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

The increased neuroendocrine activity in patients with congestive heart failure appears to be a generalized attempt to maintain blood pressure at the expense of reduced cardiac performance and salt and water retention. It is likely that baroreceptor dysfunction contributes to increased sympathetic nervous system activity in patients with congestive heart failure. The usual tonic inhibitory messages emanating from baro- and mechanoreceptors in the great vessels and heart fail to adjust sympathetic traffic from the brain to the periphery, leading to uninhibited sympathetic tone. Arginine vasopressin and plasma renin activity may be increased secondarily; however, plasma renin activity activation could also be induced by a low-salt diet and diuretic use. Preliminary baseline data indicate that patients with left ventricular dysfunction (ejection fraction less than or equal to 35%) but no or very mild symptoms of heart failure have increased plasma levels of norepinephrine, atrial natriuretic factor and arginine vasopressin, while plasma renin activity is normal, suggesting that neuroendocrine activity contributes to the pathogenesis of congestive heart failure. Neurohormones such as angiotensin II may alter gene expression, leading to changes in the shape and size of the cell. Remodeling of the heart and blood vessels is associated with both heart failure and hypertension. Angiotensin-converting enzyme inhibitors have been demonstrated to retard or reverse the remodeling process under certain experimental conditions. Studies are currently under way to test this possibility in patients.
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PMID:Neuroendocrine activity in congestive heart failure. 222 Jun 3

The hemodynamic effects of selective inhibition of arginine vasopressin (AVP) with a V1 antagonist, (CH2)5yreAVPa CL-1-4A, were studied in normal rats (n = 17) and in rats 4 weeks after coronary artery ligation with large myocardial infarctions and elevated left ventricular end-diastolic pressures (n = 22). In normal rats AVP inhibition with a 35-micrograms/kg bolus of AVP V1 antagonist did not change heart rate, right atrial, left ventricular systolic, left ventricular end-diastolic or aortic pressures. There were also no changes in mean circulatory filling pressure, unstressed vascular volume, blood volume or venous compliance. In rats with infarction and elevated left ventricular end-diastolic pressures, AVP inhibition did not change heart rate, right atrial pressure, mean circulatory filling pressure or blood volume, but mean aortic pressure decreased from 103 +/- 3 to 88 +/- 2 mm Hg (P less than .001), venous compliance increased (P less than .001) from 2.17 +/- 0.07 to 3.04 +/- 0.11 ml/mm Hg/kg and unstressed vascular volume decreased from 42.3 +/- 3.1 to 34.7 +/- 2.6 ml/kg (P less than .05). We conclude that inhibition of AVP with a specific V1 antagonist had no effect on the venous or arterial circulations in normal rats, but in rats with left ventricular dysfunction and heart failure after chronic myocardial infarction, AVP inhibition decreased arterial pressure and caused venodilatation.
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PMID:Selective vasopressin inhibition in rats with heart failure decreases afterload and results in venodilatation. 226 90

Although arginine vasopressin (AVP) is elevated in heart failure, inhibition of the vasopressinergic V1-receptor produces minimal changes in blood pressure. To determine whether the V1 vasoconstrictor effect is attenuated in heart failure, we randomly administered three increasing doses of AVP and methoxamine intravenously to 11 dogs with right-sided congestive heart failure (RHF) and 7 sham-operated dogs. Plasma AVP was elevated in RHF (21 +/- 3 pg/ml) compared with sham-operated dogs (3.8 +/- 0.6 pg/ml). While the pressor response to methoxamine was similar in the two groups, AVP caused a smaller increase in mean aortic pressure in RHF dogs than sham-operated dogs. To determine whether the difference in the pressor response to AVP was caused by greater reflex withdrawal of the sympathetic activity in RHF than sham-operated dogs, we also administered AVP after these animals had been pretreated with prazosin and propranolol. Adrenoceptor blockade exaggerated the pressor response to AVP; however, the increase in mean aortic pressure was still smaller in RHF than sham-operated dogs. The diminished pressor response in adrenoceptor-blocked RHF dogs was associated with a smaller increase in total peripheral vascular resistance compared with similarly treated sham dogs. Thus, although the pressor response to AVP was offset by baroreflex activation, the attenuated pressor effect of AVP in heart failure cannot be explained by sympathetic withdrawal alone. AVP probably exerts a smaller direct vasoconstrictor effect when the vasopressinergic system is chronically activated in heart failure.
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PMID:Attenuation of pressor responses to arginine vasopressin in right-sided congestive heart failure. 236 Jun 76

Patients with chronic heart failure (CHF) have increased plasma levels of the antidiuretic hormone arginine vasopressin (AVP). The stimulus for increased AVP secretion is unknown, but appears to involve a nonosmotic drive which alters normal osmoregulatory mechanisms. Centrally acting alpha 2-adrenergic agonists suppress AVP secretion in experimental animals. To examine the hypothesis that such effects might be apparent on the chronically elevated AVP levels in patients with CHF, we measured AVP, heart rate (HR), mean arterial pressure (MAP), and plasma norepinephrine (NE) after 4 mg oral guanabenz in nine patients with this disease. Plasma NE decreased from 513 +/- 131 to a minimum of 371 +/- 117 pg/ml (p less than 0.02) 5 h postdrug. HR decreased from 80 +/- 9.3 to 74 +/- 10 beats/min (p less than 0.05) and MAP decreased from 88 +/- 8.5 to 83 +/- 10 mm Hg (p less than 0.05). Plasma AVP, however, did not change from baseline levels of 5.6 +/- 1.6 pg/ml. Serum osmolality was also constant. These data do not support a possible role for acute increases of alpha 2-adrenergic activity in suppressing the increased plasma AVP levels of CHF, at least under basal conditions at constant osmolality.
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PMID:Alpha 2-adrenergic stimulation and vasopressin in congestive heart failure. 247 22

Elevated systemic vascular resistance in heart failure causes further depression of cardiac function. Decreased systemic vascular resistance, on the other hand, is associated with an improvement in cardiac performance. Thus, peripheral vasodilators, irrespective of their mechanism of action, have the potential to improve cardiac function in heart failure. Increased peripheral vascular tone appears to result from a number of interrelated neuroendocrine dysfunctions--an activated renin-angiotensin-aldosterone system, inappropriate release of arginine vasopressin, and enhanced systemic and cardiac sympathetic activity (indicated by increased levels of circulating norepinephrine and markedly increased cardiac norepinephrine release). Augmented sympathetic activity may not only increase systemic vascular resistance but can also induce myocardial cellular dysfunction. Furthermore, downregulation of cardiac beta-adrenoceptors may contribute to inadequate cardiac performance. Reduction of sympathetic tone and upregulation of the beta-adrenoceptors is the rationale for beta-blocker therapy in heart failure and, indeed, cardioselective beta-blockers improve cardiac function in some patients with dilated cardiomyopathy. Third-generation beta-blockers, such as celiprolol, possess both cardioselective and peripheral vasodilatory properties and are therefore potentially beneficial in heart failure.
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PMID:Potential use of third-generation beta-blockers in heart failure. 248 86

Several circulating neurohormones have been shown to have prognostic significance in patients with chronic heart failure, but the relation between plasma levels of atrial natriuretic peptide and mortality in this disorder remains unknown. Plasma levels of immunoreactive atrial natriuretic peptide were measured in 102 patients in whom left ventricular ejection fraction, ventricular arrhythmias on ambulatory electrocardiographic recording and plasma levels of norepinephrine, renin activity, aldosterone and arginine vasopressin were also measured. Compared with patients with atrial natriuretic peptide concentrations below the median value of 125 pg/ml, patients with higher levels of the peptide had a higher plasma renin activity (8.9 +/- 1.8 versus 2.6 +/- 0.4 ng/ml per h) and plasma norepinephrine (858 +/- 116 versus 538 +/- 45 pg/ml), more frequent premature ventricular depolarizations (4,485 +/- 715 versus 2,004 +/- 495/day) and more advanced hemodynamic abnormalities (all p less than 0.05). During the subsequent 13 to 25 months of follow-up, patients with high levels of atrial natriuretic peptide had a significantly lower rate of survival than did those whose initial circulating peptide concentrations were normal or mildly increased (p = 0.01). These data indicate that, in patients with chronic heart failure, plasma atrial natriuretic peptide provides important prognostic information. This may relate to the ability of the hormone to reflect the interplay of several pathophysiologic factors that contribute to mortality in this disease.
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PMID:Prognostic importance of atrial natriuretic peptide in patients with chronic heart failure. 252 15

The non-osmotic stimulation of release of arginine vasopressin (AVP) seems to be the main determinant of the impaired water excretion and hyponatraemia in patients with cardiac failure. This non-osmotic stimulation of AVP release could be secondary to a decrease in stroke volume to which the ventricular receptors respond by decreasing the vagal afferent input to the hypothalamus via the mid-brain. Improvement of cardiac stroke volume would then decrease AVP release and improve water excretion. In cardiac failure, the non-osmotic stimulation of AVP release is not clearly modulated by the renin-angiotensin system or by the atrial natriuretic peptide plasma concentration. Nevertheless, physiological concentrations of atrial natriuretic peptide could inhibit the renal epithelial water transport at the collecting duct level. Water-loading and osmotic-loading experiments in patients with cardiac failure indicated that the release of AVP is still under osmotic control and favoured the concept that volume depletion in general and cardiac failure in particular may lower the osmotic threshold and increase the osmotic sensitivity to vasopressin release. Experiments using a specific vasopressin antagonist rarely indicated a vasoconstrictor role for endogenous AVP in either experimental or clinical cardiac failure. Intrarenal factors also contributed to the impaired water excretion observed in patients with cardiac failure: increased central sympathetic efferent discharge and stimulation of the renin-angiotensin-aldosterone system would be expected as a consequence of the decreased effective arterial blood volume. These effects could then decrease maximal reabsorption of solute further impairing the ability of the kidney to excrete free water. The impaired water excretion is correlated with the severity of the cardiac deterioration and thus has prognostic implications.
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PMID:Water disturbances in cardiac failure. 253 70

Vasoactive humoral factors were measured in 27 patients before and during the first week of conventional treatment of acute heart failure. On admission, all patients were given frusemide intravenously, followed by oral digoxin and diuretic therapy. Before drug treatment, plasma renin activity and plasma angiotensin II concentrations were within normal ranges in the group of patients without previous diuretic treatment, but were significantly higher in those 16 patients already on diuretic drugs when admitted to hospital. After diuretic treatment, however, even the former group revealed activation of the renin-angiotensin system. Plasma concentrations of catecholamines were increased initially but normalized within 1 day. A majority of the patients initially had very high plasma concentrations of atrial natriuretic peptide (mean 276.9 +/- 39.0 pg ml-1) which decreased but did not normalize during the study period. High plasma levels of arginine vasopressin (mean 56.8 +/- 14.6 pg ml-1) were found, but tended to be reduced during treatment. Thus, patients with acute heart failure displayed increased plasma concentrations of atrial natriuretic peptide, arginine vasopressin and catecholamines, but these vasoactive hormones decreased in parallel to clinical improvement during diuretic therapy. In contrast, the renin-angiotensin system became clearly activated.
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PMID:Neuroendocrine response in acute heart failure and the influence of treatment. 257 29

We studied the hemodynamic effects of vasopressin and the renin-angiotensin system in an animal model of high output heart failure in conscious rats (aorto-caval fistula). We found significantly elevated levels of plasma renin concentration (p less than 0.025), norepinephrine (p less than 0.02), and up to 4 to 5 times higher values of vasopressin (p less than 0.002) in the rats with heart failure as compared with control animals. In contrast to the control rats that had a normally functioning osmoreceptor system, we found an inverse relationship between plasma osmolality and arginine vasopressin in the rats with heart failure in association with edema. Using a specific antagonist of the pressor activity of vasopressin, we found no significant effect on heart rate, mean arterial pressure, cardiac output (thermodilution), and peripheral vascular resistance in the control animals and in the rats with aorto-caval fistula. Captopril resulted in a significant fall of mean arterial pressure in the rats with shunt (p less than 0.001). The coincidence of high values of vasopressin and, in a number of animals, low plasma osmolalities and edema suggests a role of vasopressin in the formation of edema and in the development of "dilutional hypo-osmolality."
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PMID:Vasopressin and renin in high output heart failure of rats: hemodynamic effects of elevated plasma hormone levels. 258 Jan 26

The sequence of atrial natriuretic factor (ANF) has been determined, as well as the complete structure of the rat and human complementary DNA and gene. ANF and ANF messenger RNA are present not only in atria but also in ventricles. The circulating form of ANF has been identified as the C-terminal of the molecule, ANF (Ser 99-Tyr 126). The isolated secretory granules of rat atrial cardiocytes contain only pro-ANF (Asn 1-Tyr 126). An enzyme (IRCM-SP1) has been isolated from heart atria and ventricles. This enzyme is highly specific in cleaving ANF (Asn 1-Tyr 126), to yield ANF (103-126), (102-126), and (99-126). In target cells, ANF produces a rise in cyclic guanosine 3',5'-monophosphate (cGMP) due to activation of particulate guanylate cyclase, and inhibition of adenylate cyclase leading in some cases to a decrease in cyclic adenosine 3',5'-monophosphate (cAMP). ANF produces relaxation of rabbit and rat aortic strips, inhibits steroidogenesis in both zona glomerulosa and zona fasciculata cells, and inhibits the release of arginine vasopressin from the isolated rat hypothalamohypophysial preparation in vitro but decreases AVP release in vivo only at pharmacological doses. In all forms of experimental hypertension, plasma levels of ANF are increased and, at some time periods, atrial levels are also decreased. The ventricular levels of immunoreactive ANF are also increased in renal hypertension. Infusion of ANF by minipumps decreases the blood pressure near control levels in several models of experimental hypertension. In cardiomyopathic hamsters with heart failure, the atrial levels of immunoreactive ANF are decreased while the plasma and ventricular levels are increased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The heart as an endocrine gland. 282 60


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