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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antialdosterone therapy in patients with secondary hyperaldosteronism due to myocardial failure must accomplish the following: (1) reduce or preferably normalize plasma aldosterone levels by blockade of excessive synthesis, (2) antagonize the renal and systemic effects of aldosterone at its receptor sites, and (3) minimize the presence of multiple stimuli to aldosterone secretion. Fulfillment of these goals likely requires the blockade of angiotensin II-induced aldosterone secretion (ie, angiotensin-converting enzyme inhibition) with an antagonist of aldosterone receptors (ie, spironolactone [Aldactone]). Despite the potential for hyperkalemia with this combined use of medications, particularly in patients with impaired renal function, such therapy is likely to attenuate the salt-acquisitive state that is characteristic of myocardial failure.
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PMID:Role of aldosterone in congestive heart failure. 846 78

The diuretics, with the exception of spironolactone, act on the luminal (or apical) surface of the tubular cells of different segments of the nephron. In order to act, they must be secreted into the tubular lumen. This transfer of the drug to its site of action may be blocked by decreased renal blood flow, the saturation of the systems of tubular transport or fixation to the albumin present in the primary urine. All these pharmacokinetic abnormalities (observed in renal failure or the nephrotic syndrome) lead to diuretic resistance. Increasing the dosage, the repetition, intravenous administration, even as an infusion, are possible solutions. Resistance may be observed in the absence of pharmacokinetic abnormalities: in these cases, there is an abnormal response of the tubular cells to otherwise effective diuretic concentrations, or the activation of homeostatic mechanisms leading to sodium retention and preventing negativisation of the salt and water balance. These situations are often associated in cardiac failure or cirrhosis with oedema. Increasing the dosage is not a logical solution, but increasing the frequency of administration may be helpful. The importance of secondary hyperaldosteronism in cirrhotic oedema makes spironolactone the treatment of choice. In all cases, the addition of two mechanisms of inhibition of tubular reabsorption of sodium at different sites in the nephron often results in an effective diuresis: usually, this implies the addition of a thiazide (e.g. hydrochlorothiazide) to an initial prescription of a loop diuretic.
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PMID:[Diuretic resistance: mechanisms and therapeutic possibilities]. 986 8

Spironolactone, a competitive aldosterone receptor antagonist (ARA), has traditionally been the treatment of first choice in idiopathic hyperaldosteronism (IHA) and for preoperative management of aldosterone producing adenoma (APA). Spironolactone is partially absorbed, is extensively metabolized mainly by the liver and its therapeutic properties are attributable to active metabolite canrenone. At therapeutic doses of 25 to 400 mg per day, spironolactone effectively controls blood pressure and hypokalemia in the majority of cases. Endocrine side effect are often associated and mainly consist of gynecomastia, decreased libido and impotence in man and menstrual irregularities in women. Canrenone and the K+ salt of canrenoate are also in clinical use: they avoid the formation of intermediate products with anti-androgenic and progestational actions, resulting in a decreased incidence of side effects. Furthermore, a relatively new selective ARA compound (eplerenone) with reduced affinity for androgen and progesterone receptors, is currently undergoing clinical trials. In essential hypertension aldosterone can contribute to hypertension and increases the incidence of myocardial hypertrophy and cardiovascular events. On the other hand, inhibition of Renin-Angiotensin-Aldosterone System (RAAS) is associated with a decrease in blood pressure, with a regression of left ventricular hypertrophy and a reduction of target organ damage. Thus, ARA have been proposed as complementary treatment associated to ACE inhibitors and angiotensin receptor antagonists. Aldosterone is also known to play an important role in pathophysiolgy of congestive heart failure (CHF). In vitro and in vivo evidences suggest that aldosterone promotes myocardial fibrosis. This effect reflects direct, extra-epithelial actions of aldosterone via cardiac MR which are counteracted by ARAs in animal models. The RAAS is chronically activated in CHF. Non potassium-sparing diuretics further stimulate the RAAS and cause hypokalemia. Thus, use of ARAs in CHF was first proposed to correct potassium and magnesium depletion. At present ARAs are indicated in the management of primary hyperaldosteronism, in oedematous conditions in patients with CHF, in cirrhosis of the liver accompanied by oedema and ascites, in essential hypertension and in hypokalemic states. Its indication as adjunctive therapy of heart failure is currently under investigation. In fact, it is well known that even high doses of ACE inhibitors may not completely suppress the RAAS; aldosterone 'escape' may occur through non angiotensin II dependent mechanisms. Addition of spironolactone to an ACE inhibitor causes marked diuresis and symptomatic improvement. During the last few years, the RALES study (Randomized Aldactone Evaluation Study) was organized to explore the efficacy of combination therapy with spironolactone and ACE inhibitor in patients with CHF, class III or IV NYHA. The study was stopped 18 months early because the results were so statistically and clinically significant that it would be unethical to continue the trial. It is reported a 30 percent decrease in mortality and hospitalisation for cardiac causes in spironolactone-treated group vs placebo group.
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PMID:Aldosterone antagonists in hypertension and heart failure. 1079 May 93

An intracardiac aldosterone system which responds to short- and long-term physiological stimuli has been described. This cardiac generated aldosterone has possibly autocrine or paracrine actions. Normal cardiac tissue contains mineralocorticoid receptors (MR) and cardiac high affinity MR are localized in cardiac myocytes and endothelial cells. Data concerning the presence of MR in cardiac fibroblasts are, however, controversial. MR are not specific for aldosterone but they also bind glucocorticoids. Cardiac fibroblasts however contain the enzyme 11beta-hydroxy-steroid dehydrogenase II which converts these glucocorticoids to inactive metabolites. Discordant findings on the in vitro effect of aldosterone on the collagen synthesis in cardiac fibroblasts are reported and can at least partly attributed to the presence of various fibroblasts phenotypes. During chronic aldosterone infusion in uninephrectomized rats on a high-salt diet, a marked accumulation of interstitial and to a lesser extent perivascular collagen occurs in the heart in both ventricles. This cardiac fibrosis in this aldosteronism model is prevented by spironolactone. This effect of aldosterone is crucially dependent on the salt status of the rat. Indeed, rats on a restricted salt intake infused with aldosterone had no cardiac fibrosis above control levels. During the continuous infusion of aldosterone in the rat the appearance of fibrosis was delayed and starts 4 weeks after the beginning of the infusion which argues against a direct effect of aldosterone. The mechanism of aldosterone-salt induced cardiac fibrosis possibly involves angiotensin II acting through upregulated AT1 receptors and the cardiac AT1 receptor is the target for aldosterone. An accumulation of collagen in the heart has also been found in patients with adrenal adenomas and during chronic activation of the renin-angiotensin-aldosterone system such as in surgically induced unilateral renal ischemia, unilateral renal artery banding or renovascular hypertension. Spironolactone prevents aortic collagen accumulation in spontaneously hypertensive rats. In patients with stable chronic heart failure spironolactone treatment in addition to diuretics and angiotensin-converting enzyme (ACE) inhibition reduced circulating levels of procollagen type III N-terminal aminopeptide. Also, in the Randomized Aldactone Evaluation Study spironolactone coadministered with conventional therapy of ACE inhibitors, loop diuretics and digitalis in patients with symptomatic heart failure defined as NYHA classes III-IV reduces total mortality by 30%.
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PMID:Induction of cardiac fibrosis by aldosterone. 1088 42

Cardiac fibroblasts are known to have high affinity corticoid receptors for aldosterone and account for the accumulation of collagen within the interstitium of the rat myocardium in acquired and genetic hypertension. This interstitial fibrosis is an important determinant of pathologic hypertrophy in chronic heart failure. To examine the relationship between aldosterone and myocardial fibrosis, collagen volume fraction of the left and right ventricles were analyzed by videodensitometry of sirius red stained tissue in the following rat models: 2 kidney/1 clip model of renovascular hypertension; continuous aldosterone administration via osmotic minipumps (0.75 microgram/hour s.c.), or in each model of primary and secondary hyperaldosteronism with concomitant treatment with either low (20 mg/kg/day) or high doses (200 mg/kg/day) of s.c. spironolactone for 8 weeks as well as in age matched controls. Systolic arterial pressure and left ventricular weight normalized to body weight were each increased with either model of experimental hypertension and were normalized with high-dose spironolactone treatment. Myocardial fibrosis induced by chronic aldosterone administration was comparable to renovascular hypertension and occurred in the pressure overloaded, hypertrophied left and in the normotensive, nonhypertrophied right ventricle. The competitive aldosterone receptor antagonist, spironolactone, was able to prevent fibrosis in both ventricles in either model of arterial hypertension irrespective of the development of left ventricular hypertrophy and hypertension. To examine whether aldosterone stimulates collagen synthesis in adult rat cardiac fibroblasts collagen synthesis, normalized per total protein synthesis, was measured by 3H-proline incorporation in cultured fibroblasts after 24 hours incubation with aldosterone at 10(-11) to 10(-6) M concentrations, or with 10(-9) M aldosterone + 10(-9) M spironolactone. Under serum-free conditions, aldosterone was able to stimulate collagen synthesis in a dose-dependent manner and at concentrations (10(-9) M) which were comparable to stimulated states in vivo (e.g., renovascular hypertension, or chronic heart failure). At equimolar concentrations, spironolactone abolished the aldosterone-mediated increase in collagen synthesis. Thus, in-vivo and in-vitro evidence could be provided that the mineralocorticoid, aldosterone, plays a pivotal role in promoting myocardial fibrosis and that could be antagonized by its competitive receptor blocker, spironolactone. These cardioprotective effects of spironolactone may explain the prognostic value of anti-aldosterone therapy in patients with severe chronic heart failure evaluated in the RALES mortality trial.
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PMID:Aldosterone and myocardial fibrosis in heart failure. 1090 56

The first application of angiotensin converting enzyme (ACE) inhibitors it was the treatment of arterial hypertension. Latter news application appears such as: heart failure, myocardial infarct, nephropathy and diabetic proteinuria. Captopril, the first oral ACE inhibitor was used, since 1986, in the diagnostic screening of renovascular hypertension (RVH). Since then other authors recognised the importance of captopril test in the detection of RVH, advising also it's application in the diagnosis of primary aldosteronism and pheocromocithoma. Based in different publications the sensitivity of captopril test is 40%-100% and the specificity 72%-100%. There are several reasons to explain the differences between these results. In our opinion, these observations appeared as a consequence of the different methodology used. Despite the fact that alternative procedures to captopril test in the screening of RVII do exist this is, in our opinion, the most simple, cheap, safe and efficient test available at the moment.
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PMID:[Converting enzyme inhibitors in the diagnosis of secondary arterial hypertension --focus on the captopril test]. 1130 9

Until recently, spironolactone was considered only as an antagonist at the aldosterone receptors of the epithelial cells of the kidney and was used clinically in the treatment of hyperaldosteronism and, occasionally, as a K(+)-sparing diuretic. The spironolactone renaissance started with the experimental finding that spironolactone reversed aldosterone-induced cardiac fibrosis by a cardiac action. Experimentally, spironolactone also has direct effects on blood vessels. Spironolactone reduces vascular fibrosis and injury, inhibits angiogenesis, reduces vascular tone and reduces portal hypertension. The rationale for the Randomized Aldactone Evaluation Study (RALES) of spironolactone in heart failure was that 'aldosterone escape' occurred through non-angiotensin II mechanisms. The RALES clinical trial was stopped early when it was shown that there was a 30% reduction in risk of death among the spironolactone patients. In RALES, spironolactone also reduced hospitalisation for worsening heart failure and improved the symptoms of heart failure. Other recent clinical trials have shown that spironolactone reduces cardiac and vascular collagen turnover, improves heart variability, reduces ventricular arrhythmias, improves endothelial dysfunction and dilates blood vessels in human heart failure and these effects probably all contribute to the increased survival in heart failure. Spironolactone may also be useful in the treatment of left ventricular hypertrophy, portal hypertension and cirrhosis. There have also been some recent small clinical trials of spironolactone as an anti-androgen showing potential in acne, hirsutism and precocious puberty.
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PMID:The spironolactone renaissance. 1132 68

1. Evidence from recent experimental and clinical studies suggests that excessive circulating levels of aldosterone can bring about adverse cardiovascular sequelae independent of the effects on blood pressure. Examples of these sequelae are the development of myocardial and vascular fibrosis in uninephrectomized, salt-loaded rats infused with mineralocorticoids and, in humans, an association of aldosterone with left ventricular hypertrophy, impaired diastolic and systolic function, salt and water retention causing aggravation of congestion in patients with established congestive cardiac failure (CCF), reduced vascular compliance and an increased risk of arrhythmias (resulting from intracardiac fibrosis, hypokalaemia, hypomagnesaemia, reduced baroreceptor sensitivity and potentiation of catecholamine effects). 2. These sequelae of aldosterone excess may contribute to the pathogenesis and worsen the prognosis of CCF and hypertension. 3. The heart and blood vessels may be capable of extra-adrenal aldosterone biosynthesis, raising the possibility that aldosterone may have paracrine or autocrine (and not just endocrine) effects on cardiovascular tissues. 4. The high prevalence of CCF, which is associated with secondary aldosteronism, and primary aldosteronism (PAL; recently recognized to be a much more common cause of hypertension than was previously thought) argue for an important role for aldosterone excess as a cause of cardiovascular injury. 5. The recognition of non-blood pressure-dependent adverse sequelae of aldosterone excess raises the question as to whether normotensive individuals with PAL, who have been detected as a result of genetic or biochemical screening among families with inherited forms of PAL, are at excess risk of cardiovascular events. 6. Provided that patients are carefully investigated in order to permit the appropriate selection of specific surgical (laparoscopic adrenalectomy for PAL that lateralizes on adrenal venous sampling) or medical (treatment with aldosterone antagonist medications) management and safety considerations for the use of aldosterone antagonists are kept in mind, the appreciation of a widening role for aldosterone in cardiovascular disease should provide a substantially better outlook for many patients with CCF and hypertension.
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PMID:New perspectives on the role of aldosterone excess in cardiovascular disease. 1155 16

Most frequent complications in patients with liver cirrhosis are due to portal hypertension. Beside ascites circumvent vessels formate with vasodilatation. Due to counterregulation a secondary hyperaldosteronism develops with release of vasocontrictive agents. If conservative and endoscopic methods fail, indication for building a portosystemic shunt is given. The TIPSS procedure is less invasive than the surgical method of Warren-Shunt, so the radiological intervention has replaced surgery. Reducing the portal pressure by the shunt, the clinical complications change for the better. Still problems are defined as hepatic encephalopathy and right ventricular heart failure. Regular follow up investigations have to be performed to detect complications in the shunt. Using regular clinical and radiological check up TIPSS is of clinical benefit with good long term results.
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PMID:[Transjugular portosystemic stent shunt (TIPSS) as intervention in clinical complications of portal hypertension]. 1171 78

Cardiac failure is a common feature in the evolution of cardiac disease. Among the determinants of cardiac failure, the renin-angiotensin-aldosterone system has a central role, and antagonism of the mineralocorticoid receptor (MR) has been proposed as a therapeutic strategy. In this study, we questioned the role of the MR, not of aldosterone, on heart function, using an inducible and cardiac-specific transgenic mouse model. We have generated a conditional knock-down model by expressing solely in the heart an antisense mRNA directed against the murine MR, a transcription factor with unknown targets in cardiomyocytes. Within 2-3 mo, mice developed severe heart failure and cardiac fibrosis in the absence of hypertension or chronic hyperaldosteronism. Moreover, cardiac failure and fibrosis were fully reversible when MR antisense mRNA expression was subsequently suppressed.
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PMID:Reversible cardiac fibrosis and heart failure induced by conditional expression of an antisense mRNA of the mineralocorticoid receptor in cardiomyocytes. 1199 77


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