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)

The use of nitrates for treatment of heart failure is encumbered by tolerance, caused by whatever mechanism, which has been reported only in a few instances with sydnonimines. Accordingly, we compared molsidomine (6 mg/h) and isosorbide-5-mononitrate (3.75 mg/h) with respect to maximal hemodynamic effects, rapidity and extent of attenuation, and underlying mechanisms by means of constant infusions over 24 h each in 15 patients with chronic congestive heart failure (NYHA II-III) with a placebo-controlled, double-blind, randomized, crossover protocol. Hemodynamic measurements and determinations of neurohormones were performed at baseline and at 2, 8, and 24 h after the beginning of infusions. With molsidomine, reductions of diastolic pulmonary artery pressure by 29% (p < 0.001), by 24% (p < 0.01), and by 24% (p < 0.01) versus placebo were found at 2, 8, and 24 h, which amounted to 19% (p < 0.01), 10% (NS), and 14% (NS) with the nitrate. Cardiac output was meaningfully affected only with molsidomine (+5%, NS, at 2 h; +9%, p < 0.05, at 8 h; and +15%, p < 0.05, at 24 h), as was systemic vascular resistance (-13%, p < 0.05; -9%, NS; and -18%, p < 0.01) at the corresponding times. Increases in renin activity amounted to 130% (p < 0.001), 117% (p < 0.001), and 112% (p < 0.001) with molsidomine, and to 14, 16%, and 0 (each NS) with the nitrate at the corresponding times. Hematocrit was reduced by 5% (p < 0.001), 7% (p < 0.001), and 12% (p < 0.01) with molsidomine and by 5% (NS), 5% (p < 0.05), and 5% (NS) with the nitrate. We conclude that neurohumoral counterregulation or fluid shift, which is even more pronounced with molsidomine despite longer-lasting effects, has no essential role in nitrate-tolerance development. With molsidomine, such a role cannot be ruled out, although alternatively, a fluid shift from arterial to the low-pressure arm of circulation during the later course of infusion would be even more likely.
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PMID:Infusions with molsidomine and isosorbide-5-mononitrate in congestive heart failure: mechanisms underlying attenuation of effects. 947 62

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

Nitric oxide (NO) is a free radical gas and a short-lived messenger which has many paracrine functions. Direct assessment of NO production is very difficult in vivo. However, the paranasal cavities generate a high amount of NO which diffuses in the nasal cavity where it can be easily measured. Several studies have suggested alterations of the NO production in heart failure. Thus, we assessed nasal NO concentration in normal subjects and in heart failure patients. The nasal NO concentration averaged 227 +/- 10 ppb in the control group (n = 20), and 210 +/- 10, 198 +/- 20 and 159 +/- 54 ppb in New York Heart Association (NYHA) class II (n = 30), III (n = 28) and IV (n = 7) patients, respectively (mean +/- standard error [SE], not significant using analysis of variance [ANOVA]). Nasal NO level was not influenced by age, sex or etiology of the heart failure or by treatment with frusemide, angiotensin-converting enzyme inhibitor or digoxin. However, treatment with NO-releasing drugs (nitrates or molsidomine) significantly decreased the nasal NO level in heart failure patients. A two-way ANOVA revealed that treatment with a NO-releasing drug influenced nasal NO concentration (P = 0.0005), whereas NYHA class did not (P = 0.23), with a trend towards an interaction between the two parameters (P = 0.09): the inhibitory effect of NO-releasing drug on nasal NO concentration was more pronounced in severe heart failure. In an additional group of 12 patients (NYHA class II or III), the nasal NO concentration was 174 +/- 19 ppb during NO-releasing drug treatment and increased to 231 +/- 27 ppb 3 days after withdrawal of the nitrates (P = 0.0007 using paired t-test). Conversely, the nasal NO concentration in another group of seven patients (NYHA class II or III) was 219 +/- 32 ppb without nitrate treatment and decreased to 188 +/- 28 ppb 7 days after nitrate addition (P = 0.02 using paired t-test). In contrast, the nasal NO concentration in another group of ten ischemic patients without heart failure was 203 +/- 25 ppb without nitrate treatment and was similar (207 +/- 28 ppb) 7 days after nitrate addition (not significant using paired t-test). In conclusion, nasal NO production is normal in heart failure, except in patients receiving NO-releasing drugs. Nasal NO concentration could be useful for investigating the mechanism(s) by which exogenous NO donors decrease endogenous NO production.
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PMID:Nasal nitric oxide concentration is decreased in heart failure patients receiving nitrates. 952 91

Nitric oxide (NO) plays a role in controlling vascular tone and regulates the contractile properties of cardiac myocytes. Patients with heart failure exhibit high plasma levels of nitrite/nitrate (NOx), a stable metabolite of NO, and of cytokines such as tumor necrosis factor-alpha, a potent inducer of NO synthase. An increase in inducible NO synthase activity has been found in cardiac tissue from patients with dilated cardiomyopathy. These findings raise the possibility that local or systemic overproduction of NO induced by cytokines exerts a chronic negative inotropic effect on the myocardium and may have detrimental effects on systemic hemodynamics in patients with heart failure. Plasma levels of NG,NG-dimethylarginine (asymmetric dimethylarginine; ADMA), a circulating endogenous NO synthase inhibitor, were measured in control subjects and patients with valvular, hypertensive, or ischemic heart diseases or idiopathic cardiomyopathy. The plasma levels of NOx and ADMA were assessed by high performance liquid chromatography. The plasma levels of NOx and ADMA were significantly elevated in patients with heart failure. Both NOx and ADMA were positively correlated with New York Heart Association functional class. There was a significant inverse correlation between plasma NOx and ejection fraction, as estimated by echocardiography. A significant relationship between plasma NOx and ADMA was found only in patients with moderate to severe heart failure (r=0.41, p=0.01). Findings suggest a compensatory role of a circulating endogenous NO synthase inhibitor against induced NO synthase activity in patients with heart failure.
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PMID:Increased endogenous nitric oxide synthase inhibitor in patients with congestive heart failure. 965 Nov 9

In long-term, 1-year follow-up, uptitration of angiotensin-converting enzyme inhibitor and nitrate therapy over established doses can further improve severe functional mitral regurgitation in patients with dilated cardiomyopathy due to a reversal of heart failure-related left ventricular remodeling. With marked left ventricular enlargement, >6.8 cm end-diastolic diameter, heart failure remodeling may be irreversible and resistant to further medical intervention.
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PMID:Effects of high-dose lisinopril-isosorbide dinitrate on severe mitral regurgitation and heart failure remodeling. 983 15

The management of cardiac failure due to diastolic dysfunction is not well codified and is often empirical. It has three objectives: improving the physiopathological components of ventricular filling, treating the associated aggravating pathological conditions, and treating the basic cause of the dysfunction. Symptomatic treatment aims to reduce venous congestion (by diuretics or nitrate derivatives), to prolong the diastolic period by slowing the heart rate (by betablockers, bradycardising calcium antagonists or digitalis in cases of irreducible atrial fibrillation), to improve passive ventricular distensibility by an effect on remodelling (by angiotensin converting enzyme inhibitors or anti-aldosterone diuretics). The treatment of associated pathological conditions is particularly important. It is essential to maintain or reestablish an effective atrial systole by cardioversion and anti-arrhythmic drugs in atrial fibrillation, by dual chamber pacing in cases of atrioventricular asynchrony due to atrioventricular block. Treatment of the underlying cause aims to induce regression of ventricular hypertrophy of hypertensive origin by using antihypertensive drugs with this property. In coronary artery disease, the choice is determined by the clinical context because nearly all anti-anginal or interventional treatments may improve ischaemic diastolic dysfunction. The same applies in hypertrophic cardiomyopathy because most types of treatment (betablockers, verapamil, cardiac pacing, surgery) may improve diastolic function. Finally, in valvular aortic stenosis, aortic valve replacement restores normal diastolic function.
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PMID:[Diastolic cardiac failure: therapeutic modalities]. 986 5

We performed experiments to test the hypothesis that experimental heart failure (HF) is associated with altered nitric oxide (NO)-dependent influences on the renal microvasculature, including diminished modulation of constrictor responses to ANG II. Eight to ten weeks after inducing HF in rats by coronary artery ligation, we administered enalaprilat to suppress ANG II synthesis and studied renal arteriolar function using the in vitro blood-perfused juxtamedullary nephron technique. In kidneys from sham-operated rats, NO synthase inhibition [100 microM Nomega-nitro-L-arginine (L-NNA)] reduced afferent arteriolar diameter by 4.1 +/- 0.6 microm and enhanced ANG II responsiveness (10 nM ANG II decreased afferent diameter by 10.1 +/- 1.4 micrometer before and 12.8 +/- 1.6 micrometer during L-NNA treatment; P < 0.05). In kidneys from HF rats, L-NNA did not alter afferent arteriolar baseline diameter or ANG II responsiveness (10 nM ANG II decreased diameter by 12.5 +/- 1.5 micrometer before and 12.5 +/- 2.3 micrometer during L-NNA). The effects of L-NNA on efferent arteriolar function were also abated in HF rats. In renal cortex of HF rats, NO synthase activity was decreased by 63% and superoxide dismutase activity was diminished by 39% relative to tissue from sham-operated rats. Urinary nitrate/nitrite excretion was also reduced in HF rats. Thus both diminished synthesis and augmented degradation are likely to contribute to a decreased renal microvascular impact of endogenous NO during chronic HF, the consequences of which include loss of NO-dependent modulation of ANG II-induced vasoconstriction.
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PMID:Suppressed impact of nitric oxide on renal arteriolar function in rats with chronic heart failure. 988 83

The pharmacologic profiles of nicorandil in the cardiovascular system have been characterized by K-channel opening and nitrate activities. However, the effects of nicorandil on acute heart failure have yet to be elucidated. To investigate the effects of nicorandil under such pathophysiologic conditions, we administered nicorandil intravenously to dogs with acute ischemic heart failure induced by coronary embolization and compared the results with those induced by cromakalim and nitroglycerin. The heart failure in this experiment was demonstrated by a reduction of mean blood pressure (MBP) from 143+/-3 to 129+/-2 mm Hg (p < 0.01); cardiac output (CO) from 2.18+/-0.10 to 1.06+/-0.05 L/min (p < 0.01); stroke volume (SV) from 12.7+/-0.6 to 6.8+/-0.3 ml/min (p < 0.01); Vmax, an index of the contractility of the left ventricle, from 105.5+/-4.4 to 49.9+/-1.8 1/s (p < 0.01), and an increase in right atrial pressure (RAP) from 2.9+/-0.3 to 5.3+/-0.3 mm Hg (p < 0.01); left ventricular end-diastolic pressure (LVEDP) from 2.5+/-0.4 to 26.0+/-1.4 mm Hg (p < 0.01); and T, time constant of left ventricular relaxation, from 38.3+/-0.8 to 62.4+/-2.8 ms (p < 0.01). Furthermore, plasma renin activity (PRA) and plasma atrial natriuretic peptide (ANP) increased (from 1.72+/-0.29 to 5.03+/-0.68 ng AngI/ml/h, p < 0.01; from 103.9+/-5.8 to 411.5+/-29.4 pg/ml, p < 0.01, respectively), whereas brain natriuretic peptide (BNP) remained unchanged (from 23.1+/-2.2 to 26.9+/-1.4 pg/ml). Nicorandil (10-40 microg/kg/min, i.v. infusion for 20 min for each dosing) or cromakalim (0.25-1 microg/kg/min) decreased MBP, systemic vascular resistance (SVR), RAP, and LVEDP, and increased CO, SV, and Vmax. However, the reduction of RAP in cromakalim was significantly smaller than those of nicorandil and nitroglycerin in comparison at similar hypotensive doses. Nitroglycerin (2.5-10 microg/kg/min) decreased MBP, RAP, and LVEDP, and increased Vmax but did not change CO or SV. Increased plasma ANP levels, an index of cardiac filling pressure after induction of acute ischemic heart failure, were decreased significantly by cromakalim and tended to decrease by nicorandil or nitroglycerin. Plasma BNP levels and PRA were not influenced by any of these drugs. These results suggest that nicorandil produces the reduction of both preload and afterload followed by an improvement of cardiac contractility in this model. The increase in CO may be mediated mainly by the drug's K-channel opening activities and the reduction of venous tone by its nitrate properties. Nicorandil may prove to be useful in the treatment of acute ischemic heart failure.
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PMID:Hemodynamic and hormonal responses to nicorandil in a canine model of acute ischemic heart failure: a comparison with cromakalim and nitroglycerin. 989 Apr 2

VARIABLE EFFICACY: Prognosis in patients with chronic heart failure remains poor. Certain drugs can lower mortality and improve quality of life. DRUGS WITH PROVEN EFFICACY: Converting enzyme inhibitors (CEI) have proven efficacy and should be used in all stages of heart failure outside contraindications. High-dose regimens are recommended when tolerated. Certain beta-blockers have also been added to the list of effective drugs for heart failure. Positive data have been reported for metroprolol, bisoprolol and carvedilol. Improved function has been demonstrated only with carvedilol allowing a clear reduction in mortality; it is currently indicated in combination with CEI and diuretics for patients with symptomatic heart failure. DRUGS WITH INSUFFICIENTLY PROVEN EFFICACY: Certain drugs which have been used for many years can improve heart function but data clearly proving lower mortality are lacking. These include diuretics and nitrate derivatives for symptomatic patients and digitalics which are useful not only for patients with complete arrhythmia due to atrial fibrillation but also for symptomatic patients with sinus rhythm. According to preliminary studies, aldosterone antagonists appear to have a positive effect on mortality due to heart failure. DRUGS WITH LIMITED INDICATIONS: Other drugs have been found to have no effect on mortality. Amiodarone, amlodipine and felodipine can thus be used for patients with associated diseases. Finally anticoagulant therapy should be reserved for patients with atrial fibrillation or a history of thromboembolism.
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PMID:[Drugs prescribed for chronic heart failure. Current data on their effectiveness]. 989 93

The objective of CAPITOL (Captopril Post Infarction Tolerance) multicentre open trial was to study the tolerance of a protocol of titration of Captopril in patients with recent myocardial infarction complicated by left ventricular dysfunction. Five hundred and four patients, with a mean age of 62 +/- 12 years, were included during the hospital period in the 74 participating intensive care units, 9 +/- 6 days after myocardial infarction (ejection fraction 34 +/- 6%). After a 6.25 mg test dose of Captopril, the dosage was progressively increased to the target dose of 150 mg at the end of the first month. Of the 504 patients included, 343 finished the trial and 161 stopped the trial prematurely. At the end of the hospital period, 73% received 75 mg/day: at the first follow-up visit (27 +/- 16 days after inclusion), 59% had attained 150 mg/day, this proportion increasing to 71% at the end of the trial (79 +/- 33 days after inclusion). There was no significant change in blood pressure for the whole study population. However, the systolic blood pressure of the patients receiving 150 mg/day of Captopril at the end of the trial was slightly higher than that observed at the end of the hospital period (126 +/- 17 mmHg and 116 +/- 17 mmHg respectively, p = 0.006). Severe Intercurrent events were observed in 89 patients: 24 deaths, 7 recurrent infarctions, 58 hospital admissions (21 for cardiac failure, 15 for recurrence of angina, 11 aorto-coronary bypass operations, 7 coronary angioplasties, 2 cerebro-vascular accidents, 2 systemic emboli). Of the benign complications, hypotension was observed in 25% of patients, nearly half of which occurred during the hospital admission. The drugs prescribed in association with Captopril were Aspirin (78%), betablockers (57%), nitrate derivatives (42%) and diuretics (27%). Multivariate analysis showed 3 factors associated with good tolerance of the 150 mg dosage of Captopril: Killip Class I or II on admission, an ejection fraction > 30% and an initial systolic blood pressure > 100 mmHg. In conclusion, in this trial of dose titration, 3 out of 4 patients with myocardial infarction and left ventricular dysfunction, tolerated the 150 mg/day dosage of Captopril. Patients in the trial could also be treated with drugs recommended after myocardial infarction, in particular the betablockers. Arch Mal Coeur 1999: 92: 395-403.
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PMID:[The CAPITOL study (Captopril Post Infarction Tolerance). A trial of progressive titration of captopril after myocardial infarct with left ventricular dysfunction]. 1032 47


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