Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Eplerenone (Inspra) is a selective aldosterone blocker. When added to standard medical therapy, eplerenone significantly improved morbidity and mortality in patients with left ventricular (LV) systolic dysfunction and clinical evidence of heart failure following acute myocardial infarction (MI), in a well designed, placebo-controlled trial known as EPHESUS (Eplerenone Post-acute myocardial infarction Heart failure Efficacy and SUrvival Study). Although eplerenone was generally well tolerated, it was associated with a higher incidence of hyperkalaemia than placebo.Cost-effectiveness analyses based on this trial have been performed in the US, The Netherlands, Germany, France and Spain. Direct medical costs were analysed based on prospectively collected resource-use data with local costs applied; modelling was conducted to calculate incremental costs per life-year or QALY gained, with survival curves assumed to remain parallel after treatment ended. Eplerenone was associated with a gain of 0.0304 life-years (approximately 11 days) compared with placebo during the study period. Based on these analyses, eplerenone was cost effective compared with placebo in patients with LV systolic dysfunction and heart failure after an MI when added to standard therapy for 16 months. The incremental cost per life-year gained for eplerenone versus placebo (for a range of three different life-expectancy projections) was 10,402-21,876 US dollars in the US (year 2001 costs, except for eplerenone [2004]) [equivalent to 12,274-25,814 euro; mid-2001 exchange rate], 5,365-12,795 euro for The Netherlands (year 2003 costs), 6,956-14,628 euro for Germany, 5,432-11,423 euro for France and 8,626-18,141 euro for Spain (year of costing not reported). The US, Dutch, French and Spanish analyses estimated that >90% of observations for incremental cost per life-year gained were below a threshold of 50,000 US dollars or 50,000 euro. Incremental costs per QALY gained for eplerenone versus placebo in the US, Dutch, French and Spanish analyses were 15,330-32,405 US dollars (18,089-38,238 euro), 12,148, 8,005-16,922 euro and 12,713-26, 873 euro, respectively. Clinical and pharmacoeconomic data comparing eplerenone with another active drug, such as spironolactone, in this patient population are not available. In conclusion, when added to standard therapy in patients with LV systolic dysfunction and heart failure after an acute MI, eplerenone was associated with significant reductions in mortality and morbidity compared with placebo. Despite some inherent limitations, available pharmacoeconomic data from Europe and the US indicate that eplerenone is a cost-effective treatment compared with placebo in terms of incremental cost per life-year gained in this patient population.
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PMID:Eplerenone : a pharmacoeconomic review of its use in patients with post-myocardial infarction heart failure. 1623 78

Recent clinical trials have explored whether angiotensin receptor blockers (ARBs) or aldosterone blockade should be added to standard angiotensin-converting enzyme (ACE) inhibitor/beta blocker treatment in heart failure. Both strategies are of some value but it is unclear which strategy should be used first in patients with mild but symptomatic heart failure. The arguments for and against each strategy are discussed. The strongest argument for aldosterone blockade is the consistency in the results of the RALES (Randomized Aldactone Evaluation Study) and EPHESUS (Eplerenone Post-acute Myocardial Infarction Heart Failure Efficacy and Survival Study) studies, but what is lacking is a trial of aldosterone blockade in patients with mild, symptomatic heart failure as such. The strongest argument for ARBs is that the CHARM (Candesartan in Heart Failure: Assessment of Reduction in Mortality and Morbidity) Added trial result was positive in the precise patient population of interest (mild, symptomatic heart failure). The strength of this argument is diminished by the somewhat different results in Val-HeFT (Valsartan Heart Failure Trial). A third possibility is to use neither an ARB nor an aldosterone blocker and arguments can be marshalled for this position also. Clinicians should now assess these various arguments to select what they believe would be best for their patients.
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PMID:Angiotensin blockade or aldosterone blockade as the third neuroendocrine-blocking drug in mild but symptomatic heart failure patients. 1633 14

In recent years understanding of the role of aldosterone has expanded beyond the known classic effects of promoting renal sodium retention and potassium and magnesium loss. It is now well documented that aldosterone causes myocardial and perivascular fibrosis, blocks the myocardial uptake of norepinephrine, and increases plasminogen activator inhibitor levels. In conjunction with angiotensin II, aldosterone causes vascular damage, endothelial dysfunction, and decreased vascular compliance. Therefore, the renin-angiotensin-aldosterone system (RAAS) plays a major role in the development of both hypertension and heart failure and is therefore, a key target for therapeutic interventions. Commonly prescribed medications for control of hypertension and congestive heart failure are inhibitors of the RAAS, including angiotensin converting enzyme inhibitors (ACE-I) and Angiotensin II (A-II) receptor antagonists. There is a well-documented increase in aldosterone levels that occurs over several months during chronic treatment with an ACE-I or A-II receptor antagonist. Such suppression of circulating aldosterone however, is transient, as exemplified by the term "escape" used to describe the phenomenon. This rebound of aldosterone even occurs when patients receive both an ACE-I and A-II receptor antagonist. In addition, ACE-I and A-II receptor antagonists are less effective in controlling BP in the estimated 60% of hypertensive patients who are salt (volume) sensitive and more prone to hypertension-associated morbidity such as black patients and type 2 diabetics. Thus chronic and complete blockade of aldosterone action requires an aldosterone receptor antagonist. The "Randomized Aldactone Evaluation Study" (RALES) trial results in patients with severe heart failure NYHA class III or IV and a left ventricular ejection fraction of no more than 35 percent showed that administration of a sub-hemodynamic dose of spironolactone (25 mg a day) as an add on therapy to ACE-I plus standard treatment resulted in a significant mortality reduction due both to decreased death from progressive heart failure and sudden cardiac death. These findings support the pivotal role of aldosterone in the pathophysiology of progressive heart failure. Although it is an effective antialdosterone agent, widespread use of spironolactone in humans is limited by its tendency to produce undesirable sexual side effects. At standard doses, impotence and gynaecomastia can be induced in men, whereas pre-menopausal women may experience menstrual disturbances. Data on a selective aldosterone receptor antagonist, eplerenone, appear promising for the effective blockade of aldosterone and its harmful effects without the sexual disturbances of spironolactone. Recently Eplerenone was successfully introduced for the treatment of hypertension and heart failure. Growing number of experimental studies are finding a broader role for Aldosterone in driving the pathophysiology of both heart failure and hypertension. When added to conventional therapy aldosterone receptor blockers show benefits which are in addition to those conferred by ACE-I and/or AII receptor blockers.
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PMID:Cardioprotection by aldosterone receptor antagonism in heart failure. Part I. The role of aldosterone in heart failure. 1636 59

Left ventricular systolic dysfunction (LVSD) and clinical heart failure are common complications of acute myocardial infarction (AMI) and result in substantially increased mortality and morbidity. Evidence-based cardiovascular protective therapies, including angiotensin-converting enzyme inhibitors, beta blockers, antiplatelet agents, and lipid-lowering medications, improve outcomes for these patients. However, this population is significantly undertreated with these guideline-recommended agents. Critical pathways have been demonstrated to improve the quality and consistency of treatment; as such, the new American College of Cardiology/American Heart Association (ACC/AHA) guidelines for the management of patients with ST-elevation myocardial infarction (STEMI) recommend that critical pathways be implemented for the management of these patients. The recent Eplerenone Post-acute Myocardial Infarction Heart Failure Efficacy and Survival Study (EPHESUS) demonstrates that eplerenone, a selective aldosterone blocker, has incremental benefit in decreasing mortality and morbidity when used with standard care therapies in patients post AMI with heart failure and LVSD. The clinical trial evidence coupled with the national guidelines provides a strong rationale for routine incorporation of aldosterone blockade into new or already established critical pathways for AMI complicated by LVSD and heart failure.
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PMID:Hospital protocols and evidence-based therapies: the importance of integrating aldosterone blockade into the management of patients with post-acute myocardial infarction heart failure. 1647 70

Mineralocorticoid receptor antagonism with eplerenone reduces mortality in heart failure, possibly because of blockade of the deleterious effects of aldosterone. To investigate these effects, rat Langendorff hearts were exposed to aldosterone and/or eplerenone. Under normal conditions, aldosterone increased left ventricular pressure and decreased coronary flow. Eplerenone did not block these effects. Eplerenone reduced infarct size (from 68+/-2% to 53+/-4%; P<0.05) and increased left ventricular pressure recovery (from 44+/-2% to 60+/-5%; P<0.05) after 45 minutes of coronary artery occlusion and 3 hours of reperfusion, whereas aldosterone did not affect these parameters. To verify the origin of cardiac aldosterone, hearts were perfused with 3 to 30 nmol/L aldosterone and either frozen immediately or exposed to washout. Without washout, cardiac aldosterone was 1.5 times aldosterone in coronary effluent (CE), that is, too high to be explained on the basis of its presence in extracellular fluid. The cardiac levels of aldosterone correlated with its CE levels (r=0.81; P<0.01), and both were unaffected by eplerenone. During washout, tissue aldosterone disappeared monophasically (half life, 9+/-1 minutes), and CE aldosterone disappeared biphasically (half life 1+/-0 and 8+/-1 minutes, respectively). During buffer perfusion, cardiac aldosterone was at or below the detection limit. In conclusion, eplerenone improves the condition of the heart after ischemia and reperfusion. This does not relate to interference with the inotropic and vasoconstrictor effects of aldosterone. The majority of cardiac aldosterone, if not all, is derived from the circulation. The rapid, mineralocorticoid receptor-independent kinetics of aldosterone suggest that its accumulation in the heart involves cell surface binding rather than internalization.
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PMID:Cardioprotective effects of eplerenone in the rat heart: interaction with locally synthesized or blood-derived aldosterone? 1649 Aug 40

Chronic elevation of plasma aldosterone contributes to heart failure. Mineralocorticoid receptor (MR) antagonism is cardioprotective in such a setting, but whether such protection occurs in the presence of low-aldosterone concentrations remains unclear. We investigated whether MR blockade attenuates cardiac hypertrophy and failure in rats with salt-sensitive hypertension. Dahl salt-sensitive (DS) rats fed a high-salt diet from 7 weeks develop concentric left ventricular (LV) hypertrophy secondary to hypertension at 12 weeks followed by heart failure at 19 weeks (DS-CHF). DS rats on such a diet were treated with a non-antihypertensive dose of the selective MR antagonist eplerenone from 12 to 19 weeks. Renin activity and aldosterone concentration in plasma were decreased in DS-CHF rats compared with controls. LV hypertrophy and fibrosis, as well as macrophage infiltration around coronary vessels, were apparent in DS-CHF rats. The amounts of mRNAs for 11beta-hydroxysteroid dehydrogenase type 1, MR, monocyte chemoattractant protein 1, and osteopontin were increased in these hearts. Treatment of DS-CHF rats with eplerenone inhibited these changes in gene expression, as well as coronary vascular inflammation and heart failure. Eplerenone attenuated both the decrease in the ratio of reduced to oxidized glutathione and the increase in NADPH oxidase activity apparent in DS-CHF rat hearts. MR blockade with eplerenone thus resulted in attenuation of LV hypertrophy and failure, without an antihypertensive effect, in rats with low-aldosterone hypertension. The beneficial cardiac effects of eplerenone are likely attributable, at least in part, to attenuation of myocardial oxidative stress and coronary vascular inflammation induced by glucocorticoid-activated MRs.
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PMID:Mineralocorticoid receptor antagonism attenuates cardiac hypertrophy and failure in low-aldosterone hypertensive rats. 1650 9

Aldosterone may play a pivotal role in the pathophysiology of heart failure. To elucidate the beneficial cardioprotective mechanism of eplerenone, a novel selective aldosterone blocker, we hypothesized that eplerenone stimulates endothelial NO synthase (eNOS) through Akt and inhibits inducible NO synthase (iNOS) via nuclear factor kappaB (NF-kappaB) after the development of oxidative stress and activation of the lectin-like, oxidized, low-density lipoprotein receptor 1 (LOX-1) pathway in Dahl salt-sensitive rats with heart failure. Eplerenone (10, 30, and 100 mg/kg per day) was given from the age of the left ventricular hypertrophy stage (11 weeks) to the failing stage (18 weeks) for 7 weeks. The left ventricular end-systolic pressure-volume relationship was evaluated using a conductance catheter. Decreased percentage of fractional shortening by echocardiography and end-systolic pressure-volume relationship in failing rats was significantly ameliorated by eplerenone. Downregulated eNOS expression, eNOS and Akt phosphorylation, and NOS activity in failing rats were increased by eplerenone. Upregulated expression of the mineralocorticoid receptor aldosterone synthase (CYP11B2); NAD(P)H oxidase p22phox, p47phox, gp91phox, iNOS, and LOX-1; and activated p65 NF-kappaB, protein kinase CbetaII, c-Src, p44/p42 extracellular signal-regulated kinase, and p70S6 kinase phosphorylation were inhibited by eplerenone. Eplerenone administration resulted in significant improvement of cardiac function and remodeling and upregulation of sarcoplasmic reticulum Ca(2+)-ATPase expression. These findings suggest that eplerenone may have significant therapeutic potential for heart failure, and these cardioprotective mechanisms of eplerenone may be mediated in part by stimulating eNOS through Akt and inhibiting iNOS via NF-kappaB after activation of the oxidative stress-LOX-1 pathway and signal transduction pathway.
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PMID:Cardioprotective mechanisms of eplerenone on cardiac performance and remodeling in failing rat hearts. 1650 12

(1) Heart failure is diagnosed on the basis of both clinical symptoms and evaluation of cardiac function (preferably measured by echocardiography). Left ventricular dysfunction is defined as a left ventricular ejection fraction (LVEF) below 40%. The drugs of choice for chronic heart failure are certain angiotensin-converting-enzyme (ACE) inhibitors, some diuretics, some betablockers, and spironolactone. In one trial, spironolactone greatly reduced mortality at 24 months (35%, compared with 46% on placebo, p <0.001). (2) Eplerenone, a spironolactone derivative, is marketed for the treatment of left ventricular dysfunction in heart failure patients with recent myocardial infarction. (3) The EPHESUS study, a double-blind, placebo-controlled trial involving 6632 patients, showed a significant reduction in the overall mortality rate among patients with heart failure and recent myocardial infarction treated with eplerenone for 16 months (16.7% versus 14.4%; p = 0.008). This improvement was mainly due to a reduction in mortality during the first month of treatment. Eplerenone has not been compared with spironolactone, although the latter was known to be effective before the EPHESUS trial was conducted. (4) Severe hyperkalemia is frequent with eplerenone, occurring in 5.5% of patients. The risk of hyperkalaemia increases with renal failure and co-administration of potassium-sparing diuretics, ACE inhibitors, angiotensin II receptor antagonists and nonsteroidal antiinflammatory drugs. (5) In the short term, the incidence of gynecomastia in patients taking eplerenone seems to be low. (6) In patients who develop heart failure after myocardial infarction, an indirect comparison of available data favours spironolactone over eplerenone (better efficacy, lower risk of hyperkalemia). (7) In France, treatment with eplerenone is about 9 times more expensive than spironolactone. (8) Spironolactone remains the treatment of choice for patients with heart failure and incapacitating dyspnea despite ACE inhibitor and diuretic therapy. Eplerenone may possibly be useful for patients who have non severe heart failure after recent myocardial infarction.
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PMID:Eplerenone: new drug. Recent myocardial infarction with heart failure: a spironolactone me too. 1660 28

Aldosterone is a mineralocorticoid primarily produced in the zona glomerulosa of the adrenal gland. For many years, aldosterone (Aldo) was thought to have its sole site of action in the kidney, where it regulated sodium excretion and potassium reabsorption. It is now known that Aldo is produced in cardiovascular tissues, and has been implicated in the development of ventricular hypertrophy and cardiac fibrosis. The precise mechanisms whereby Aldo acts in cardiac tissues are diverse. It was assumed that Aldo production could be limited by angiotensin-converting enzyme (ACE) inhibition, but serial measurements during therapy reveal only a transient decrease in Aldo levels. Moreover, the effects of Aldo on cardiac tissues occur even when angiotensin II (Ang II) has been suppressed or eliminated. Multiple investigators have examined effects of Aldo receptor blockade in human subjects and various animal models using the two Aldo receptor antagonists (ARAs), spironolactone and eplerenone. Major clinical trials involving spironolactone (RALES) and eplerenone (EPHESUS) ARAs have shown significant benefits in the treatment of congestive heart failure (CHF). In RALES, patients with New York Heart Association (NYHA) Class III or IV systolic heart failure treated with spironolactone had a 30% relative risk decrease in mortality. Although spironolactone is an effective competitive inhibitor of the mineralocorticoid receptor (MR), progestational and antiandrogenic side effects limit its use in some patients. Eplerenone, a more selective ARA, lacks these undesirable side effects. Although eplerenone is 20-fold less potent at the MR, it demonstrates efficacy similar to spironolactone, possibly due to decreased protein binding. Eplerenone has fewer side effects than spironolactone, which has been attributed to the low cross-reactivity with androgen and progesterone receptors. In EPHESUS, patients with left ventricular systolic dysfunction [Ejection Fraction (EF) <40%] and CHF following an acute myocardial infarction (AMI), were treated with eplerenone, resulting in a 17% reduction in cardiovascular mortality. However, these studies were limited in that diastolic function was not evaluated, although approximately 1/2 of CHF is due to diastolic dysfunction alone. To date, neither ARA has been studied for the treatment of diastolic dysfunction in a major clinical trial. However, numerous animal studies employing ARAs have shown a decrease in cardiac hypertrophy and fibrosis, indicating the potential benefits of these agents in the treatment of diastolic heart failure. In this review, we discuss possible underlying mechanisms responsible for Aldo effects on cardiovascular function and compare the beneficial effects of spironolactone and eplerenone in the treatment of heart disease.
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PMID:Aldosterone receptor antagonists and cardiovascular disease: do we need a change of the guard? 1661 Oct 48

Although angiotensin-converting enzyme (ACE) inhibitors, angiotensin II receptor blockers (ARBs), and beta-blockers have been proved to reduce mortality in patients with heart failure post-acute myocardial infarction (AMI), studies show that these agents are consistently underused in this population. Further, morbidity and mortality remain high even when standard-of-care therapies are applied. Thus, new strategies have been sought to better counteract the maladaptive effects of neurohormonal stimulation in post-AMI heart failure. The Eplerenone Post-Acute Myocardial Infarction Heart Failure Efficacy and Survival Study (EPHESUS) demonstrated that the selective aldosterone blocker eplerenone, when used in addition to standard therapy, results in significant incremental improvements in survival and morbidity and is safe and well tolerated in this setting. Based on this, major therapeutic guidelines in the United States and Europe now strongly recommend that all eligible patients with concomitant heart failure post-AMI be treated with an aldosterone blocker in addition to an ACE inhibitor (or an ARB) and a beta-blocker. To achieve needed improvements in outcomes in this population, early and consistent initiation of these evidence-based, guideline-recommended therapies in all eligible patients is crucial.
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PMID:Improving outcomes in post-acute myocardial infarction heart failure: incorporation of aldosterone blockade into combination therapy to optimize neurohormonal blockade. 1669 32


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