Spironolactone

References

Herman E, Rado J. Fatal hyperkalemic paralysis associated with spironalactone. Observation on a patient with severe renal disease and refractory edema. Arch Neurol 1966 Jul;15(1):74-77.

Herman E, Rado J. [Hyperkalemia with fatal paralysis in a diabetic patient treated with aldactone]. Orv Hetil 1967 Jan 8;108(2):74-76. [Article in Hungarian]

Lee YS, Lorenzo BJ, Koufis T, Reidenberg MM. Grapefruit juice and its flavonoids inhibit 11 beta-hydroxysteroid dehydrogenase. Clin Pharmacol Ther 1996 Jan;59(1):62-71.
Abstract: INTRODUCTION: The enzyme 11 beta-hydroxysteroid dehydrogenase (11 beta-OHSD) oxidizes cortisol to inactive cortisone. Its congenital absence or inhibition by licorice increases cortisol levels at the mineralocorticoid receptor, causing mineralocorticoid effects. We tested the hypothesis that flavonoids found in grapefruit juice inhibit this enzyme in vitro and that grapefruit juice itself inhibits it in vivo. METHODS: Microsomes from guinea pig kidney cortex were incubated with cortisol and nicotinamide adenine dinucleotide (NAD) or nicotinamide adenine dinucleotide phosphate (NADP) and different flavonoids and the oxidation to cortisone measured with use of HPLC analysis. In addition, healthy human volunteers drank grapefruit juice, and the ratio of cortisone to cortisol in their urine was measured by HPLC and used as an index of endogenous enzyme activity. RESULTS: Both forms of 11 beta-OHSD requiring either NAD or NADP were inhibited in a concentration-dependent manner by the flavonoids in grapefruit juice. Normal men who drank grapefruit juice had a fall in their urinary cortisone/cortisol ratio, suggesting in vivo inhibition of the enzyme. CONCLUSION: Dietary flavonoids can inhibit this enzyme and, at high doses, may cause an apparent mineralocorticoid effect.

Miller LG. Herbal medicinals: selected clinical considerations focusing on known or potential drug-herb interactions. Arch Intern Med 1998 Nov 9;158(20):2200-2211. (Review)

Nanahoshi M. [Effect of glycyrrhizin on the action cortisone]. Nippon Naibunpi Gakkai Zasshi 1967 Mar 20;42(12):1312-1319. [Article in Japanese]

Overdiek HW, Merkus FW. Influence of food on the bioavailability of spironolactone. Clin Pharmacol Ther 1986 Nov;40(5):531-536.
Abstract: Nine healthy volunteers received a single oral dose of 200 mg spironolactone, once during fasting conditions and once immediately after a standardized breakfast. Serum concentrations of spironolactone and its metabolites 7 alpha-thiomethylspirolactone, 6 beta-hydroxy-7 alpha-thiomethylspirolactone, and canrenone were determined by HPLC for 24 hours after dosing. By taking spironolactone with food, the mean (+/- SD) AUC (0 to 24 hours) of the parent drug increased from 288 +/- 138 (empty stomach) to 493 +/- 105 ng X ml-1 X hr (P less than 0.001). The AUC (0 to 24 hours) of the three metabolites together also increased significantly from 8511 +/- 2062 (empty stomach) to 11219 +/- 2471 ng X ml-1 X hr (P less than 0.01). The mean (+/- SD) percent increase in AUC (0 to 24 hours) of spironolactone when it was given with food, compared with the ingestion on an empty stomach (95.4% +/- 66.9%), was much more pronounced than the corresponding increase of 7 alpha-thiomethylspirolactone (45.4% +/- 33.7%), 6 beta-hydroxy-7 alpha-thiomethylspiro-lactone (21.8% +/- 21.5%), and canrenone (40.7% +/- 26.3%). These observations indicate that food promotes the absorption of spironolactone and possibly decreases its first-pass metabolism.

Overdiek HW, Merkus FW. The metabolism and biopharmaceutics of spironolactone in man. Rev Drug Metab Drug Interact 1987;5(4):273-302. (Review)
Abstract: Spironolactone, a competitive aldosterone antagonist, has been used for almost 30 years in those disorders associated with primary or secondary hyperaldosteronism. This review is confined to its metabolism and biopharmaceutics in man. Spironolactone undergoes extensive metabolism with no unchanged drug appearing in the urine. Its metabolites can be divided into two main categories: those in which the sulfur of the parent molecule is removed and those in which the sulfur is retained. The dethioacetylated metabolite canrenone, belonging to the former category, was long considered to be the major active metabolite of spironolactone. For this reason pharmacokinetic studies have focussed on its kinetic behaviour. However, pharmacodynamic studies indicated that canrenone could only partly explain spironolactone's action. Furthermore, with the advent of modern high-performance liquid chromatographic techniques to measure canrenone concentrations, it was shown that previously employed assay techniques were unspecific and consequently considerably overestimated true canrenone levels. Recently, it was demonstrated that after a single oral dose of spironolactone, 7 alpha-thiomethylspirolactone is the main metabolite and that unchanged spironolactone reaches maximum serum concentrations which are in the same order of magnitude as canrenone. Both spironolactone and 7 alpha-thiomethylspirolactone are known to possess anti-mineralocorticoid activity, and they may be mainly responsible for the activity of spironolactone. It also appears likely that endocrine side effects of spironolactone, such as gynaecomastia, are mediated by these sulfur-containing compounds. The oral absorption of spironolactone is improved by using micronized drug or inclusion complexes of spironolactone with cyclodextrins. Concomitant food intake has also been shown to enhance the bioavailability, by increasing the absorption and decreasing the first-pass effect of spironolactone.

Pratesi C, Scali M, Zampollo V, Zennaro MC, De Lazzari P, Lewicka S, Vecsei P, Armanini D. Effects of licorice on urinary metabolites of cortisol and cortisone. J Hypertens Suppl 1991 Dec;9(6):S274-275.

Roe DA. Diet and Drug Interactions. New York, Van Nostrand Reinhold, 1989: 146.

Stepan VM, Hammer HF, Krejs GJ. Hyperkalaemia and diarrhoea in a patient with surreptitious ingestion of potassium sparing diuretics. Eur J Gastroenterol Hepatol 1997 Oct;9(10):1001-1004.
Abstract: We report a patient who presented with the unusual combination of chronic diarrhoea and hyperkalaemia. The patient was admitted to our hospital after repeated negative evaluations elsewhere including exploratory laparotomy. The patient had a long history of diarrhoea with hypokalaemia which was documented on several occasions in the past. Several months before admission to our hospital for evaluation of diarrhoea the patient developed hyperkalaemia. Her daily stool output reached 1200 g and her serum potassium was as high as 6.0 mmol/l. Extensive evaluation revealed surreptitious ingestion of the diuretics triamterene, hydrochlorothiazide and spironolactone as the cause of hyperkalaemia and diarrhoea. In addition, she had melanosis coli which was interpreted to be the consequence of surreptitious ingestion of anthraquinone-containing laxatives in the past although no current laxative intake could be proven. We postulate that diarrhoea in our patient was mainly due to the decreased sodium absorption in the small intestine and colon caused by diuretics. Serum aldosterone levels were more than eight times the upper limit of normal. Increased aldosterone levels presumably arose secondary to volume contraction and sodium chloride depletion, but presumably were not able to affect renal and colonic electrolyte transport because of blockage of mineralocorticoid receptors by spironolactone. Thus, the unusual combination of diarrhoea and hyperkalaemia resulted.

Threlkeld DS, ed. Diuretics and Cardiovasculars, Potassium-Sparing Diuretics, Spironolactone. In: Facts and Comparisons Drug Information. St. Louis, MO: Facts and Comparisons, Jul 1993.

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