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)

Clinical trials investigating traditional inotropic agents in patients with heart failure demonstrated an increased mortality rate (odds ratio 1.50; IC=0.51-3.92), high incidence of discontinuation of infusion therapy (odds ratio 0.46; IC=0.083-2.29) due to major side effects and, most of all, a limited clinical benefit (odds ratio 0.75; IC=1.42-0.08). On this background a new class of inotropic drugs, the calcium-sensitisers, have been developed. The safety and efficacy of levosimendan (Simdax) has been recently demonstrated in trials (LIDO e RUSSLAN) in patients with heart failure due to ischemic and not ischemic disease. Twenty-six patients with decompensated heart failure of different etiology have been treated with 24 hour infusion of levosimendan. In this experience the levosimendan improved the clinical status and the left ventricular ejection fraction.
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PMID:[Levosimendan in heart failure]. 1530 49

Levosimendan is a novel drug developed for treatment of decompensated heart failure. Levosimendan is a calcium sensitizer that increases contractile force of the myocardium by enhancing the sensitivity of myofilaments to calcium without increasing intracellular calcium concentration. The present study was carried out to investigate whether levosimendan induces any changes in the phosphorylation potential (ie, the balance between ATP production and consumption) in the normal heart and in the post-ischemic heart while exerting its positive inotropic effect. We show that 0.1 microM levosimendan increased the left ventricle developed pressure in the pre-ischemic and in the post ischemic hearts by 16 and 18% respectively, and the +dP/dt by 16 and 19%, respectively. At that concentration levosimendan did not cause any effect on the phosphorylation potential (1 x 10(5) M(-1) and 0.2 x 10(5) M(-1) in the pre-ischemic and post-ischemic heart, respectively) as assessed by P-NMR, although an increased beating rate (13%) and oxygen consumption (10%) was observed when adding the drug post-ischemically. Our findings are consistent with the results of a recent clinical trial (RUSSLAN), which showed that levosimendan does not induce ischemia and reduces the risk of worsening heart failure and death, in patients with left ventricular failure complicating acute myocardial infarction.
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PMID:Effect of levosimendan on balance between ATP production and consumption in isolated perfused guinea-pig heart before ischemia or after reperfusion. 1547 28

Calcium sensitizers are a new class of inotropes that share the in vitro properties of calcium sensitization and phosphodiesterase inhibition. Levosimendan is a distinct calcium sensitizer, as it stabilizes the interaction between calcium and troponin C by binding to troponin C in a calcium-dependent manner, improving inotropy without adversely affecting lusitropy. It does not exhibit clinically relevant phosphodiesterase inhibition at therapeutic concentrations. It also exerts vasodilatory effects, possibly through activation of several potassium channels and other less well characterized mechanisms. The pharmacokinetics of levosimendan are similar in healthy subjects and patients with heart failure and remain relatively unaltered by age, sex, and organ dysfunction. In preclinical and clinical studies, levosimendan exerted potent dose-dependent positive inotropic and vasodilatory activity. Unlike conventional inotropes, levosimendan is not associated with significant increases in myocardial oxygen consumption, proarrhythmia, or neurohormonal activation. The most common adverse effects are attributable to the vasodilation. Two large, double-blind, randomized trials demonstrated favorable hemodynamic effects, improved tolerability, and a possible mortality benefit over dobutamine and placebo in patients who had acute symptoms of failure and required inotropic therapy. The long-term effect on patient outcomes is being confirmed in ongoing placebo- and inotrope-controlled trials. Levosimendan appears to be an effective inodilator devoid of the detrimental effects of conventional inotropes. In the future, levosimendan may provide a promising alternative to conventional inotropes for patients with acutely decompensated heart failure.
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PMID:Levosimendan, a new calcium-sensitizing inotrope for heart failure. 1562 34

Cardiac failure is one of the leading causes of mortality in developed countries. As life expectancies of the populations of these countries grow, the number of patients suffering from cardiac insufficiency also increases. Effective treatments are being sought and recently a new class of drugs, the calcium sensitisers, was developed. These drugs cause a positive inotropic effect on cardio-myocytes by interacting directly with the contractile apparatus. Their mechanism of action is not accompanied by an increase in intracellular calcium concentration at therapeutic doses, as seen for the older generation of positive inotropic drugs, and thus does not induce calcium-related deleterious effects such as arrhythmias or apoptosis. Levosimendan is a novel calcium sensitiser which has been discovered by using cardiac troponin C (cTnC) as target protein. This drug has been proved to be a well-tolerated and effective treatment for patients with severe decompensated heart failure. This review describes the basic principles of muscle contraction, the main components of the contractile apparatus and their roles in the heart contraction. The regulatory proteins troponin C (cTnC), troponin I (cTnI), troponin T (cTnT), and tropomyosin (Tm) and their interactions are discussed in details. The concept of calcium sensitisation is thereafter explained and a few examples of calcium sensitisers and their putative mechanisms are discussed. Finally, the binding of levosimendan to cTnC and its mechanism of action are described and the results discussed under the light of the action of this drug in vitro and in vivo.
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PMID:The contractile apparatus as a target for drugs against heart failure: interaction of levosimendan, a calcium sensitiser, with cardiac troponin c. 1564 30

Levosimendan is a new calcium sensitizer developed for the treatment of congestive heart failure. Experimental studies indicate that levosimendan increases myocardial contractility and dilates both the peripheral and coronary vessels. Its positive inotropic effect is based on calcium-dependent binding of the drug to cardiac troponin C. It also acts as an opener of ATP-dependent potassium channels in vascular smooth muscle, thus inducing vasodilation. Although levosimendan acts preferentially as a calcium sensitizer it has also demonstrated selective phosphodiesterase III inhibitory effects in vitro. However, this selective inhibition does not seem to contribute to the positive action at pharmacologically relevant concentrations. Levosimendan has an active metabolite, OR-1896. Similarly to levosimendan, the metabolite exerts its positive inotropic and vasodilatory effects on myocardium and vasculature. The elimination half-life of levosimendan is about 1 hour. Thus, with intravenous administration, the parent drug rapidly disappears from the circulation after the infusion is stopped. The active metabolite, however, has a half-life of approximately 80 hours, and can be detected in circulation up to 2 weeks after stopping a 24-hour infusion of levosimendan. The intravenous formulation of levosimendan has been studied in several randomized comparative studies in patients with decompensated heart failure. Both patients with ischemic and non-ischemic etiology have participated in the studies. Levosimendan produces significant, dose-dependent increases in cardiac output, stroke volume and heart rate, and decreases in PCWP, mean blood pressure, mean pulmonary artery pressure, mean right atrial pressure and total peripheral resistance. With a loading dose, the effects on PCWP and cardiac ouput are seen within few minutes. There is no sign of development of tolerance even with a prolonged infusion up to 48 hours. Cardiac performance is improved with no significant increases in oxygen consumption or potentially malignant rhythm disorders. Due to the formation of an active metabolite, the hemodynamic effects are maintained up to several days after stopping levosimendan infusion. Compared to dobutamine, levosimendan produces similar increase in cardiac output but profoundly greater decrease in pulmonary capillary wedge pressure. On the contrary to dobutamine, the hemodynamic effects are not attenuated with concomitant beta-blocker use. Levosimendan has been shown to have favourable effects on symptoms of heart failure superior to placebo and at least comparable to dobutamine. Mortality and morbidity in levosimendan treated patients has been shown to be significantly lower when compared to dobutamine or placebo treated patients. The most common adverse events associated with levosimendan treatment are headache and hypotension, as a likely consequence of the vasodilating properties of the compound. In conclusion, levosimendan offers a new effective option for the treatment of acutely decompensated heart failure. Unlike traditional inotropes, levosimendan seems also to be safe in terms of morbidity and mortality.
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PMID:Levosimendan: a new inodilatory drug for the treatment of decompensated heart failure. 1572 64

Acute decompensation of chronic heart failure is a direct life-threatening situation with short-term mortality approaching 30%. A number of maladaptive changes are amplified within the cardiovascular system during the progression of chronic heart failure that makes the decompensation phase difficult to handle. Levosimendan is a new Ca2+-sensitizer for the treatment of acutely decompensated heart failure that has proved to be effective during the decompensation of chronic heart failure and acute myocardial infarction. Levosimendan differs from other cardiotonic agents that are used for acute heart failure in that it utilizes a unique dual mechanism of action: Ca2+-sensitization through binding to troponin C in the myocardium, and the opening of ATP-sensitive K+ channels in vascular smooth muscle. In general, these mechanisms evoke positive inotropy and vasodilation. Clinical studies suggested long-term benefits on mortality following short-term administration. It may, therefore, be inferred that levosimendan has additional effects on the cardiovascular system that are responsible for the prolongation of survival. Results of preclinical and clinical investigations suggest that the combination of levosimendan-induced cardiac and vascular changes has favorable effects on the coronary, pulmonary and peripheral circulations. Redistribution of the circulating blood offers an improved hemodynamic context for the development of a positive inotropic effect through Ca2+-sensitization of the contractile filaments, without a proportionate increase in myocardial oxygen consumption or the development of arrhythmias. Activation of ATP-sensitive K+ channels, both on sarcolemma and mitochondria, may protect against myocardial ischemia, and decreased levels of cytokines may prevent the development of further myocardial remodeling. Collectively, these effects of levosimendan shift the disturbed cardiovascular parameters towards normalization, thereby halting the perpetuation of the vicious cycle of heart failure progression. This may contribute to stabilization of the circulation and improved life expectancy of patients with chronic heart failure.
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PMID:Pharmacological mechanisms contributing to the clinical efficacy of levosimendan. 1586 49

Recent experimental and clinical observations indicate that over-expression of pro-inflammatory cytokines is actively implicated to chronic heart failure progression through their cytotoxic and negative inotropic effects. Calcium-sensitizing agents, such as levosimendan, promotes inotropy by stabilizing troponin C in a configuration that enhances the calcium sensitivity of cardiac myofilaments, preserving also diastolic relaxation. Levosimendan also opens ATP-dependent potassium channels in peripheral vessels, leading to vasodilatation. Large scale randomized clinical trials have shown that levosimendan administration in patients with severe heart failure due to left ventricular systolic dysfunction results in favorable hemodynamic changes, symptomatic benefit, and a reduction in short-term morbidity and mortality. This review describes current knowledge about novel cellular mechanisms associated with beneficial effects of levosimendan on cardiac contractile performance, focusing mainly on its immunomodulatory and anti-apoptotic properties. Levosimendan-induced improvement in contractile reserve and clinical status of severe heart failure patients, seems to be related with the reduction of major pro-inflammatory cytokines (TNF-alpha, IL-6) and soluble apoptosis signaling molecules Fas/Fas Ligand. Modulation of pro-inflammatory and pro-apoptotic pathways into the failing heart by levosimendan may be an additional pathophysiologic mechanism that prevents further clinical and hemodynamic consequences of abnormal immune responses in decompensated heart failure and beneficially affects the progression of the syndrome.
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PMID:Anti-inflammatory and anti-apoptotic effects of levosimendan in decompensated heart failure: a novel mechanism of drug-induced improvement in contractile performance of the failing heart. 1597 88

Levosimendan is the first available drug of a new class of agents called calcium sensitizers. It increases cardiac contractility without increasing myocardial oxygen consumption. This new molecule has no proarrhythmic effects and has anti-ischemic properties. Levosimendan is infused over a 24-hour period and its hemodynamic effects, similar or superior to those of catecholamines, persist during one week. In a selected group of advanced heart failure patients levosimendan was associated with a mortality reduction at 14 days and at 6 months in comparison with dobutamine. In spite of its cost, this new inotropic agent appears very promising and it is expected that it will be widely used.
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PMID:[Levosimendan, a revolution in the world of inotropic agents?]. 1599 81

Levosimendan is a new inodilator. Its mechanism of action includes calcium sensitization of contractile proteins and the opening of adenosine triphosphate-dependent K channels. The combination of positive inotropy with anti-ischemic effects of K-channel opening offers potential benefits in comparison with currently available intravenous inotropes, which are contraindicated in patients with ongoing myocardial ischemia. Levosimendan has been extensively studied in various animal models of heart failure, in which the drug has increased contractility without adverse effects on diastolic function. These results have been repeated in patients with heart failure, in whom levosimendan dose-dependently increases cardiac output and reduces pulmonary capillary wedge pressure. The active metabolite of levosimendan (OR-1896) significantly prolongs the duration of the hemodynamic effects of the therapeutic 24-hour levosimendan infusion. Levosimendan has been studied in two major trials with decompensated patients (LIDO and RUSSLAN), in which it showed outcome benefits in comparison with dobutamine and placebo, respectively. A third comparative study (CASINO) recently suggested mortality benefits with levosimendan over placebo and dobutamine. Currently, two large prospective trials (SURVIVE and REVIVE) in patients who are hospitalized because of worsening heart failure are underway. These trials will conclusively prove whether levosimendan should be added to the standard treatment in patients who are hospitalized because of cardiac decompensation.
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PMID:Levosimendan: a calcium-sensitizing agent for the treatment of patients with decompensated heart failure. 1603 37

Heart failure is a very common clinical pathology. The treatment of heart failure is expensive; therefore, it is a large burden on the health care system in the world. Despite many recent advances in heart failure therapy, the prognosis remains poor. Levosimendan is a novel inotropic vasodilator agent. This drug induces enhanced contractility mainly via its calcium sensitizing actions. Levosimendan does not increase myocardial oxygen demand and also reduces significantly systemic vascular resistance, pulmonary artery pressure, and pulmonary vascular resistance. It causes venous, arterial, and coronary vasodilation. The drug is not proarrhythmic, has anti-ischemic and anti-stunning effects. It is well-tolerated drug for the treatment of cardiac failure. This review article discusses mechanism of action of levosimendan, its pharmacokinetics and metabolism, hemodynamic studies with this drug, effects on morbidity and mortality, therapeutic indication for its use, contraindications, special warnings and precautions for use, interactions with others medical products, undesirable effects of levosimendan.
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PMID:[The novelty in the treatment of heart failure]. 1606 32


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