Mechanisms of Impaired Water Excretion in Adrenal and Pituitary Insufficiency. I. The Role of Altered Glomerular Filtration Rate and Solute Excretion12

Maxwell, Morton H.; Rockney, Robert E.

doi:10.1172/jci103773

Cited by 79 publications

(55 citation statements)

References 22 publications

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“…Goldsmith and associates have postulated such a defect in saltrestricted dogs (12). It does not appear likely, however, that glucocorticoids act by increasing collecting duct permeability, since other studies have shown that in the hydrated state, glucocorticoids produce more free water excretion, suggesting that these agents render the tubule less permeable to water (3,7,14).…”

Section: Discussionmentioning

confidence: 99%

On the Renal Site and Mode of Action of Glucocorticoid in Cirrhosis*

Jick¹,

Snyder²,

Finkelstein³

et al. 1963

J. Clin. Invest.

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Section: Discussionmentioning

confidence: 99%

On the Renal Site and Mode of Action of Glucocorticoid in Cirrhosis*

Jick¹,

Snyder²,

Finkelstein³

et al. 1963

J. Clin. Invest.

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“…There is considerable evidence that adrenal insufficiency is associated with an impaired ability to attain a normal water diuresis (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13). The mechanisms involved in this impairment of water excretion have not been clearly elucidated, however, two possible mechanisms have been proposed.…”

Section: Introductionmentioning

confidence: 99%

“…The mechanisms involved in this impairment of water excretion have not been clearly elucidated, however, two possible mechanisms have been proposed. One (3)(4)(5)(6)(7)(8) is that, although the release of antidiuretic hormone (ADH)' from the hypothalamus in adrenal insufficiency is normally suppressed during water loading, the water impermeability of the distal nephron is incomplete in the absence of glucocorticoid hormone. In contrast, other authors (9)(10)(11) have suggested that the release of ADH is not suppressed normally during water loading in the presence of adrenal insufficiency and increased circulating levels of ADH account for the inability to excrete water normally.…”

Section: Introductionmentioning

confidence: 99%

Importance of sodium intake and mineralocorticoid hormone in the impaired water excretion in adrenal insufficiency

Ufferman¹,

Schrier²

1972

J. Clin. Invest.

100

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A B S T R A C T The response of trained, conscious dogs to an acute water load was studied before adrenalectomy and under five conditions of hormonal replacement and sodium intake after adrenalectomy. Before adrenalectomy, with the dogs drinking isotonic saline, the minimal urinary osmolality (Uosm) was 47±7 (SEM) mOsm and free-water clearance (CH2o) was 8.6±1 ml/min. These values were not different after adrenalectomy with or without deoxycorticosterone (DOCA) if the animals continued to drink saline and receive dexamethasone. Moreover, after adrenalectomy in the presence of saline drinking both dexamethasone and DOCA could be withdrawn for up to 4 days without impairment of diluting ability (Uosm, 544+7 mOsm and CH20, 7.3±1 ml/min).In contrast, when the dogs drank tap water (Na intake 30 mEq/day), water loading in the absence of dexamethasone and DOCA was associated with a significantly higher Uosm (127±28,mOsm) and lower CH20 (2.7+0.3 ml/min). Replacing DOCA alone in the presence of this limited Na intake returned diluting ability to normal (Uosm 31±7 mOsm, CH2o 7.7±0.5 ml/min). Glomerular filtration rate for each animal was the same under each condition except for a significant diminution which occurred when dexamethasone and DOCA were withdrawn while the animals were on a 30 mEq sodium intake. In contrast to previous conclusions, the present results indicate that in the absence of adrenal hormones normal renal diluting ability may occur, indicating both maximal suppression of vasopressin release and maximal distal tubular impermeability to water.

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“…As the kidney matures it becomes capable of increasing distal tubular sodium reabsorption to compensate for any increased distal tubular fluid delivery. (Pediatr Res 26: [6][7][8][9][10]1989) Abbreviations FRN,, fractional reabsorption of sodium FR,,i, fractional reabsorption of lithium uN,,v, uKV, UclV, Uc.V, renal excretion rate of sodium/ potassium/chloride/calcium may be responsible for neonatal hyponatremia. However, subsequent investigations have shown that a characteristic of this defect is decreased proximal tubule reabsorption of sodium (2) implying that renal insensitivity to aldosterone may be only partially responsible.…”

mentioning

confidence: 99%

Gestational Changes in Renal Responsiveness to Cortisol in the Ovine Fetus

1989

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ABSTRACT. The ontogenetic renal responsiveness to exogenous cortisol was examined in the chronically cannulated ovine fetus. The contribution of effects a t proximal and distal tubule of the kidney were studied also. Cortisol (81.5 pg/h) was infused into immature ovine fetuses (mean gestational age -113.9 days) on five occasions and increased blood cortisol from 0.8 f 0.5 to 21.3 + 6.2 nmol/ liter. This dose of cortisol produced a highly significant diuresis and natriuresis, in part due to an increase in GFR and in part due to a significant decrease in proximal tubular reabsorption of sodium. Cortisol (107.2 + 4.7 &h) was infused into mature fetuses (mean gestational age 133.4 days) and produced an increase in blood cortisol concentration from 11.4 + 5.6 to 33.7 2 6.8 nmol/liter. No natriuresis or diuresis was seen in the mature fetuses. Cortisol caused a significant depression of proximal tubular sodium reabsorption in mature fetuses, but this extra load was reabsorbed in the distal tubule in these fetuses. The inability of the premature or very low birth wt baby to maintain normal sodium balance on a standard salt intake may be due, at least in part, to a "fetal" renal response to the high plasma cortisol concentrations found in such babies. As the kidney matures it becomes capable of increasing distal tubular sodium reabsorption to compensate for any increased distal tubular fluid delivery. (Pediatr Res 26: 6-10, 1989) Abbreviations FRN,, fractional reabsorption of sodium FR,,i, fractional reabsorption of lithium uN,,v, uKV, UclV, Uc.V, renal excretion rate of sodium/ potassium/chloride/calcium may be responsible for neonatal hyponatremia. However, subsequent investigations have shown that a characteristic of this defect is decreased proximal tubule reabsorption of sodium (2) implying that renal insensitivity to aldosterone may be only partially responsible. The relative immaturity of renal function in very low birth wt and premature neonates seems to be important in the pathogenesis of hyponatremia. Premature neonates exhibit a greater natriuresis and a lower GFR in response to oral salt loading when compared to full-term neonates (5, 6). This is consistent with histopathologic studies that show that glomerular formation in the human infant is not complete until late in gestation (7), whereas tubular development is not complete until 1 y after birth (8).In mature mammals the presence of adrenal steroids is essential for normal renal function. A characteristic of adrenalectomized or hypophysectomized animals and patients with adrenal or pituitary insufficiency is a delayed diuresis following oral or parenteral water loading, accompanied by impaired sodium conservation and reduced GFR and renal blood flow. Administration of deoxycortisone acetate or aldosterone in the presence of normal sodium balance and extra-cellular volume has no effect on the delayed diuresis, whereas cortisol-like steroids correct this diuresis (9-1 1).Clinical investigations have reported that premature neonates have higher plasma co...

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Mechanisms of Impaired Water Excretion in Adrenal and Pituitary Insufficiency. I. The Role of Altered Glomerular Filtration Rate and Solute Excretion12

Cited by 79 publications

References 22 publications

On the Renal Site and Mode of Action of Glucocorticoid in Cirrhosis*

On the Renal Site and Mode of Action of Glucocorticoid in Cirrhosis*

Importance of sodium intake and mineralocorticoid hormone in the impaired water excretion in adrenal insufficiency

Gestational Changes in Renal Responsiveness to Cortisol in the Ovine Fetus

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