UMLS:C0018801 - FACTA Search

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

Recent evidence suggests that newer vasoselective dihydropyridine calcium antagonists are not cardiodepressant and may be useful in the treatment of heart failure. No data are available on the efficacy of clentiazem, a vasoselective benzothiazepine-like calcium antagonist, in this pathological condition. Therefore, our objective was to assess coronary and cardiac sensitivity to clentiazem in an experimental model of chronic heart failure (cardiomyopathic hamster, UM-X7.1, > 200 day old). Left ventricular developed pressure (LVP) and coronary flow changes were assessed in isolated, perfused failing hearts and in normal Syrian hamster hearts. Clentiazem dose-response curves for both coronary dilation and negative inotropic effects were determined under control conditions and in the presence of the nitric oxide (NO) synthase inhibitor, NG-nitro-L-arginine (L-NAME, 30 microM), and the cyclooxygenase inhibitor, indomethacin (10 microM). Baseline hemodynamics indicate a significant reduction in both LVP and coronary perfusion in failing hearts. Cardiac sensitivity to the negative inotropic effects of clentiazem were similar in normal and failing hearts (IC50 = 677 nM and 734 nM, respectively). However, the clentiazem-induced increase in coronary flow was significantly attenuated in failing hearts (EC50 = 56 +/- 9 nM vs. 15 +/- 3 nM in normal hearts, p < 0.01). To better characterize the reduced coronary sensitivity to clentiazem in the presence of heart failure, the contributions of the NO synthase and the cyclooxygenase pathways were evaluated. Although coronary sensitivity to clentiazem was significantly reduced in the presence of L-NAME, this attenuation was of the same magnitude in normal and failing hearts, suggesting that coronary "desensitization" to clentiazem in failing hearts does not involve the NO synthase pathway. Experiments carried in the presence of indomethacin indicate that the reduced coronary sensitivity to clentiazem observed in failing hearts does not involve the cyclooxygenase pathway. In conclusion, reduced coronary sensitivity to the vasoselective calcium antagonist clentiazem was observed in the failing hamster heart, while no exacerbation of clentiazem's cardiodepressant actions was present. Although the mechanisms involved in the vascular desensitization to clentiazem are still unknown, our findings may provide an additional explanation for the variable efficacy of calcium antagonists in the treatment of heart failure.
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PMID:Coronary and cardiac sensitivity to the vasoselective benzothiazepine-like calcium antagonist, clentiazem, in experimental heart failure. 914 Jun 81

Myocarditis is thought to be commonly caused by various viruses, and accumulating evidence links viral myocarditis with the eventual development of dilated cardiomyopathy. Recently, the importance of hepatitis C virus infection was noted in patients with dilated and hypertrophic cardiomyopathy. Cytokines are being increasingly recognized as an important factor in the pathogenesis and pathophysiology of myocarditis and cardiomyopathy. Elevated levels of circulating cytokines have been reported in patients with heart failure, and various cytokines have been shown to depress myocardial contractility in vitro and in vivo. A number of reports have shown that cytokines generated by activated immune cells cause an increase in nitric oxide (NO) via induction of NO synthase. Increased generation of NO may induce negative inotropism and myocardial damage. This review discusses the etiology and pathogenesis of myocarditis and cardiomyopathy from this point of view.
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PMID:Molecular and immune mechanisms in the pathogenesis of cardiomyopathy--role of viruses, cytokines, and nitric oxide. 915 79

We have previously shown that nitric oxide (NO) release by the coronary circulation in the failing and nonfailing human heart is, in part, regulated by local kinin production in coronary microvessels. Angiotensin-converting enzyme (ACE) also known as kininase II, inactivates kinins. ACE inhibitors prevent kinin breakdown by ACE, thereby increasing the concentration of bradykinin (BK) and related kinins. The goal of this study was to determine if kinins contribute to the therapeutic action of ACE inhibitors. Six hearts from end-stage heart failure patients were harvested at the time of orthotopic cardiac transplantation. Microvessels were prepared as previously described, and nitrite production, a metabolic product of NO in vitro, was determined by the Griess reaction. Microvessels were incubated in the presence of kininogen and bradykinin, and with the ACE inhibitors ramiprilat, enalaprilat, or captopril. All caused dose-dependent increases in nitrite. For instance, ramiprilat increased nitrite from 76 +/- 5.6 to 155 +/- 15 pmol/min per mg wet weight. Nitrite production in response to ACE inhibition was blocked by N-nitro-L-arginine methyl ester (L-NAME), a NO synthase inhibitor, and icatibant (HOE 140), a B2-kinin receptor-specific antagonist. Furthermore, NO production was prevented by 3 different serine protease inhibitors, which block kallikrein, the enzyme responsible for conversion of kininogen to kinins. Our results indicate that ACE/kininase inhibitors increase NO production by the coronary microvasculature in the failing human heart, through increased available active kinins. The therapeutic action of ACE inhibition in the failing human heart may result in part from increased NO production by coronary microvessels.
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PMID:Angiotensin-converting enzyme inhibitors promote nitric oxide production in coronary microvessels from failing explanted human hearts. 929 67

Recent reports demonstrated the expression of inducible-type NO synthase in the heart of viral myocarditis. Since NO has multiple biological actions, a substantial amount of NO produced in the diseased heart may act either as a cytotoxic or as a cytoprotective molecule in the process of myocarditis. In the present study, we examined the effect of inhibition of NO synthesis on the mortality and the extent of myocardial injury in a murine model of coxsackievirus B3-induced myocarditis. We fed the infected mice drinking water containing a relatively low concentration (0.37 mmol/L) of N omega-nitro-L-arginine methyl ester (L-NAME) for 14 days after virus inoculation. This dose of L-NAME did not change virus titers in the heart. However, L-NAME-fed mice showed a significant reduction in mortality compared with those fed normal drinking water (nontreated mice). On the contrary, mice given a higher concentration of L-NAME (3.7 mmol/L) exhibited increased mortality. In addition, mice fed a low concentration of L-NAME showed reductions in the severity of heart failure and in the area of myocardial necrosis. Although systemic blood pressure was reduced in nontreated mice, in mice fed a low concentration of L-NAME, it was maintained at a level similar to that in uninfected control mice, L-NAME-treated mice also exhibited a reduction in the degree of inflammatory cell infiltration associated with decreased production of tissue prostaglandin E2 levels in the heart compared with nontreated mice. Therefore, NO is likely to be involved in the pathogenic mechanisms of myocardial injury and resultant cardiac dysfunction in a murine model of coxsackievirus B3-induced viral myocarditis.
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PMID:Low-dose N omega-nitro-L-arginine methyl ester treatment improves survival rate and decreases myocardial injury in a murine model of viral myocarditis induced by coxsackievirus B3. 931 31

Heart failure is a common problem associated with considerable mortality and morbidity. The mechanisms underlying the heart failure syndrome, which remain poorly understood, may involve an inflammatory process. Nitric oxide (NO) and various cytokines could play an important role in this inflammatory process. Recent evidence has emerged in both animal models and humans suggesting that both of these mediators may play an important role in heart failure. NO is synthesized by the NO synthase family of enzymes. Two of these enzymes are constitutive, endothelial NO synthase and neuronal NO synthase. The third enzyme, inducible NO synthase, is capable of producing large amounts of NO once induced by mediators such as interleukin (IL)-1, IL-2, IL-6, tumour necrosis factor (TNF)-alpha, and interferon-gamma. Endothelial NO synthase is present in the heart in the endocardium, cardiac myocytes, and cardiac conduction tissue. Inducible NO synthase is present in cardiac myocytes, endocardium, vascular smooth muscle cells, and infiltrating inflammatory cells. Evidence from both animal models and patients suggests that NO exerts a negative inotropic effect. Increased inducible NO synthase, TNF-alpha, and IL-6 have been found in patients with heart failure in several studies. In other studies, decreased endothelial NO synthase was found in patients with heart failure. TNF-alpha and IL-6 may be produced in heart failure and may induce inducible NO synthase, resulting in NO production, which acts as a negative inotrope. Endothelial NO synthase may be decreased as a result of downregulation by TNF-alpha or inducible NO synthase. The possible role of these mediators in heart failure needs further evaluation because these findings could have novel therapeutic implications.
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PMID:The role of nitric oxide and cytokines in heart failure. 934 18

Cytokines are being increasingly recognized as important factors in the pathogenesis and pathophysiology of heart failure. Elevated levels of circulating cytokines have been reported in patients with heart failure, and various cytokines have been shown to depress myocardial contractility in vitro and in vivo. We have recently compared the effects on cytokine production of drugs for therapy of heart failure that have different effects on survival. Amrinone, pimobendan and vesnarinone, phosphodiesterase III inhibitors that have been shown to have short term haemodynamic benefits, inhibited TNF-alpha production. Differential modulation of the production of IL-1beta and IL-6 was observed; amrinone and pimobendan enhanced the production of IL-1beta, whereas vesnarinone did not. As inotropic agents differentially modulate cytokine production, these agents may interfere with induction of inducible nitric oxide (NO) synthase through an inhibition of cytokine formation. Although differential modulation of the production of NO by inotropic agents may explain their different effect in patients with heart failure, further study is necessary to reach this conclusion. We have shown that amlodipine increases the survival of mice with viral myocarditis and inhibits expression of inducible NO synthase and production of NO in vivo and in vitro. The therapeutic effect of amlodipine may in part result from inhibition of overproduction of NO. As we learn more about the pathophysiological and pathogenetic role of cytokines in heart failure, it should be possible to design better and more targeted pharmacological agents. Furthermore, the investigation of inotropic agents that are effective against the production of cytokines may help in the classification of these agents.
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PMID:The use of cytokine inhibitors. A new therapeutic insight into heart failure. 946 76

The therapeutic effects of calcium channel blockers on heart failure are controversial. However, a recent clinical trial demonstrated a favorable effect of amlodipine on survival rates in patients with heart failure resulting from nonischemic dilated cardiomyopathy. There are a number of studies showing that cytokines generated by activated immune cells cause an increase in nitric oxide (NO) via induction of NO synthase (NOS), which results in a direct negative inotropic effect and a modulation of inotropic responsiveness. Increases in inflammatory circulating cytokines have been detected in patients with heart failure and cardiomyopathy, elevated plasma levels of nitrite/nitrate in patients with heart failure have been reported, and inducible NOS (iNOS) has been found in ventricular tissue from patients with dilated cardiomyopathy. In our recent study, amlodipine improved histopathological lesions in the heart and survival rates in a murine model of nonischemic heart failure induced by encephalomyocarditis virus. Amlodipine inhibited NO production in vitro and decreased the number of iNOS positive cells in vivo. In this model, the therapeutic effect of amlodipine on myocardial injury is considered in part to result from inhibition of overproduction of NO. In this review, the possible roles of cytokines and NO in the pathophysiology of heart failure are discussed, along with the opportunities for therapeutic intervention.
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PMID:Calcium channel blocker-induced protection against cardiovascular damage. 948 94

Recently, we have demonstrated a decreased neuronal isoform of nitric oxide synthase (nNOS) message in the hypothalamus of rats with heart failure (HF). The purpose of this study was to determine the changes in NADPH-diaphorase (a commonly used marker for neuronal NOS activity) positive neurons in specific hypothalamic sites of rats with HF. After a standard histochemical protocol, NOS positive neurons were measured in paraventricular nucleus (PVN), supraoptic nucleus (SON), median preoptic area (MePO), subfornical organ (SFO), organum vasculosum of the lamina terminalis (OVLT) and lateral hypothalamus (LH) of rats with coronary artery ligation (HF group; n=8) and sham-operated control rats (n=9). A total of 4 months after coronary ligation, the rats in the HF group displayed infarcts greater than at least 35% of the left ventricular wall (n = 8). Sham-operated rats had no observable damage to the myocardium. Rats with HF had a significantly lower number of NOS positive cells in the PVN (36% less) compared to sham rats. The number of NOS positive cells remained unaltered in the SON, MePO and LH in rats with HF. Conversely there was an increased number of NOS positive cells in the SFO (42% greater) and OVLT (100% greater). These data support the conclusion that the NO system within the hypothalamus involved in controlling autonomic outflow is altered during HF and may contribute to the elevated levels of vasopressin and sympatho-excitation commonly observed in HF.
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PMID:Altered number of diaphorase (NOS) positive neurons in the hypothalamus of rats with heart failure. 955 24

Congestive heart failure(CHF) is associated with a marked decrease in cortical blood flow and preservation of medullary blood flow. In the present study we tested the hypothesis that changes in the endothelin (ET) and nitric oxide (NO) systems in the kidney may contribute to the altered intrarenal hemodynamics in rats with aortocaval fistula, an experimental model of CHF. Cortical and medullary blood flow were measured simultaneously by laser-Doppler flowmetry in controls and rats with compensated and decompensated CHF. As previously reported [K. Gurbanov, I. Rubinstein, A. Hoffman, Z. Abassi, O. S. Better, and J. Winaver. Am. J Physiol. 271 (Renal Fluid Electrolyte Physiol. 40): F1166-F1172, 1996], administration of ET-1 in control rats produced a sustained cortical vasoconstriction and a transient medullary vasodilatory response. In rats with decompensated CHF, cortical vasoconstriction was severely blunted, whereas ET-1-induced medullary vasodilation was significantly prolonged. This prolonged response was mimicked by IRL-1620, a specific ETB agonist, and partially abolished by NO synthase (NOS) blockade. In line with these findings, expression of ET-1, ETA and ETB receptors, and endothelial NOS (eNOS), assessed by RT-PCR, and eNOS immunoreactivity, assessed by Western blotting, was significantly higher in the medulla than in the cortex. Moreover, expression of ET-1 mRNA in the cortex and eNOS mRNA in the cortex and the medulla increased in proportion to the severity of heart failure. These findings indicate that CHF is associated with altered regulation of intrarenal blood flow, which reflects alterations in expression and activity of the ET and NO systems. It is further suggested that exaggerated NO activity in the medulla contributes to preservation of medullary blood flow in the face of cortical vasoconstriction in CHF.
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PMID:Regulation of intrarenal blood flow in experimental heart failure: role of endothelin and nitric oxide. 957 2

Endogenous nitric oxide (NO) signalling pathways within the myocardium depress myocardial contractile function in septic shock and some cardiomyopathies. We have explored the role of NO synthases (NOSs) in mediating the cardiodepressant actions of interferon-gamma (IFN-gamma) and lipopolysaccaride (LPS) in rat papillary muscle. Muscles from the right ventricle were electrically stimulated (0.2 Hz) at 30 degrees C and isometric contraction monitored. Exposure to IFN-gamma and LPS for 15 h in vitro significantly decreased the peak tension (PT for IFN-gamma + LPS, from 0.13 +/- 0.03 to 0.07 +/- 0.02 g) and rate of tension development (dT/dt for IFN-gamma + LPS, from 1.78 +/- 0.36 to 1.17 +/- 0.28 g/s) compared to untreated controls, and this was prevented by dexamethasone (1 microM) and partly reversed by a non-specific NOS inhibitor, NG-nitro-L-arginine (NOLA, 30 microM). Likewise, the maximum inotropic response of the papillary muscles to isoprenaline (0.001-10 microM) decreased significantly after 15 h treatment with IFN-gamma and LPS (PT from 83 +/- 18 to 28 +/- 6%; +dT/dt from 83 +/- 12 to 31 +/- 7%; -dT/dt from 83 +/- 12 to 38 +/- 6%). Again, the depressant effects of IFN-gamma and LPS on inotropic responsiveness to isoprenaline were completely prevented by pretreatment with dexamethasone (1 microM), by a specific inhibitor of NOS2, mercaptoethylguanidine (MEG, 30 microM) and by NOLA. Whereas dexamethasone and NOLA protected against the attenuation of baseline contractions induced by LPS and IFN-gamma, MEG did not. Western blot analysis of cardiac myocytes showed that there was no constitutive expression of NOS2, but IFN-gamma and LPS induced expression of NOS2, and this was prevented by dexamethasone. Thus IFN-gamma, in the presence of LPS, reduced papillary muscle contraction and decreased responsiveness to beta-adrenoceptor stimulation through induction of NOS2 in the muscle. Increased NO production may contribute to the cardiac depression during septic shock and anti-cancer therapy with cytokines, and perhaps in heart failure.
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PMID:Cardiodepressant effects of interferon-gamma and endotoxin reversed by inhibition of NO synthase 2 in rat myocardium. 961 39

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