Douglas R. Wilson scite author profile

The oliguria of acute renal failure has been attributed to tubular obstruction (1-12), "leakage" of the glomerular filtrate through rents in the tubular wall (13)(14)(15)(16)(17)(18)(19), and vascular mechanisms of various types (20)(21)(22)(23)(24)(25). In a previous paper, it was shown that the oliguria of mercury-induced acute renal failure in the rat reflects a primary decrease in glomerular filtration rate and cannot be attributed to tubular mechanisms (26). The applicability of these findings to most types of acute renal failure occurring in humans may be questioned, however, because of the very dissimilar etiologies and the known effect of large doses of mercury on the renal circulation (27). The present study concerns hours before glycerol injection. They lost an average of 8% of body weight in the period of dehydration, during which time their food intake was one-third less than that of nondehydrated animals. Blood samples were obtained by cardiac puncture from a number of glycerolinjected animals and dehydrated control rats that were exempted from micropuncture studies to determine the change in their blood urea nitrogen (BUN) occurring over a 48-hour period. BUN was measured on 0.2-ml samples by a modification of the urease method of Gentzkow (28). Urinary osmolalities were determined with an Advanced osmometer.Acute renal failure was induced by injecting 50%o glycerol in water into the muscle of both hind limbs at a total dose of 10 ml per kg of body weight. Within 2 hours after this injection, the urine was found to be burgundy red in color due to the presence of heme pigments.The animals were subjected to micropuncture experiments at times ranging from 30 minutes to 26 hours after glycerol injection. They were anesthetized with sodium pentobarbital given intraperitoneally at a dose of 40 to 50 mg per kg body weight. Their blood pressure was monitored as described earlier (26) either by a tail cuff microphone method or intra-arterial manometry. Although hypotension typically did not occur, animals whose mean arterial blood pressure was less than 85 mm Hg were excluded from micropuncture study. The left kidney was exposed through an abdominal incision and carefully dissected free of the perirenal fat. The renal hilus was disturbed as little as possible, and the renal capsule was left intact. The kidney was placed in a Lucite holder to minimize its displacement with respiration. Its surface was covered with warm mineral oil to prevent drying and to aid in visualization of the renal structures.Micropuncture methods were those described in an earlier paper (26). In short, proximal tubular hydrostatic pressure was measured by a modification of the manometric method of Wirz (29), using a water manometer to obtain maximal definition of the end point. The manometer was calibrated at zero pressure before each measurement. Glomerular filtration rate and fractional water absorption were determined at least 30 minutes after the injection of 40 ,uc of "C-labeled inulin 1 in 0.3 to 0.5 ml of 140 mM NaCl. Labele...

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Atrial natriuretic factor inhibits sodium transport in medullary collecting duct

Sonnenberg¹,

Honrath²,

Chong³

et al. 1986

American Journal of Physiology-Renal Physiology

106

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Characteristics of sodium transport in the inner medullary collecting duct were determined in anesthetized rats before and during intravenous infusion of synthetic atrial natriuretic factor (atriopeptin II). Infusion of the factor was associated with increased sodium delivery and reduced fractional reabsorption in the duct. Increasing delivery to the same extent by KCl infusion had no effect on fractional reabsorption. The results demonstrate that atrial natriuretic factor has a specific inhibitory effect on net sodium transport in this part of the nephron. The mechanism of this inhibition may involve induction of sodium permeability and consequent backflux into the tubular lumen.

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Sites of ammonia addition to tubular fluid in rats with chronic metabolic acidosis

Sajo¹,

Goldstein²,

Sonnenberg³

et al. 1981

Kidney International

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The purpose of this investigation was to determine in which nephron segments ammonia was added to or removed from the lumenal fluid of the rat. Ammonium was measured in proximal and distal tubular fluid samples obtained by micropuncture and in collecting duct fluid samples obtained by microcatheterization. Water abstraction was assessed by examining the tubular fluid-to-plasma inulin concentration, (TF/P)In. In normal or acidotic rats, the vast bulk of the final urine ammonium appeared in the proximal tubular fluid samples. Most of this ammonia was lost, however, in transit from the proximal to the distal tubule so that only 20 to 30% of the excreted ammonium was present at the distal site. Ammonia reentered the lumenal fluid primarily in the cortical collecting duct in acidotic rats and in the medullary collecting duct in normal rats. Although the pattern was qualitatively similar in both groups of rats, the absolute quantity of ammonium in each nephron segment of normal rats was about 10 to 20% of that in acidotic animals.

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The Prevention of Acute Renal Failure in the Rat by Long-Term Saline Loading: A Possible Role of the Renin-Angiotensin Axis

McDonald

Thiel

Wilson

et al. 1969

Experimental Biology and Medicine

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Low-income Canadians’ experiences with health-related services: Implications for health care reform

et al. 2006

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Douglas R. Wilson

Glycerol-induced hemoglobinuric acute renal failure in the rat. I. Micropuncture study of the development of oliguria.

Atrial natriuretic factor inhibits sodium transport in medullary collecting duct

Sites of ammonia addition to tubular fluid in rats with chronic metabolic acidosis

The Prevention of Acute Renal Failure in the Rat by Long-Term Saline Loading: A Possible Role of the Renin-Angiotensin Axis

Low-income Canadians’ experiences with health-related services: Implications for health care reform

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