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)

Hemodynamic and neurohumoral responses to acute diuretic therapy were measured in 15 patients with severe chronic heart failure given intravenous furosemide, 1.3 +/- 0.6 (SD) mg/kg body weight. Left ventricular pump function deteriorated by 20 minutes, as indicated by a fall in stroke volume index (27 +/- 8 to 24 +/- 7 mL/min X m2 body surface area, p less than 0.01) and an increase in left ventricular filling pressure (28 +/- 7 to 33 +/- 9 mm Hg, p less than 0.01). Increases occurred in heart rate (87 +/- 13 to 91 +/- 16 beats/min, p less than 0.01), mean arterial pressure (90 +/- 15 to 96 +/- 15 mm Hg, p less than 0.01), systemic vascular resistance (1454 +/- 394 to 1676 +/- 415 dynes X s X cm-5, p less than 0.01), plasma renin activity (9.9 +/- 8.5 to 17.8 +/- 16 ng/mL X h, p less than 0.05), plasma norepinephrine level (667 +/- 390 to 839 +/- 368 pg/mL, p less than 0.01), and plasma arginine vasopressin level (6.2 +/- 1.3 to 8.3 +/- 2.0 pg/mL, p less than 0.01). During the next 3.5 hours the patients had diuresis (2085 +/- 1035 mL) and the expected fall in filling pressure (28 +/- 7 to 22 +/- 10 mm Hg, p less than 0.01). Neurohumoral indicators also returned toward the control levels. Intravenous furosemide, in patients with severe chronic heart failure, is associated with acute pump dysfunction temporally related to activation of the neurohumoral axis.
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PMID:Acute vasoconstrictor response to intravenous furosemide in patients with chronic congestive heart failure. Activation of the neurohumoral axis. 286 Aug 33

By means of specific inhibitors of the renin-angiotensin system (captopril) and of the sympathetic nervous activity (prazosin) in dogs with congestive heart failure, and by using a specific antagonist of the pressor activity of arginine vasopressin in rats with heart failure, we studied the influence of these pressor hormone systems on peripheral vascular resistance and cardiac function. All three humoral vasoconstrictor systems were stimulated in heart failure. The experiments in dogs showed that the renin-angiotensin system plays an important role in the pathogenesis of heart failure by increasing peripheral vascular tone, thus impairing cardiac function, a mechanism which could be nearly completely prevented by converting enzyme inhibition. The increased sympathetic nervous activity was only insignificantly attenuated by the converting enzyme inhibition and its contribution to the increase of peripheral vascular resistance was only small and transient. The rats with heart failure showed no effect on the vasopressin inhibitor on peripheral vascular resistance and cardiac function, despite plasma vasopressin levels which were 4 to 5 times higher than those in control animals. The inappropriately high secretion of vasopressin in relation to a decreased plasma osmolality may have contributed to the formation of edema and to the development of 'dilutional hypoosmolality'.
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PMID:Neurohumoral vasoconstrictor systems in heart failure. 286 48

Alterations in the peripheral circulation by influencing aortic impedance and venous capacitance have a remarkable effect on cardiac performance in patients with left ventricular dysfunction. Systemic vasoconstriction in heart failure is influenced by activation of the sympathetic nervous system (increased plasma norepinephrine), the renin-angiotensin system (increased PRA) and the antidiuretic hormone system (increased arginine vasopressin). The level of plasma norepinephrine is related weakly to the severity of resting left ventricular dysfunction and strongly to the subsequent risk of mortality. Attenuation of reflex responsiveness to low pressure mechanoreceptors (orthostatic tilt) and to carotid and aortic baroreceptors (nitroprusside infusion) occurs in heart failure and the degree of abnormality also may be related to mortality. Vasodilation with consequent improvement in left ventricular function may be accomplished by non-specific dilators (nitroprusside, nitrates, hydralazine, nitrendipine) or by specific interference with neurohumoral mechanisms (sympathetic blockade, converting enzyme blockade, AVP blockade). Plasma norepinephrine may be reduced by central or presynaptic mechanisms (guanabenz, bromocriptine, captopril). The hemodynamic effect of this anti-sympathetic effect appears to be related to the relative influence on cardiac vs. peripheral sympathetic tone and/or concomitant effects of the drugs. Long-term trials are needed to determine whether chronic inhibition of the sympathetic nervous system will have a salutary effect on the hemodynamics, symptomatology and prognosis of cardiac failure.
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PMID:Nervous system control mechanisms in heart failure. 287 90

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

The gain or sensitivity of reflexes originating in cardiac sensory receptors with vagal afferent pathways is highly dynamic. This modulation is usually attributed to central nervous system or efferent mechanisms. This paper briefly reviews evidence that modulation of reflexes originating in the heart can also occur at the sensory or afferent level. Five examples are cited: calcium antagonists, cardiac glycosides, arginine vasopressin, atrial natriuretic peptides, and changes in dietary sodium. These examples emphasize the role of ionic and humoral factors in regulation of cardiac vagal afferent function. This concept of sensory modulation of cardiac vagal afferents has implications for cardiovascular pharmacology and for pathophysiological states such as heart failure and hypertension.
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PMID:Sensitization of cardiac vagal afferent reflexes at the sensory receptor level: an overview. 294 40

Acute myocardial infarction is associated with complex neuroendocrine changes, including release of arginine vasopressin, norepinephrine, and epinephrine, and activation of the renin-angiotensin system. Arginine vasopressin levels are maximal on admission, and subsequently fall even in patients in whom left ventricular failure develops. Plasma levels of norepinephrine and epinephrine are at their highest on admission and return to the normal range in patients with uncomplicated infarction, but they remain significantly elevated in patients in whom left ventricular failure or late ventricular arrhythmias develop. In contrast to catecholamines and arginine vasopressin, plasma renin and angiotensin levels are within normal limits on admission in patients without complications but increase by the third day. Patients with left ventricular failure already have increased plasma levels of renin and angiotensin on admission, but further marked and persistent increases occur over the following days. All of the aforementioned hormones may interact to cause systemic or coronary vasoconstriction, which may have short-term adverse hemodynamic consequences. Furthermore, increased afterload may result in infarct expansion and left ventricular dilatation, which will impair left ventricular function still further. Interruption of the cycle of vasoconstriction and worsening left ventricular failure by angiotensin converting enzyme inhibitors may reduce the incidence of heart failure after myocardial infarction.
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PMID:Neuroendocrine changes in acute myocardial infarction. 306

Angiotensin II (AII), aldosterone (Aldo) and arginine vasopressin (AVP) in plasma were determined during basal conditions in seventeen patients with congestive heart failure and in seventeen control subjects. The same parameters were measured before and 1, 2 and 3 h after an oral water load of 20 ml (kg body weight)-1 together with urine volume (V) and free water clearance (CH2O) in seven patients with congestive heart failure and in seven control subjects. AII, Aldo and AVP were significantly higher in heart failure than in control subjects (AII:81 and 12 pmol l(-1) (medians), P less than 0.01; Aldo: 411 and 103 pmol l(-1), P less than 0.01; AVP: 5.3 and 2.0 pmol l)-1), P less than 0.01). AVP was positively correlated to Aldo in both heart failure (p = 0.593, n = 17, P less than 0.02) and control subjects (p = 0.511, n = 17, P less than 0.05), but in neither of the groups to AII. V and CH2O were significantly lower in heart failure when compared to control subjects (maximum increase in CH2O 3.55 and 5.86 ml min-1, P less than 0.02), but did not correlate directly with either A II, Aldo or AVP. Creatinine clearance was reduced in heart failure. It is concluded that the activity of both the renin-angiotensin-aldosterone system and the osmoregulatory system is enhanced in congestive heart failure, presumably as a compensatory phenomenon in order to maintain arterial blood pressure. It is suggested that the decrease in free water clearance may be attributed to both an elevated level of vasopressin and a reduced glomerular filtration rate.
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PMID:Angiotensin II, aldosterone and arginine vasopressin in plasma in congestive heart failure. 308 74

With the failure of the heart as a pump, there ensues a series of neurohumoral compensations that defend organ perfusion at the expense of alterations in cardiac filling pressures and the distribution of blood flow to various regional circulations. Activation of the sympathetic nervous system and the renin-angiotensin II-aldosterone system and increases in circulating arginine vasopressin maintain arterial blood pressure by producing systemic arteriolar vasoconstriction and the renal retention of salt and water. Constriction of the efferent arterioles in the kidney by angiotensin II and norepinephrine promotes reabsorption of glomerular filtrate in the peritubular capillaries and maintains glomerular filtration in the face of declines in glomerular plasma flow and the glomerular permeability-surface area ultrafiltration coefficient. In resting, sodium-replete, conscious animals and humans, pharmacologic inhibition of renal cyclo-oxygenase by nonsteroidal anti-inflammatory drugs has little or no effect on renal hemodynamics. However, electrical or reflex stimulation of the renal nerves, intrarenal infusion of angiotensin II, or infusion of arginine vasopressin stimulates the release of vasodilator prostaglandins from the kidneys. In sodium-depleted animals or humans, and when cardiac output decreases, there is an increase in total peripheral vascular resistance but little change in renal vascular resistance. Increased renal synthesis of vasodilator prostaglandins (presumably by the blood vessels) maintains renal blood flow despite increased release of renin and norepinephrine from the kidneys. In these situations, pharmacologic inhibition of renal cyclo-oxygenase is accompanied by marked reductions in renal blood flow and glomerular filtration rate. When this occurs in patients with advanced heart failure, reversible oliguric renal failure may result. In this setting, cyclo-oxygenase inhibition may also increase arterial pressure and induce additional depression of cardiac function. Recent data indicate that blood vessels have the capacity to synthesize the sulfidopeptide leukotrienes C4, D4, and E4, which can constrict peripheral and renal blood vessels and alter vascular permeability. The vascular cell types responsible for leukotriene C4 synthesis and the potential roles of these vasoactive eicosanoids in kidney and other regional circulations are currently under study.
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PMID:Prostaglandins in congestive heart failure and the effects of nonsteroidal anti-inflammatory drugs. 309 62

MDL 17,043, an agent with both inotropic and vasodilator properties, was evaluated in the treatment of chronic severe heart failure. The early and late hemodynamic, hormonal, pharmacokinetic and clinical responses to oral MDL 17,043 were studied in 20 patients. MDL 17,043 acutely increased cardiac output from 3.6 +/- 0.9 to 4.6 +/- 1.0 liters/min (+28%, p less than 0.001) and decreased mean pulmonary artery wedge pressure from 24 +/- 8 to 13 +/- 8 mm Hg (-46%, p less than 0.001), mean right atrial pressure from 10 +/- 5 to 4 +/- 4 mm Hg (-60%, p less than 0.001) and mean arterial pressure from 78 +/- 9 to 70 +/- 11 mm Hg (-10%, p less than 0.001). Hemodynamic improvement was sustained for 8 hours. Plasma renin activity tended to increase (0.10 less than p greater than 0.05), plasma norepinephrine tended to decrease (0.10 less than p greater than 0.05) and arginine vasopressin did not show any directional change. Elimination half-life for MDL 17,043 was approximately 20 hours. Hemodynamic responsiveness was maintained in six patients undergoing restudy at 4 weeks. Initial subjective improvement in the 20 patients occurred in 90%, was present at 4 weeks in 50% and continued longer than 3 months in 25%. Side effects occurred in 75% and required cessation of treatment in 10%. Thirteen (93%) of 14 patients on long-term therapy died (median time after start of MDL 17,043 therapy 39 days). Deaths were sudden in 69%. It is concluded that oral MDL 17,043 produces early and late hemodynamic improvement in patients with severe heart failure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:MDL 17,043 therapy in severe congestive heart failure: characterization of the early and late hemodynamic, pharmacokinetic, hormonal and clinical response. 315 89

Arginine vasopressin is elevated in congestive heart failure. To determine the effect of arginine vasopressin upon systemic hemodynamics and regional blood flows, we administered the specific inhibitor of the vascular action of vasopressin [1-(beta-mercapto-beta,beta-cyclopentamethylenepropionic acid),2-(O-methyl)-tyrosine]-arginine vasopressin [d(CH2)5Tyr(Me)AVP] to 15 dogs with chronic right-heart failure produced by tricuspid avulsion and progressive pulmonary artery constriction. The animals exhibited increased plasma arginine vasopressin and norepinephrine levels. Vasopressin inhibition increased cardiac output and left ventricular dP/dt and dP/dt/P, and it decreased total peripheral vascular resistance, whereas mean aortic pressure did not change significantly. Simultaneously, blood flow increased to skeletal muscle, kidneys, skin, and right and left ventricular myocardium. Plasma catecholamines also increased. Pretreatment with propranolol and prazosin abolished the increases in cardiac output and left ventricular function produced by vasopressin inhibition. Pretreatment also led to a decrease in mean aortic pressure after vasopressor inhibition. In contrast, administration of d(CH)2)5Tyr(Me)AVP to 11 sham-operated animals or administration of normal saline to nine sham-operated and eight heart-failure dogs was without effect either in the absence or in the presence of adrenergic receptor blockade. Thus, arginine vasopressin participates in the control of the circulation in right-sided congestive heart failure, with both a direct constrictor action on blood vessels and an indirect action by inhibition of the sympathetic nervous system.
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PMID:Short-term hemodynamic effects of vasopressin V1-receptor inhibition in chronic right-sided congestive heart failure. 318 Mar 81


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