ISSN:
1432-1440
Keywords:
Diuretics
;
Pharmacokinetics
;
Renal failure
;
Liver disease
;
Congestive heart failure
;
Nephrotic syndrome
;
Dose response relationship
;
Resistance to diuretics
;
Combination therapy
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Summary Diuretics are classified according to their site of action in the nephron: loop diuretics, thiazides, and antikaliuretics. During peak diuresis the pattern of electrolyte excretion is constant and characteristic for a class of diuretics. The ratio of diuretic-induced excretion of K+ to Na+ is 0.12 for loop diuretics, 0.20 for thiazides, and −0.21 for antikaliuretics. The ratio of Ca2+ to Na+ is 0.02 for loop diuretics and 0.003 for thiazides. Mg2+ excretion follows K+ excretion in a ratio of 0.15. The natriuretic effect of a diuretic directly depends on the renal clearance of the drug and is proportionate to the number of intact nephrons. Not only loop diuretics but also thiazides and antikaliuretics were demonstrated to be effective natriuretic drugs down to end-stage renal disease. In renal failure FENa is doubled with every halfening of GFR. Loop diuretics increase FENa to a maximum of 24%, thiazides to 10–15%, and FENa is doubled by antikaliuretics. Comedication of loop diuretics with thiazides in renal failure may therefore be more effective than increasing monotherapy. In liver disease, nonrenal drug clearance is reduced the more the patient's direct bilirubin rises thus causing an increase in AUC and urinary excretion of parent drug and metabolites. Despite increased Ae, the cirrhotic patient may become resistant to diuretics as may patients with congestive heart failure or nephrotic syndrome. This is considered to be due to reduced Na+ load available at the diuretic's site of action following avid proximal Na+ reabsorption. In reduced EABV a short-term comedication of loop diuretics with carboanhydratase inhibitors is considered a more effective diuretic strategy than vigorously increasing monotherapy.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01666849
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