Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In patients with chronic heart failure cardiac beta-1 adrenoceptors are reduced, whereas beta-2 adrenoceptor changes vary depending on the etiology of the disease. Beta Adrenoceptor agonists can be used for short-term inotropic support in chronic heart failure; their clinical efficacy might depend on which beta adrenoceptor subtype(s) mediates their positive inotropic effect. Thus, the beta adrenoceptor subtype(s) involved in the positive inotropic effects of clinically used beta adrenoceptor agonists was characterized on isolated electrically driven human right atria by the use of the selective beta-1 adrenoceptor antagonist CGP 20712 A (300 nmol/l) and/or the selective beta-2 adrenoceptor antagonist ICI 118,551 (30 nmol/l). Epinine evoked positive inotropic effects through stimulation of beta-1 and beta-2 adrenoceptors to about the same degree, whereas dobutamine acted mainly at beta-1 adrenoceptors but had a significant beta-2 adrenoceptor component. Both agonists were full agonists causing the same maximum increase in contractile force (Emax) as did isoprenaline or Ca++ (Emax = 1.0). In contrast, denopamine was a partial selective beta-1 adrenoceptor agonist (Emax = 0.75-0.85). Dopamine was in the presence of uptake1-blockade (by 5 mumol/l phenoxybenzamine) a partial agonist (Emax = 0.60-0.70) acting selectively at beta-1 adrenoceptors; in the absence of uptake1-blockade, however, dopamine was a full agonist, indicating that part of its positive inotropic effect is indirect via the release of endogenous noradrenaline. Xamoterol did not exert positive inotropic effects, but concentration-dependently slightly decreased basal force of contraction.
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PMID:Characterization of the beta adrenoceptor subtype(s) mediating the positive inotropic effects of epinine, dopamine, dobutamine, denopamine and xamoterol in isolated human right atrium. 135 51

Dopamine receptors of DA-1 and DA-2 subtypes are localized in various regions within the kidney including the renal vasculature (DA-1) as well as sympathetic nerve terminals innervating the renal blood vessels (DA-2). More recent studies using receptor-ligand binding and receptor autoradiography have shown that DA-1 receptors are localized at both the luminal and basolateral membranes at the level of the proximal tubules. Activation of these DA-1 receptors by dopamine and by selective DA-1 receptor agonists results in natriuresis and diuresis. The cellular signaling mechanisms responsible for this response appear to be DA-1 receptor-induced activation of adenylate cyclase and phospholipase C, which via the generation of various intracellular messenger systems cause inhibition of Na(+)-H+ antiport (luminal) and Na+, K(+)-ATPase (basolateral), respectively. Both of these events consequently inhibit sodium reabsorption leading to natriuresis and diuresis. It is also known that dopamine can be synthesized within proximal tubular cells from L-dopa, which is taken up from the tubular lumen, and this locally produced dopamine plays an important role in the regulation of sodium excretion particularly during increases in sodium intake. Furthermore, a defect in the renal dopaminergic mechanism may be one of the pathogenic factors in certain forms of hypertension. Finally, whereas DA-1 receptor agonists are shown to be of therapeutic benefit in the treatment of hypertension, heart failure, and acute renal failure, some selective DA-2 receptor agonists are effective antihypertensive agents.
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PMID:Anatomical distribution and function of dopamine receptors in the kidney. 168 44

Dopamine is frequently used in critically ill newborn infants for treatment of shock and cardiac failure, but its pharmacokinetics has not been evaluated using a specific analytical method. Steady-state arterial plasma concentrations of dopamine were measured in 11 seriously ill infants receiving dopamine infusion, 5-20 micrograms.kg-1.min-1, for presumed or proven sepsis and hypotensive shock. Steady-state concentrations of dopamine ranged from 0.013-0.3 microgram/ml. Total body clearance averaged 115 ml.kg-1.min-1. The apparent volume of distribution and elimination half life averaged 1.8 l.kg-1 and 6.9 min, respectively. No relationship was observed between dopamine pharmacokinetics and gestational age, postnatal age or birthweight. Substantial interindividual variation was seen in dopamine pharmacokinetics in seriously ill infants, and plasma concentrations could not be predicted accurately from its infusion rate. Marked variation in clearance explains in part, the wide dose requirements of dopamine needed to elicit clinical response in critically ill newborn infants.
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PMID:Dopamine pharmacokinetics in critically ill newborn infants. 188 40

Dopamine (DA)--previously regarded simply as the precursor of norepinephrine--is now known to have its own unique effects on cardiovascular regulation which are mediated, in part, by activating specific DA receptors. DA has long been used in the treatment of shock and heart failure. In recent years it has been used at low infusion rates for its renal effects, in combination with other more specific inotropic or pressor agents. Lack of oral bioavailability has limited its use in long-term therapy, however; levodopa and dopa conjugates which are orally absorbed and metabolized to the active form are under investigation. The novel DA1 receptor agonist fenoldopam is claiming a role in the management of hypertension, heart failure, and the preservation of renal function. DA2 receptor agonists are also being evaluated as potential antihypertensive agents.
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PMID:Dopamine and dopamine receptor agonists in cardiovascular therapy. 196 61

On the basis of pathophysiologic mechanisms, the medical therapy of today for chronic heart failure is reviewed. The advantages and disadvantages of the vasodilator drugs and the inotropic drugs are presented. Finally, the therapeutic value of the inodilator drugs, which combine the central myocardial effects of positive inotropic agents with those of peripheral vasodilators, is discussed. In particular, the orally available dopaminergic agents, such as ibopamine, which interact with beta-receptors in the heart (mediating a positive inotropic effect) as well as with dopaminergic receptors in the peripheral vessels (mediating a systemic vasodilator effect) and in the kidneys (potentiating the natriuretic effect of diuresis), seem to be an advancement in the modern medical therapy of chronic heart failure. Data are shown during long-term treatment with ibopamine, in which the sustained clinical benefit in heart failure was not diminished, despite a decrease of the adrenergic receptors in blood cells. Dopamine plasma concentration was permanently normalized during long-term treatment. The discrepancy between clinical improvement and the measured adrenergic downregulation may be due to the interference of the inodilator with neurohormonal systems at multiple sites and is probably independent of receptor activation. It is suggested that the biosynthesis of noradrenaline is improved by increasing intracellular dopamine transport.
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PMID:Medical management of chronic heart failure: inotropic, vasodilator, or inodilator drugs? 197 81

Low cardiac output in acute heart failure can result in a functional impairment of organs, when tissue hypoxia occurs and cardiogenic shock develops. To restore cardiac output, various forms of therapy can be considered. Fluid replacement is sometimes beneficial in acute situations where oedema can reduce effective plasma volume. Vasodilators are often contra-indicated in shock, when arterial pressure is usually low. Inotropic therapy consists primarily of the administration of adrenergic agents. Dopamine and noradrenaline can be indicated in severe hypotension, to maintain coronary perfusion. Dobutamine is the catecholamine of choice to increase myocardial contractility. However, decreased responsiveness of the myocardial receptors to adrenergic stimulation rapidly becomes an important limitation. Phosphodiesterase inhibitors represent an interesting option to increase contractility, also by increasing cyclic AMP levels in the myocardium. In this respect, the combination of phosphodiesterase inhibitors with adrenergic agents is attractive. The additional vasodilatory properties of these agents can contribute to the increase in cardiac output with limited risk of further reduction in arterial pressure. In 13 patients with cardiogenic shock persisting despite the use of adrenergic agents, the addition of enoximone, 0.5 mg/kg, resulted in significant increases in cardiac index and stroke volume index and a significant decrease in pulmonary artery balloon occlusion pressure without consistent change in mean arterial pressure. In 8 patients, a second infusion of 0.5 g/kg amplified these effects. All but one of these patients survived the episode of cardiogenic shock, and 5 patients were discharged alive. In some cases, even lower doses of enoximone resulted in dramatic increases in cardiac output and oxygen transport in patients already treated with dobutamine with limited success.
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PMID:The role of enoximone in the treatment of cardiogenic shock. 217 30

A 21 day old infant, diagnosed as ASD, VSD, and PDA, was scheduled for an emergency radical operation. After admission, she fell into cardiac failure and was treated with artificial ventilation and infusion of inotropic agents. Anesthesia was induced with fentanyl and maintained with continuous fentanyl infusion and chlorpromazine. Dopamine and dobutamine were administered before she underwent a cor-pulmonary by-pass. At the time of release of aortic clamping, her blood pressure went down and dopamine, dobutamine and isoproterenol were administered. After completion of the cor-pulmonary by-pass, tachy-arrhythmia and hypotension occurred. Digitalis and calcium did not reverse the condition. The thorax was reopened and BP rose. After 15 min, ventricular fibrillation occurred. Defibrillation was carried out, but the heart was arrested. Even with pacing and cardiac massage, cardiac contraction did not resume. However immediately on intravenous administration of PGE1, 40 ng.kg-1.min-1, the heart started to beat. The cause of recovery from cardiac arrest was speculated to be due to reuptake of intracellular Ca2+ by PGE1. We stress therefore, that during and after cor-pulmonary by-pass procedures, PGE1 infusion may be beneficial.
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PMID:[Recovery from cardiac arrest by prostaglandin E1 infusion during emergency open heart surgery]. 227 47

Acute ischemic heart failure was induced in eight dogs by coronary embolization. Severe depression of the left ventricular (LV) performance was evidenced. At 15 min after the embolization procedure, dopamine was infused at a dosage sufficient to increase the maximum rate of LV pressure rise (LVdP/dtmax) by approximately 50%. The significant improvement in cardiac performance was obtained at unaltered myocardial oxygen consumption (MVo2). Dopamine infusion was concluded, and after a stabilization period 300 IU of insulin was injected. This was followed by the infusion of glucose and potassium to maintain levels. Insulin significantly improved the performance of the failing left ventricle at unaltered MVo2, but to a lesser extent than did dopamine. Additional dopamine infusion further significantly improved cardiac performance. The net effect of insulin and dopamine in combination as compared with dopamine alone was a significantly greater increase in stroke volume and cardiac output due to a more pronounced decrease in total peripheral resistance. Dopamine increased arterial concentrations and myocardial uptake of free fatty acids (FFA). The net metabolic effect of insulin and dopamine in combination as compared with dopamine alone was a shift in myocardial substrate uptake from FFA to carbohydrates.
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PMID:Hemodynamic and metabolic effects of dopamine and insulin during acute left ventricular failure in dogs. 242 68

Recent advances in our knowledge of heart failure have shown that both a central and a peripheral factor are involved in this syndrome. Therefore, the ideal drug should combine the properties of a positive inotropic agent with those of a peripheral vasodilator; many drugs recently introduced into clinical practice have been shown to present both of these features, and the term "inodilators" has been used to characterize them. Inodilators can be further classified on the basis of their mechanism of action, i.e., phosphodiesterase inhibitors, and sympathomimetic and dopaminergic drugs. Phosphodiesterase inhibitors include bipyridine, imidazolone, and benzimidazole derivatives, which present potent inotropic and vasodilatatory actions. Despite their favorable acute effects, long-term studies have often yielded controversial, and sometimes disappointing, results as their chronic administration seems often to be associated with untoward effects and, above all, a poor prognosis. Sympathomimetic agonists act by stimulation of beta-receptors, with a consequent increase of myocardial contractility and peripheral vasodilation. Differently from the parenteral drugs (e.g., dobutamine), the oral agents present many important shortcomings including central nervous system effects, increased myocardial oxygen consumption, tachyarrhythmias, and, above all, development of tolerance during chronic administration. Dopaminergic drugs possess a unique pharmacologic profile since they add to the adrenergic stimulation their selective action on dopaminergic receptors. Dopamine is still one of the most useful drugs for the treatment of acute heart failure; the two oral drugs that more closely resemble its actions are levodopa and ibopamine. The administration of levodopa to patients with heart failure can induce a significant hemodynamic improvement that is maintained during chronic therapy. Ibopamine has been widely shown to cause a significant hemodynamic improvement in patients with heart failure. Its effects can be ascribed to a moderate increase of myocardial contractility accompanied by peripheral and renal vasodilatatory actions. This drug can also counteract some of the neurohumoral mechanisms (e.g., sympathetic stimulation and aldosterone secretion) that are activated in heart failure. These features can explain the favorable results that have also been recently obtained after the chronic administration of ibopamine.
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PMID:Clinical pharmacology of inodilators. 248 42

Dopamine receptor stimulation causes vascular and neurohumoral responses that may be beneficial in patients with heart failure. Oral inactivity, emesis and adrenergic-induced arrhythmias have limited the use of currently available compounds. Fenoldopam (SKF-82526-J) is a new, orally available, selective, dopamine-receptor agonist with potent renal vasodilating properties (six times that of dopamine) without positive inotropic or adrenergic activity. Drug efficacy was clinically evaluated in 10 patients with heart failure after single oral doses of placebo and 50, 100 and 200 mg of medication. Placebo produced no changes. Peak efficacy was noted 30 minutes to 1 hour after the 200 mg dose with mean blood pressure decreasing from 96 +/- 15 (mean +/- SD) to 83 +/- 8 mm Hg (p less than 0.05), pulmonary capillary wedge pressure decreasing from 23 +/- 6 to 20 +/- 8 mm Hg (p less than 0.05) and mean pulmonary artery pressure decreasing from 32 +/- 9 to 29 +/- 8 mm Hg (p less than 0.05). Systemic vascular resistance decreased from 1,987 +/- 887 to 1,191 +/- 559 dynes.s.cm-5 (p less than 0.05) with a subsequent 55% increase in cardiac index from 2.2 +/- 1.1 to 3.1 +/- 1.3 liters/min per m2 (p less than 0.05). Heart rate and right atrial pressure did not change (p greater than 0.05). No emesis or new tachycardia was noted at any dose. Baseline hemodynamics generally returned within 3 to 4 hours. Fenoldopam, therefore, is a short-acting, orally effective drug that decreases systemic vascular resistance and increases cardiac index in patients with heart failure and represents a new class of oral compounds that may be useful in treating such patients.
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PMID:Hemodynamic effects of an oral dopamine receptor agonist (fenoldopam) in patients with congestive heart failure. 286 95


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