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)

Neuroendocrine activation in acute myocardial infarction (AMI) may have important physiological consequences for myocardial perfusion and function. We measured plasma angiotensin II in 60 patients with AMI within 6 hours of pain and on days 1-3 and day 10. On admission, AII was normal at 9.9 + 1.3 pmol/l (normal range 2-12 pmol/l). At day 3, AII rose markedly to 77.5 + 25.0 in those with heart failure (group 1, n = 13); but AII also rose in uncomplicated patients (group 2, n = 47) to 27.8 + 4.0 (p less than 0.001). At day 10, levels of AII remained high, especially in group 1 (50.5 + 22.2 vs 6.1 + 1.5, p less than 0.005). Thus neuroendocrine activation, present early in AMI, is seen in both uncomplicated infarcts and in those developing heart failure. Angiotensin II mediated vasoconstriction perhaps enhanced by catecholamines could have deleterious effects on myocardial function and perfusion, and indicates the potential for angiotensin-converting enzyme inhibitors in early AMI.
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PMID:Neuroendocrine activation in acute myocardial infarction. 244 Nov 95

Activation of the renin-angiotensin system in acute myocardial infarction may have important haemodynamic consequences. The effects of captopril were assessed in nine patients with acute left ventricular failure complicating myocardial infarction. Plasma angiotensin II was elevated at 16.8 (3.6) pmol/l (mean [SE]) including high levels in three of four patients in the absence of any previous therapy, including diuretics. Repeated low doses of captopril were administered to reduce pulmonary capillary wedge pressure less than 14 mm Hg or to a maximum total dose of 25 mg. Right atrial pressure fell from 12.4 (0.9) to 9.4 (0.7) mm Hg p less than 0.001, pulmonary arterial pressure from 32.7 (3) to 26.4 (2.2) p = 0.01, and pulmonary capillary wedge pressure from 25.7 (2.9) to 19.9 (2.2) p = 0.01. Despite a fall in systemic vascular resistance from 1,540 (110) to 1,330 (76) dyn/s/cm5, and mean arterial pressure from 84.8 (3.9) to 76.7 (2.7) p = 0.001, changes in cardiac output were small: 3.8 (0.3) to 4.2 (0.3) NS. Angiotensin II fell in all patients even after only 3.125 mg to a mean of 3.6 (1.0). These improvements occurred whether basal angiotensin II was elevated or normal, and in the presence or absence of diuretic therapy. At 24 hours, seven patients received captopril in the maximum titrated dose of the previous day. Haemodynamic changes at one hour were of similar magnitude to those during incremental dosing. These results suggest that reduction of angiotensin II exerts beneficial haemodynamic effects in heart failure complicating acute myocardial infarction.
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PMID:Haemodynamic effects of captopril in acute left ventricular failure complicating myocardial infarction. 244 Nov 96

Nitrendipine and cilazapril are two new antihypertensive drugs with different mechanisms of action. Nitrendipine is a calcium antagonist of the dihydropyridine class which decreases directly the smooth muscle tone. Cilazapril is a new long-lasting inhibitor of angiotensin-converting enzyme which suppresses the peripheral vasoconstrictor effect of angiotensin I by inhibiting its transformation in angiotensin II. The goal of the present study was to assess the effects on hemodynamics and regional blood flows (measured with radioactive microspheres) of cilazapril and nitrendipine given alone or in combination. Cilazapril (3 mg/kg) and nitrendipine (0.3 mg/kg) were given intravenously to conscious spontaneously hypertensive rats first alone, then in combination. Both cilazapril and nitrendipine decreased mean arterial pressure to the same extent. Cilazapril increased regional blood flow only in the kidney without changing total cardiac output. In contrast, nitrendipine increased regional blood flow in nearly every organ and markedly enhanced total cardiac output. Cilazapril redistributed the cardiac output distribution toward the kidney, and nitrendipine did not change the cardiac output distribution. The combination of both nitrendipine and cilazapril produced a stronger antihypertensive effect than each drug alone. The peripheral vasodilatation with the combination was not as marked as with nitrendipine alone but was associated with the same redistribution of the cardiac output toward the kidney as with cilazapril. We conclude that after acute intravenous administration the combination of cilazapril and nitrendipine produced hemodynamic effects which cannot be induced by each drug used alone. Such a therapeutic profile may be useful in patients with high blood pressure or heart failure.
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PMID:Effects of nitrendipine and cilazapril alone or in combination on hemodynamics and regional blood flows in conscious spontaneously hypertensive rats. 246 61

The natriuretic, diuretic, and hypotensive responses to infused atrial natriuretic peptide (ANP) were measured in rats 4 weeks after myocardial infarction induced by coronary artery ligation. Rat [1-28]-ANP was infused intravenously in doses of 0.1, 0.3, and 1.0 microgram/kg/min for 30 min each under pentobarbital anesthesia. There was a marked natriuresis, diuresis, and fall in blood pressure in rats with infarction but each response was significantly attenuated when compared with sham-operated controls (ANOVA: p less than 0.01, p less than 0.05, and p less than 0.01, respectively). Urinary cyclic guanosine monophosphate (cGMP) excretion in rats with infarction was higher than that of controls but rose to the same absolute level in both groups in response to ANP infusion (0.3 microgram/kg/min). Reduced ANP responsiveness may result from impaired postreceptor mechanisms or from physiological antagonism by angiotensin II. Reduced ANP responsiveness may partly explain impaired salt handling in heart failure.
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PMID:Atrial natriuretic peptide infusion in chronic heart failure in the rat. 247 48

Angiotensin II appears to have important actions in modulating sympathetic nerve activity; conversely, sympathetic stimulation alters renin release. Drugs that inhibit angiotensin II formation would be expected then not only to offset the direct vasoconstricting and aldosterone releasing actions of this peptide but also to reduce sympathetic nerve activity. Hypertension and cardiac failure are two major conditions in which converting enzyme inhibitors have found important therapeutic roles; both are considered to be associated with increased activity of the renin-angiotensin-aldosterone and sympathetic nervous systems. However, in spite of considerable experimental evidence for a sympatholytic action of converting enzyme inhibitors, direct proof has been difficult to obtain in humans. In part, this results from the lack of any satisfactory way of assessing sympathetic activity in the clinical situation. Nevertheless, our failure to understand the pathophysiology of disease and the precise mechanism of action of drugs has not precluded exploiting the salutatory effects of inhibition of converting enzyme.
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PMID:The sympathetic nervous system and converting enzyme inhibition. 247 95

The characteristics of norepinephrine and epinephrine as well as plasma renin activity, angiotensin II, aldosterone, vasopressin, and atrial natriuretic factor (ANF) were examined in 64 patients (mean age of 52 +/- 16 years) with dilated cardiomyopathy. The findings were grouped according to the NYHA classification and compared with a normal cohort of 38 patients (mean age of 42 +/- 10 years). Furthermore, the influence of different cardioactive substances used in the treatment of cardiac failure was analyzed in more detail. Patients in NYHA class II already demonstrated an increased activity of the sympathicoadrenal, renin-angiotensin-aldosterone system (RAAS), vasopressin, and ANF system. The highest values were found in patients of NYHA class IV. In these patients, norepinephrine was enhanced by a factor of 7, epinephrine by a factor of 2, plasma renin activity by a factor of 7, angiotensin II by a factor of 2.5, aldosterone by a factor of 5, vasopressin by a factor of 1.5, and ANF by a factor of 4 compared with those in normal subjects. The highest correlation coefficient was found for norepinephrine (r = 0.84). The acute application of 1-2 mg/kg of body weight of enoximone in patients with dilated cardiomyopathy (n = 15) resulted only in a significant lowering of the atrial natriuretic factor as an indicator for drug-induced unloading effects (venous pooling). All the parameters showed only a tendency; in none could statistical significance be established. Application of 0.75 mg/kg of body weight of enoximone i.v. in patients with coronary artery disease (n = 17) has no direct influence either on the sympathoadrenal, the ANF, or the prostaglandin systems. It could be demonstrated that the mode of medical treatment influences the parameters of vasoconstrictor systems in different ways.
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PMID:The influence of various degrees of cardiac failure, chronic medical treatment, and acute additional enoximone application on the parameters of the vasopressor system. 248 Apr 85

Hypertensive left ventricular hypertrophy is associated with a variety of complications including congestive heart failure, arrhythmias, and ischemic heart disease. Unloading the system in time by antihypertensive drug treatment should prevent or reverse left ventricular hypertrophy. Although most antihypertensive agents can control blood pressure in a majority of patients, only a select subset of these pharmacologic agents will reverse left ventricular mass. There is evidence to suggest that angiotensin-converting enzyme (ACE) inhibitors can play an important role in protecting the heart during the various phases of evolution of hypertensive heart disease both acutely and on a long-term basis. Several studies in hypertensive humans and experimental animals have documented the effectiveness of ACE inhibitors in reducing cardiac hypertrophy. In hypertensive patients with left ventricular hypertrophy, the ACE inhibitor captopril 3 and 9 months after starting treatment significantly reduced left ventricular mass as well as left ventricular posterior wall and septal wall thickness. The mechanism of regression of left ventricular mass by ACE inhibition is speculative. The absence of a reflex hyperadrenergic state in the face of blood pressure control may be of importance. In addition, interference with angiotensin II generation by these agents may also play a role either through the myocardial effects of angiotensin II on protein synthesis or because of its facilitation of cardiac sympathetic neurotransmitter release. ACE inhibition appears to be associated with the maintenance of normal coronary flow reserve and in high renin states ACE inhibition may increase coronary blood flow. ACE inhibitors are also indicated under conditions of hypertensive heart failure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Treatment of hypertensive heart disease with ACE inhibitors. 248 24

The renin-angiotensin system has a wide range of physiological actions, and thus interference with the system has attractive therapeutic potential. The orally active angiotensin converting enzyme (ACE) inhibitors have so far been the most successful drugs in this area. They lower arterial pressure both in renovascular and essential hypertension, and their effects are enhanced by concomitant diuretic therapy or dietary salt restriction. Since, in renovascular hypertension, the affected kidney depends on enhanced local generation of angiotensin II to help preserve its function, the circulation and excretory capacity of this kidney may be compromised with ACE inhibition. ACE inhibitors can improve exercise tolerance and diminish cardiac ventricular arrhythmias in patients with heart failure. Because these drugs lower plasma aldosterone, they tend to correct potassium deficiency and hypokalemia, which may have been induced by diuretic treatment. Hypotension can occur with the first dose of ACE inhibitor, especially in sodium-depleted subjects; in patients on prior antihypertensive therapy, particularly if this includes a diuretic; and in the elderly. Not all of the actions of ACE inhibitors are necessarily due to lowering of plasma angiotensin II: accumulation of kinins may be responsible for some of the effects and side effects. Common to all ACE inhibitors are occasional rashes, cough, and, more rarely, angioedema. Apparently peculiar to captopril, and less often seen with the lower doses now employed, are taste disturbance, proteinuria, and marrow depression. ACE inhibitors, should not be used in pregnant women.
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PMID:Converting enzyme inhibitors in the treatment of hypertension. 248 62

Evidence from the experimental and clinical laboratory suggests that the heart failure state is characterized not only by an excessive degree of systemic vasoconstriction but also by an exaggerated neurohormonal response to the decline in cardiac performance. Therapeutic interventions directed only at the first abnormality may serve to exacerbate the second, and thus may fail to produce long-term hemodynamic and clinical benefits. Converting-enzyme inhibitors successfully antagonize both homeostatic malfunctions, and thus are among the few vasodilators that have been shown to produce consistent circulatory and symptomatic improvement in patients with severe chronic heart failure in controlled clinical trials; the responses to treatment with these agents have been superior to those seen during therapy with placebo or other vasodilator drugs. Furthermore, experimental and clinical evidence suggests that converting-enzyme inhibitors exert favorable effects on the survival of patients with severe heart failure; this potential has now been confirmed in a large-scale, multicenter, placebo-controlled trial. Despite its benefits, converting-enzyme inhibition may be accompanied by adverse circulatory and metabolic reactions (symptomatic hypotension, renal insufficiency, and potassium retention), which are predictable consequences of interference with the homeostatic role of angiotensin II in low-output states.
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PMID:Converting-enzyme inhibition in the management of severe chronic congestive heart failure: physiologic concepts. 248 68

Changes of neurohumoral factors including vasodilatory prostaglandins (PGs) were investigated in an experimental model of moderate low-cardiac-output status induced by rapid right ventricular pacing (240 beats/min). After 7 days of pacing, we studied the response of renal, hormonal, and hemodynamic parameters to cyclooxygenase inhibition by indomethacin and the effects of the renin system by converting-enzyme blockade in addition to the inhibition of PG synthesis. Lowering cardiac output increased plasma levels of norepinephrine and atrial natriuretic peptide. Plasma renin concentration was suppressed, despite a fall in cardiac output and blood pressure and a stimulation of sympathetic nerve activity. Urinary excretion of PGE2 was increased (P less than 0.04); plasma levels of PGE2 and 6-keto-PGF1 alpha were unchanged as measured in blood from the renal vein, pulmonary artery, and aorta. During low cardiac output, we found a significant decrease of glomerular filtration rate, whereas renal blood flow and renal and peripheral vascular resistances were unchanged. Administration of indomethacin decreased plasma and urinary PGs significantly, markedly reduced renal blood flow, and increased renal vascular resistance without affecting peripheral vascular resistance. The additional blockade of the renin-angiotensin system by captopril showed mainly a vasodilator effect on peripheral arterial resistance vessels, resulting in an increase of cardiac output. Our results suggest that, in moderate low-cardiac-output status, renal blood flow is maintained by renal vasodilator PGs, which counterbalance vasoconstrictor mechanisms like the activated sympathetic nerve activity. We indirectly showed the importance of angiotensin II in preserving glomerular filtration rate, which declines when renin secretion is suppressed, as it may be the case in moderate heart failure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Circulatory and renal control by prostaglandins and renin in low cardiac output in dogs. 252 99


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