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)

An association between raised renin levels and myocardial infarction has been reported. We studied the effects of enalapril, an angiotensin-converting enzyme (ACE) inhibitor, on the development of myocardial infarction and unstable angina in 6797 patients with ejection fractions < or = 0.35 enrolled into the two Studies of Left Ventricular Dysfunction (SOLVD) trials. Patients were randomly assigned to placebo (n = 3401) or enalapril (n = 3396) at doses of 2.5-20 mg per day in two concurrent double-blind trials with the same protocol. Patients with heart failure entered the treatment trial (n = 2569) and those without heart failure entered the prevention trial (n = 4228). Follow-up averaged 40 months. In each trial there were significant reductions in the number of patients developing myocardial infarction (treatment trial: 158 placebo vs 127 enalapril, p < 0.02; prevention trial: 204 vs 161 p < 0.01) or unstable angina (240 vs 187 p < 0.001; 355 vs 312, p < 0.05). Combined, there were 362 placebo group patients with myocardial infarction compared with 288 in the enalapril group (risk reduction 23%, 95% CI 11-34%; p < 0.001). 595 placebo group patients developed unstable angina compared with 499 in the enalapril group (risk reduction 20%, 95% CI 9-29%, p < 0.001). There was also a reduction in cardiac deaths (711 placebo, 615 enalapril; p < 0.003), so that the reduction in the combined endpoint of deaths, myocardial infarction, and unstable angina was highly significant (20% risk reduction, 95% CI 14-26%; p < 0.0001). Enalapril treatment significantly reduced myocardial infarction, unstable angina, and cardiac mortality in patients with low ejection fractions.
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PMID:Effect of enalapril on myocardial infarction and unstable angina in patients with low ejection fractions. 136 36

The prevailing wisdom generally has been that the failing heart hypertrophies in response to increased wall stress. The increase in myocardial mass observed in heart failure is therefore a relatively late compensatory event geared to normalize wall stress. Although this is undoubtedly true, especially for heart failure resulting from a large anterior myocardial infarction accompanied by rapid left ventricular expansion, it is possible that an important form of hypertrophy occurs much earlier as an initial response to myocardial injury. One can hypothesize that the initial response to injury is a nonspecific phenotypic alteration of the cardiac myocyte to one of growth and development. Such changes may be driven by both trophic and mechanical forces and may be important in altering the architecture of the myocardial cell and surrounding cardiac interstitium. Preliminary data from a variety of models support the concept that neuroendocrine activity is an important component in the ventricular remodeling process, and that pharmacologic interventions designed to block systemic and tissue neuroendocrine activity may prevent excessive cardiac enlargement and its ultimate consequences. Because this concept has important implications for preventive cardiology, the results of several prevention trials, including the Cooperative North Scandinavian Enalapril Survival Study (CONSENSUS), Studies of Left Ventricular Dysfunction (SOLVD), and Survival and Ventricular Enlargement (SAVE) are awaited eagerly.
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PMID:Left ventricular hypertrophy: an initial response to myocardial injury. 138 70

The intrarenal renin-angiotensin system (RAS) may contribute to the pathophysiology of heart failure by the generation of angiotensin II at local sites within the kidneys. Angiotensin II may directly influence renal hemodynamics, glomerular contractility, and tubular sodium reabsorption, thereby promoting sodium and fluid retention in this syndrome. In the present study, we examined components of the circulating RAS as well as the intrarenal expressions of renin and angiotensinogen mRNA in rats with stable compensated heart failure (HF) 12 wk after experimental myocardial infarction. Renal angiotensinogen mRNA level in vehicle-treated HF rats increased 47%, as compared with sham control rats (P = 0.001). The increase in angiotensinogen mRNA levels was more pronounced in animals with medium (46%, P < 0.05) and large (66%, P < 0.05) infarcts than in those with small infarcts (31%, P = NS). There were no differences in liver angiotensinogen mRNA, circulating angiotensinogen, angiotensin II, plasma renin concentration (PRC), kidney renin content (KRC), and renal renin mRNA level between sham and HFv. In addition, in a separate group of rats with heart failure, we demonstrated that renal angiotensin II concentration increased twofold (P < 0.05) as compared with that of age-matched sham operated controls. A parallel group of heart failure rats (HFe, n = 11) was treated with enalapril (25 mg/kg per d) in drinking water for 6 wk before these measurements. Blood pressure decreased significantly during treatment (91 vs. 103 mm Hg, P < 0.05). Enalapril treatment in HF rats increased renin mRNA level (2.5-fold, P < 0.005), KRC (5.6-fold, P = 0.005), and PRC (15.5-fold, P < 0.005). The increase in renal angiotensinogen mRNA level observed in HFv rats was markedly attenuated in enalapril treated HF rats (P < 0.001), suggesting a positive feedback of angiotensin II on renal angiotensinogen synthesis. These findings demonstrate an activation of intrarenal RAS, but no changes in the circulating counterpart in this model of experimental heart failure, and they support the concept that the intrinsic renal RAS may contribute to the pathophysiology in this syndrome.
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PMID:Evidence for tissue-specific activation of renal angiotensinogen mRNA expression in chronic stable experimental heart failure. 140 Oct 84

The diuretic and natriuretic response to an intravenous dose of frusemide 40 mg was assessed in the erect and supine positions in 10 patients with cardiac failure who were being treated with enalapril 10 mg twice daily in addition to diuretics (Enalapril group) and in 10 patients with cardiac failure taking diuretics alone (Control group). Total 4 h diuresis in the erect position was 728 ml and in the supine position was 824 ml in the patients taking enalapril compared to 655 ml in the erect position and 1166 ml in the supine position in those patients taking diuretics alone. Total 4 h natriuresis in the erect positions was 78 mmol and in the supine position was 85 mmol in patients taking enalapril 10 mg twice daily but in those patients taking diuretics alone total 4 h natriuresis in the erect position was 67 mmol increasing to 120 mmol in the supine position. Measurements of plasma renin activity and plasma angiotensin II concentration confirmed effective converting enzyme inhibition, in the group of patients taking enalapril, but in those patients taking diuretics alone the erect position was associated with an increase in plasma renin activity, and plasma concentrations of angiotensin II and aldosterone. We conclude that the renin angiotensin system is a major factor in mediating the effect of posture on loop diuretic drugs.
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PMID:The influence of posture on the response to loop diuretics in patients with chronic cardiac failure is reduced by angiotensin converting enzyme inhibition. 162 97

1. We compared the effects, after 3 weeks oral therapy, of xamoterol 200 mg twice daily and enalapril 2.5, 5 or 10 mg twice daily on home and clinic blood pressure, glomerular filtration rate (GFR) and renal plasma flow, stroke and minute distances, linear resistance and on plasma renin activity in 19 patients with mild to moderate heart failure in a single-blind randomised crossover study. 2. Enalapril reduced mean home blood pressure by 17/7 mm Hg compared with xamoterol (P less than 0.0001) and by 19/7 mm Hg compared with placebo. Compared with placebo xamoterol had no effect. Enalapril reduced predose blood pressure, compared with xamoterol, on average by 15/5 mm Hg (P = 0.02 systolic, 0.09 diastolic) and by 20/7 mm Hg compared with placebo. At 4 h post-dose the mean differences were: xamoterol-enalapril 13/10 mm Hg (P = 0.01 systolic, 0.0007 diastolic) and placebo-enalapril 23/9 mm Hg. 3. Stroke and minute distances were marginally less 4 h following xamoterol than following enalapril: mean (s.e. mean) values were 9.4 (0.7) vs 10.4 (0.8) cm (P = 0.23) and 699 (51.7) vs 767 (62.1) cm (P = 0.04) respectively. Linear resistance was reduced by enalapril, from the placebo value of 13.2 (1.2) to 11.0 (0.9) mm Hg m-1 and marginally increased by xamoterol, to 14.2 (1.2) mm Hg m-1, the difference between active treatments being statistically significant (P = 0.03). 4. Renal plasma flow, GFR and filtration fraction were not influenced by enalapril or xamoterol therapy. There were no significant correlations between glomerular filtration rate and either blood pressure or stroke distance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparison of the chronic effects of oral xamoterol and enalapril on blood pressure and renal function in mild to moderate heart failure. 167 67

A 12 week randomised, double blind, placebo controlled study on the effect of enalapril (5-20 mg daily) on the concentration of plasma atrial natriuretic peptide level and activity of the sympathetic nervous system and renin angiotensin system was done on 27 patients who had suffered an uncomplicated acute myocardial infarction two to six months earlier. None of our patients needed drug treatment for heart failure, but their exercise capacity was markedly limited. Plasma neurohormone concentrations at baseline and after 12 weeks of treatment were also compared with those of healthy controls. Concentrations of plasma atrial natriuretic peptide concentrations remained high throughout the study in those patients on beta-blockers. Enalapril treatment had no definite effect on the concentrations of plasma atrial natriuretic peptide or other neurohormone.
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PMID:Effect of enalapril on plasma atrial natriuretic peptide in late recovery phase of acute myocardial infarction. 183 93

Enalapril and hydrochlorothiazide (HCT) are established single agent treatments for mild hypertension and cardiac failure and are a potent combination in more severe or resistant cases. We have compared the pharmacokinetics of enalaprilat (the active metabolite of enalapril) and HCT in a four-way comparison of a combination tablet of enalapril (10 mg)/HCT (25 mg) with a single dose of an enalapril tablet (10 mg), a single dose of a HCT tablet (25 mg) and simultaneous administration of separate tablets of enalapril (10 mg) and HCT (25 mg) in normotensive volunteers (n = 12, 21-26 years). Each subject received all four treatments and the study was conducted as a randomized, latin square, open design with at least 1 week washout between studies. Overall, HCT was bioequivalent under all conditions and enalaprilat was bioequivalent when given in combination with HCT either as one tablet or as two separate tablets. However, when given with HCT, the mean AUC and Cmax of enalaprilat were reduced up to 20 per cent compared with enalapril administered alone. This is unlikely to be of clinical significance as the differences did not reach statistical significance and the total enalaprilat excreted in the urine over 96 h was similar after all treatments.
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PMID:Pharmacokinetic comparison of a combination tablet of enalapril and hydrochlorothiazide with enalapril and hydrochlorothiazide tablets administered together and separately. 193 8

We studied, by 48-hour Holter monitoring, 33 patients with chronic stable heart failure (radionuclide ejection fraction less than 35%), complex ventricular arrhythmias and no electrolyte abnormalities, after a period during which they were treated with digoxin and diuretics. Before Holter monitoring blood samples were analyzed for serum concentration of sodium, potassium, magnesium, urea, creatinine, digoxin, aldosterone and for plasmatic renin activity in addition to urinary aldosterone and catecholamines determination. After these investigations in 23 patients, 5-20 mg of enalapril were progressively added to the conventional therapy, while 10 patients continued the previous therapy. After 8 weeks 30 patients were subjected to a second 48-hour Holter monitoring and to the same biochemical and hormonal tests. One patient died and 2 were lost to follow up. Only the enalapril group showed a significant decrease in the number of premature ventricular complexes (PVC) (p less than 0.01), and the frequency of couplets and episodes of ventricular tachycardia (VT) declined significantly (P less than 0.01). In the two groups there were no significant changes in digoxin, sodium, or magnesium, while potassium concentration increased in both groups (p less than 0.01). In the enalapril group heart rate and systolic and diastolic pressure declined significantly (p less than 0.01), and New York Heart Association class (NYHA) improved (p less than 0.001). In the other group there were no significant changes in these parameters. Enalapril caused a significant increase in the plasmatic renin activity (p less than 0.01) and a significant fall of plasma and urinary aldosterone (p less than 0.01; p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reduction of complex ventricular arrhythmias after enalapril treatment in patients with advanced stable heart failure. 205 78

The haemodynamic changes that follow a meal can mimic the response to a vasodilator drug. To avoid overestimating the beneficial effects of treatment in uncontrolled studies, measurements of haemodynamic function are usually performed with patients in the fasting postabsorptive state. But such recordings are not representative of the resting patient during daily life. In this double blind placebo controlled study the short term haemodynamic effects of enalapril were assessed during 12 hours in 19 patients with moderate heart failure caused by dilated cardiomyopathy. The patients ate lunch and dinner and were studied in the absorptive and postabsorptive phases. In the placebo group systemic vascular resistance, mean arterial pressure, and the rate-pressure product fell significantly (5-16%) after lunch. Four hours after lunch the haemodynamic function had returned to baseline--that is the postabsorptive state. Enalapril, accentuated the haemodynamic effects during the absorptive state producing a larger post-prandial fall in mean arterial blood pressure and rate-pressure product and changes in the absorptive phase were maintained into the post-absorptive phase. Pulmonary wedge pressure fell significantly after treatment with enalapril. These overall changes during the study period indicated that enalapril reduced the preload and afterload on the heart--over and above the reduction produced by eating. These findings suggest that the effects of enalapril given at rest to patients with moderate heart failure unload the heart and enhance the reduction of afterload induced by meals.
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PMID:Short term haemodynamic effects of converting enzyme inhibition before and after eating in patients with moderate heart failure caused by dilated cardiomyopathy: a double blind study. 217 59

The renin-angiotensin-aldosterone system (RAAS) has been implicated in the pathogenesis of congestive heart failure (CHF). Abnormal activation of the RAAS adversely affects cardiac performance and impairs functional status, increasing both afterload and preload through direct and indirect mechanisms. Conventional first-line therapy for CHF consists of diuretics and/or digitalis. Diuretics offer rapid relief of symptoms, effective volume control, and ease of administration, but are associated with a number of disadvantages, including further activation of neurohormonal systems resulting in augmented vasoconstriction. Angiotensin-converting enzyme (ACE) inhibitors, which block the RAAS by inhibiting production of angiotensin II from angiotensin I, are emerging as the vasodilators of choice in combination with diuretics with or without concomitant digitalis. Direct comparative studies have shown that ACE inhibitors provide acute and long-term symptomatic, hemodynamic, and exercise-related benefits as well as improved functional class and, possibly, slowed progression of disease with enhanced survival in specific subgroups. Captopril was the first orally effective ACE inhibitor associated with improved exercise tolerance and functional class in large multicenter trials of patients with severe heart failure and mild to moderate heart failure. Enalapril reduced the probability of death in patients with severe heart failure in the CONSENSUS trial. The new ACE inhibitor quinapril has been shown to improve hemodynamic status both acutely and chronically and to produce dose-related improvements in exercise tolerance. ACE inhibitors have a favorable safety profile, although hypotension can occur with initial doses, particularly in volume-depleted patients or at times when excessive initial doses are administered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:ACE inhibitors in the treatment of heart failure. 218 19


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