reabsorption by the nephron at a site proximal to the diluting and concentrating segments. Patients with congestive heart failure, decompensated cirrhosis or severe salt depletion have been shown to have an inability to excrete a water load, due to an impairment in urinary diluting ability (14,16,17). Concentrating ability is similarly impaired by acute or chronic sodium depletion in a way which cannot be explained by a decrease in filtered load (1)(2)(3) is subject to the errors involved in the accuracy of the measurement of GFR in individual nephrons.…”

Section: Discussionmentioning

confidence: 99%

“…Salt deprivation, congestive heart failure, and decompensated cirrhosis are often accompanied by a dilutional hyponatremia secondary to a decrease in the ability of the kidneys to excrete free water and dilute the urine (14,16,17). The urinary excretion of calcium and urate, which are chiefly reabsorbed in the proximal tubule, is curtailed by sodium deprivation (29,30).…”

Section: Discussionmentioning

confidence: 99%

Accelerated reabsorption in the proximal tubule produced by volume depletion

Weiner¹,

Weinman²,

Kashgarian³

et al. 1971

J. Clin. Invest.

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A B S T R A C T The renal response to chronic depletion of extracellular volume was examined using the techniques of micropuncture. Depletion of salt and water was produced by administration of furosemide to rats maintained on a sodium-free diet. There was a marked fall in body weight, plasma volume, and glomerular filtration rate. The intrinsic reabsorptive capacity of the proximal tubule, measured by the split-droplet technique, was greatly enhanced. The acceleration of proximal fluid reabsorption could not be accounted for by changes in filtration rate, tubular geometry, or aldosterone secretion. The half-time of droplet reabsorption in the distal tubule was not altered by sodium depletion.An increase in the reabsorption of fluid in the proximal tubule, as demonstrated directly in the present experiments, provides an explanation for a variety of clinical phenomena associated with volume depletion. INTRODUCTIONIt is now well established that expansion of the extracellular fluid leads to renal excretion of salt and water in large part through the mechanism of decreased reabsorption in the proximal tubule. It is also well-known that depletion of extracellular volume regularly induces retention of salt and water, but the mechanism is not so precisely established. There is reason to think that, in addition to a fall in glomerular filtration rate, there is an accelerated reabsorption of sodium in the proximal tubules resulting in decreased delivery of filtrate to the distal nephron. Thus far, however, the evidence has been

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An Explanation for and Experimental Correction of the Abnormal Water Diuresis in Cirrhosis *

Cited by 158 publications

References 19 publications

A micropuncture study of renal salt and water retention in chronic bile duct obstruction.

A micropuncture study of renal salt and water retention in chronic bile duct obstruction.

Effects of Acute Volume Expansion and Altered Hemodynamics on Renal Tubular Function in Chronic Caval Dogs

Accelerated reabsorption in the proximal tubule produced by volume depletion

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