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)

A series of neurohumoral systems are activated in congestive heart failure that contribute to the increased vascular resistance and sodium retention that characterize this disorder. Abnormalities in baroreceptor function are intrinsic to the pathophysiology of heart failure and may subserve the vasoconstrictive and volume overloaded state that defines patient morbidity. Blunted baroreceptor responses to high cardiac filling pressures or depressed cardiac function reduce afferent signals that normally inhibit sympathetic efferent activity, vasopressin release, and indirectly, renin secretion. The resulting increase in neurohumoral activity mediates the redistribution of blood flow that occurs in this disorder. Limb blood flow is usually reduced and may be responsible for exercise intolerance. Decreased renal blood flow and altered intrarenal hemodynamics contribute to sodium retention. In addition, renal vasoconstriction and elevated circulating levels of angiotensin II and vasopressin may contribute to hyponatremia by influencing free water intake and excretion. Hence, baroreceptor dysfunction may be a principal mechanism that contributes to neurohumoral activation and subsequent alteration in vascular resistance and sodium and water balance in congestive heart failure. It may not be coincidental that two principal markers of an unfavorable prognosis in patients with heart failure, high plasma norepinephrine levels and hyponatremia, share baroreceptor dysfunction as a common theme.
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PMID:Baroreceptor function in congestive heart failure: effect on neurohumoral activation and regional vascular resistance. 288 66

In chronic cardiac failure, various neurohumoral mechanisms are activated to sustain blood volume, blood pressure, and organ perfusion. Using the coronary artery ligation model of heart failure in the rat, we have measured changes in vasoactive hormone secretion and related these changes to salt and water status during a 1-month period. When compared with controls, rats with infarction had a marked rise in plasma atrial natriuretic peptide (294 +/- 59 vs. 79 +/- 10 pg/ml, p less than 0.001) although there was no increase in total exchangeable body sodium. Plasma renin activity and plasma aldosterone concentrations were the same for both rats with infarction and controls. Similarly, there were no significant differences in plasma arginine vasopressin, plasma osmolality, or plasma sodium concentration in rats with infarction. Ventricular norepinephrine levels were reduced in animals with infarction (p less than 0.01). Plasma atrial natriuretic peptide levels were raised in this model of chronic left ventricular failure. However, there was no salt retention and little stimulation of the renin-angiotensin-aldosterone system or vasopressin. The results suggest that high circulating atrial natriuretic peptide levels may prevent or limit salt and water retention, either directly or indirectly, by inhibiting the renin-angiotensin-aldosterone system.
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PMID:Neurohumoral responses to chronic myocardial infarction in rats. 289 63

Twenty-five years after the discoveries of the existence of atrial granules and of volume receptors in the heart atria the search for natriuretic hormones has led to the isolation and identification of the atrial natriuretic factors (ANF) now considered as a hormonal system. These peptides are probably synthesized and stored in the Golgi apparatus of cardiac myocytes and are released in response to atrial wall stretch following acute plasma volume expansion and increased central blood volume, e.g., during head-out water immersion, in arterial hypertension, or increased left and/or right atrial pressure in cardiac failure, but also possibly in response to increased frequency of myocardial contractions, e.g. in paroxysmal tachycardia. The mechanisms of the renal action of these potent natriuretic hormones are not yet precisely known. Increased GFR may contribute to the initial rise in urinary sodium excretion and increased renal medullary blood flow to the later phase of natriuresis. The proximal tubule, the thin descending and the ascending limb of Henle's loop and especially the medullary collecting tubule were so far incriminated as tubular sites of action of ANF. Finally, recycling of sodium in medullary tissue and secretion of sodium via back-flux from the interstitium into the medullary collecting tubule are postulated to result in the hypernatric urine observed after ANF administration. Direct suppression of the secretion of renin, aldosterone, vasopressin, and vasopressin-stimulated cAMP synthesis may also contribute to its diuretic, natriuretic, and antihypertensive effects. The renal hemodynamic and tubular as well as the adrenal and systemic vascular effects are related to enhanced cGMP synthesis in medium-sized arterial vessels, in glomeruli and specific tubular segments, and in adrenal tissue, and may be calcium dependent. Specific ANF-binding sites were detected in these target organs. Although increased ANF release was observed in response to atrial distension in various disease states, which may contribute to renal sodium elimination in human hypertension and congestive heart failure, further studies are needed to identify its precise physiological and pathophysiological significance.
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PMID:Atrial natriuretic hormones--thirty years after the discovery of atrial volume receptors. 294 41

Alpha atrial natriuretic peptide was measured in plasma in 7 patients with severe heart failure before and after the administration of the synthesized substance. An inverse correlation was found between basal plasma levels of alpha atrial natriuretic peptide and cardiac output. Incremental bolus injections of synthetic alpha atrial natriuretic peptide and the continuous infusion for 30 minutes resulted in a decrease of peripheral vascular resistance, an increase of cardiac output and a decrease of blood pressure. Plasma aldosterone was markedly reduced in each patient by the administration of atrial natriuretic peptide and a small but significant decrease of plasma cortisol was found. Diuresis, urinary sodium and potassium excretion were enhanced. No significant changes were observed concerning adrenocorticotropic hormone, plasma renin concentration, plasma norepinephrine and vasopressin and the plasma levels of 6-keto-prostaglandin F1-alpha and prostaglandin E2.
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PMID:Atrial natriuretic peptide in patients with severe heart failure. 294 71

Alpha-human atrial natriuretic polypeptide (alpha-hANP) was applied to 16 clinical patients, 6 patients with essential hypertension, 7 patients with congestive heart failure and 3 patients with cirrhosis. Following intravenous bolus injection of 400 micrograms of synthetic alpha-hANP, a hypotensive effect of very rapid onset was found, which was more potent in the hypertensive patients than in the normotensive cases. Cardiac functions were improved significantly with a similar time course as the depressor response in the cases of heart failure or hypertension. Hemodynamic observations showed a marked increase in cardiac output, cardiac index, stroke volume, ejection fraction and ejection rate, and a concomitant decrease of the pressure in the right side of the heart and pulmonary circulation in these subjects. In addition, the renal response to alpha-hANP induced obvious increases in urine volume, electrolytes and creatinine excretions in all the subjects. Finally, plasma levels of aldosterone, Arg-vasopressin and noradrenaline were also altered by alpha-hANP. No significant side effects were registered. The above result confirms the therapeutic actions of alpha-hANP in human subjects and opens the possibility to research alpha-hANP as a powerful pharmacological tool as well as potential new medicine for human disorders.
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PMID:Therapeutic actions of alpha-human atrial natriuretic polypeptide in 16 clinical cases. 295 43

Congestive cardiac failure causes activation of various neurohumoral responses that increase total peripheral resistance and promote salt and water retention. These effects increase blood pressure and organ perfusion in the short term, but ultimately cause further cardiac decompensation by increasing ventricular afterload and cardiac work. The role of the renin-angiotensin-aldosterone system and the catecholamines is partially understood, and blockade of these systems as a treatment of heart failure is now established. The role of vasopressin in heart failure is more controversial, but there is now compelling evidence that vasopressin may have important vasoconstrictor actions in addition to its fluid retaining properties. Atrial natriuretic factor is a newly described cardiac hormone released from the atrium. Atrial natriuretic factor causes natriuresis, diuresis, vasodilatation, suppression of thirst, and suppression of both renin and aldosterone. These actions largely counteract the effects of the renin-angiotensin system and vasopressin. Plasma atrial natriuretic factor has been reported to be markedly elevated in human and experimental heart failure, and may act to limit the neurohumoral response to reduced cardiac output. This review summarizes our understanding of the vasoactive hormones and reports experimental evidence supporting a pathophysiological role for vasopressin and atrial natriuretic factor in congestive cardiac failure.
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PMID:Responses of vasoactive hormones in congestive cardiac failure. 296 25

In patients with congestive heart failure, atrial natriuretic factor may serve as a counter-regulatory hormone, offsetting the vasoconstrictive and volume-retentive effects of the sympathetic nervous system, the renin-angiotensin-aldosterone system and vasopressin. Indeed, the plasma levels of atrial natriuretic factor and the vasoconstrictor hormones are often simultaneously elevated in these patients. It is not known, however, whether atrial natriuretic factor remains responsive to sudden reductions in atrial pressure in patients with chronic heart failure, or is unresponsive like the vasoconstrictor systems. To examine this issue, the plasma concentrations of atrial natriuretic factor and the vasoconstrictor hormones were measured in 20 normal subjects and 12 patients with chronic congestive heart failure during incremental lower body negative pressure, an intervention that lowers atrial pressure. In the normal subjects, incremental lower body negative pressure at -10, -20 and -40 mm Hg decreased central venous pressure and pulse pressure. At maximal lower body negative pressure, plasma atrial natriuretic factor levels decreased from 51 +/- 5 to 27 +/- 3 pg/ml (p less than 0.01), whereas increases occurred in plasma levels of norepinephrine (194 +/- 11 to 385 +/- 70 pg/ml, p less than 0.01), renin activity (1.4 +/- 0.2 to 3.9 +/- 0.1 ng/ml per h, p less than 0.01) and vasopressin (1.3 +/- 0.1 to 6.4 +/- 2.4 pg/ml, p less than 0.05). In the patients with congestive heart failure, lower body negative pressure also reduced central venous pressure. Baseline plasma atrial natriuretic factor levels were markedly elevated, averaging 438 +/- 138 pg/ml, and decreased to 317 +/- 87 pg/ml at maximal lower body negative pressure (p less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Responsiveness of atrial natriuretic factor to reduction in right atrial pressure in patients with chronic congestive heart failure. 296 39

The role of atrial natriuretic peptide in the pathophysiology of heart failure is unknown. The aim of the study were changes of atrial natriuretic peptide, hemodynamic, renal and hormonal parameters during the development of cardiac failure in an animal model of congestive heart failure in the conscious dog due to rapid right ventricular pacing and in rats with chronic left ventricular failure due to a left ventricular infarction. The effects of intravenous administration of atrial natriuretic peptide were studied in patients with severe congestive heart failure, dogs with experimental cardiomyopathy and conscious rats with acute right ventricular failure due to repeated pulmonary emboli. The results suggest an important role of atrial natriuretic peptide in the early phase of heart failure as a counterregulating system concerning vasoconstrictory and volume retaining mechanisms like the renin-angiotensin-aldosterone system, the sympathetic nerve activity and vasopressin. In chronic heart failure the renal effects of atrial natriuretic peptide are attenuated. Pharmacological doses have beneficial effects on ventricular function by reducing pre- and afterload. The reduction in effectiveness of atrial natriuretic peptide in congestive heart failure may be due to a down-regulation of specific receptors, or caused by hemodynamic renal changes preventing the action of the hormone on the kidney in heart failure or may be due to an activation of counterregulating systems overridding the effects of atrial natriuretic peptide.
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PMID:[Atrial natriuretic peptide in cardiac insufficiency]. 296 47

Several studies have shown symptomatic and haemodynamic improvement after the introduction of angiotensin converting enzyme inhibitors in patients with heart failure treated with diuretics. The concomitant long term effects of the new orally effective long acting angiotensin converting enzyme inhibitor, enalapril, on symptoms, exercise performance, cardiac function, arrhythmias, hormones, electrolytes, body composition, and renal function have been further assessed in a placebo controlled double blind cross over trial with treatment periods of eight weeks. Twenty patients with New York Heart Association functional class II to IV heart failure who were clinically stable on digoxin and diuretic therapy were studied. Apart from the introduction of enalapril, regular treatment was not changed over the study period; no order or period effects were noted. Enalapril treatment significantly improved functional class, symptom score for breathlessness, and exercise tolerance. Systolic blood pressure was significantly lower on enalapril treatment. Echocardiographic assessment indicated a reduction in left ventricular dimensions and an improvement in systolic time intervals. In response to enalapril, the plasma concentration of angiotensin II was reduced and that of active renin rose; plasma concentrations of aldosterone, vasopressin, and noradrenaline fell. There were significant increases in serum potassium and serum magnesium on enalapril. Glomerular filtration rate measured both by isotopic techniques and by creatinine clearance declined on enalapril while serum urea and creatinine rose and effective renal plasma flow increased. Body weight and total body sodium were unchanged indicating that there was no overall diuresis. There was a statistically insignificant rise in total body potassium, though the increase was related directly to pretreatment plasma renin (r = 0.5). On enalapril the improvement in symptoms, exercise performance, fall in plasma noradrenaline, and rise in serum potassium coincided with a decline in the frequency of ventricular extrasystoles recorded during ambulatory monitoring. Adverse effects were few. In patients with heart failure, enalapril had a beneficial effect on symptoms and functional capacity. The decline in glomerular filtration rate on enalapril may not be beneficial in early heart failure.
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PMID:Effects of enalapril in heart failure: a double blind study of effects on exercise performance, renal function, hormones, and metabolic state. 299 98

The response to ramipril, 10 and 20 mg on consecutive days, in 9 patients with severe (New York Heart Association functional class III or IV) chronic congestive heart failure was measured. Hemodynamic cannulae were placed more than 2 days before ramipril administration to ensure a stable baseline. Dietary sodium (40 mmol daily) and potassium (80 mmol daily) were constant before and during the study, and maintenance doses of digoxin and furosemide (80 to 1,000 mg daily) were continued unchanged. Ramipril induced pronounced, sustained decreases in angiotensin converting enzyme activity, angiotensin II and aldosterone levels, and a reciprocal increase in plasma renin activity. Plasma catecholamines, antidiuretic hormone and cortisol levels were not altered. Urinary sodium and potassium excretion diminished, plasma sodium decreased and plasma potassium increased. Plasma urea and creatinine levels increased. Ramipril treatment resulted in a decrease in systemic arterial pressure that was sustained for 24 hours, a decrease in heart rate and an increase in cardiac index, but little change in pulmonary artery pressure or right atrial pressure. Three patients were drowsy after ramipril administration, and 1 patient had a marked, temporary reduction in urine output. It was concluded that ramipril is a potent, long-acting angiotensin converting-enzyme inhibitor that is likely to be beneficial in patients with severe cardiac failure.
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PMID:Acute hemodynamic, hormonal and electrolyte effects of ramipril in severe congestive heart failure. 303 25


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