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)

Dopamine is commonly used to improve cardiac output and to maintain peripheral perfusion after myocardial injury. It has several advantages over other catecholamines. At effective inotropic dose levels, dopamine produces less peripheral vasoconstriction than norepinephrine. Dopamine also causes fewer arrhythmias than isoproterenol. This is a case report of a heart transplant patient who began rejecting and developed heart failure. In addition to the immunosuppressive agents, dopamine was used initially as the vasopressor with marked deterioration in the patient's condition. Dobutamine, a new inotropic agent, was substituted for dopamine with subsequent improvement in cardiac function. The authors concluded that dobutamine may be the most appropriate agent to use in the rejecting transplanted heart because of the former's direct action on the heart. Dobutamine may also be preferred for support of the cardiac outputs of patients with chronic heart failure.
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PMID:Dobutamine in the rejecting transplanted heart. 701 1

Dopamine has been used for many years to treat patients with severe heart failure. It is not clear whether improvements of cardiac function may be due to a direct action on heart. This study was aimed to investigate the direct action of dopamine on failing heart. we chose male Wistar rats which had undergone uninephrectomy under ether anaesthesia to induce hypertension to result in heart failure. After 5 weeks the hearts were excised and perfused according to Langerdoff's technique. Heart rate, systolic and diastolic ventricular pressures, the derivative of the intraventricular pressure time ratio, and coronary flow were measured at baseline, at 2 and 5 min and then every 5 min during a 30-min period. Rat hearts were divided into 4 groups of 5 hearts: group 1, perfused without drug; group 2, perfused with dopamine at 4 micrograms/kg/min; group 3, perfused with dopamine at 8 micrograms/kg/min; group 4, perfused with dopamine at 8 micrograms/kg/min and with 100 nM I.C.I. 118.551 (beta 2-ant: beta-2 receptors antagonist) at the same time. Our results show that dopamine induced a negative inotropic effect and a reduction of coronary flow. Moreover, there was a significant chronotropic action even when dopamine was administered at high concentrations. So we found no positive dopamine effect on isolated failured hearts of rat. This might be explained by both alpha-1-induced vasoconstriction and the stimulation of alpha-1B receptors. We conclude that the favourable effects of dopamine in heart failure could be due to DA1 vasodilation rather than to a direct inotropic action on the heart.
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PMID:Effects of dopamine on isolated failing rat heart. 755 68

Intravenous inotropic agents promote increased myocardial contractility via elevation of myocyte calcium concentrations, a mechanism that is also known to promote the development of cardiac arrhythmias. The purpose of this article is to review the electrophysiologic effects and relative potential for proarrhythmia associated with dobutamine, dopamine, and the phosphodiesterase inhibitors amrinone and milrinone. Dobutamine increases sinoatrial node automaticity and decreases atrial and atrioventricular (AV) node refractoriness and AV nodal conduction time. The drug also decreases ventricular refractoriness in both healthy and ischemic myocardium. Dobutamine has been shown to increase heart rate in a dose-related fashion in animals and in humans. In humans, dobutamine has been reported to induce ventricular ectopic activity (VEA) in 3% to 15% of patients, although VEAs are often asymptomatic, requiring no intervention. Ventricular tachycardia (VT) associated with dobutamine appears to occur rarely. Patients with underlying arrhythmias or heart failure or those receiving excessive doses of dobutamine are at greatest risk for proarrhythmia. Dopamine increases automaticity in Purkinje fibers and has a biphasic effect on action potential duration. Dopamine has been reported to induce atrial or ventricular arrhythmias in animals. In humans, dopamine may be associated with dose-related sinus tachycardia but has also been reported to cause VEA, which is usually asymptomatic. Dopamine-associated VT appears to occur rarely. Dopamine produces greater elevations in heart rate or frequency of ventricular premature beats at a given value of cardiac index than does dobutamine. The phosphodiesterase inhibitors amrinone and milrinone increase conduction through the AV node and decrease atrial refractoriness. Intravenous administration of these drugs may result in sinus tachycardia in some patients and has been reported to cause VEA, which is often asymptomatic, in up to 17% of patients. VT has also been reported in association with short-term use of intravenous phosphodiesterase inhibitors. In summary, intravenous inotropic agents may be associated with proarrhythmic effects in some patients. The primary arrhythmias reported are sinus tachycardia and VEA, although other supraventricular or ventricular arrhythmias have been reported less commonly. However, clinically significant proarrhythmic effects associated with these agents appear to occur rarely, and, at conventional doses, intravenous inotropic agents are relatively safe with respect to proarrhythmic effects.
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PMID:Electrophysiologic and proarrhythmic effects of intravenous inotropic agents. 756 5

Dopexamine hydrochloride is a new synthetic catecholamine for intravenous use in low cardiac output states with co-existing raised systemic or pulmonary vascular resistance. Dopamine has been commonly used since several years in these situations. The drawbacks of dopamine include a vasoconstrictive effect with high infusion rates, and a marked tendency for ventricular ectopy due to the potent beta-1 adrenergic stimulation. Dopexamine hydrochloride has interesting vasodilator properties, with marked intrinsic agonist activity at beta-2 adrenoreceptors and a lesser agonist activity at dopaminergic receptors (DA1 and DA2). Its mild inotropic activity arises primarily from baroreceptor reflex stimulation with a possible contribution from direct stimulation of myocardial beta 2-adrenoreceptors. Dopexamine hydrochloride is responsible for an inhibition of neuronal re-uptake of catecholamines (uptake-1), producing an indirect stimulation of cardiac beta 1-receptors. This catecholamine has no effect at alpha 1 and alpha 2-adrenoreceptors, and only very weak and clinically insignificant beta 1-adrenoreceptor agonist activity. Dopexamine hydrochloride improves cardiac performance by a marked vasodilation and a mild inotropic activity. The specific activity at dopaminergic receptors increases cerebral, myocardial, splanchnic and renal blood flows. These haemodynamic effects are associated with an increase in diuresis and natriuresis. These benefits are achieved without side effects such as an increased myocardial oxygen consumption, although induced tachycardia may be responsible for chest pain/anginae pain in patients with ischaemic heart disease. In clinical practice, dopexamine hydrochloride is easy to use; the short plasma half-life (6 minutes in healthy volunteers and 11 minutes in patients with low cardiac output) allows a rapid return to pretreatment status at discontinuation of the infusion. Preliminary studies have shown that dopexamine hydrochloride can produce beneficial effects in patients with acute heart failure or with compromised left ventricular function following cardiac surgery. The drug has also been assessed in patients with septic shock, most often in association with dopamine or norepinephrine. In these patients, dopexamine produces a dose-related increase in cardiac index, stroke volume, heart rate and a decrease in systemic vascular resistance. Its use in this indication must be cautious, particularly in patients with hypotension or decreased venous return. Comparative therapeutic trials are clearly required to establish the efficiency and tolerance of dopexamine hydrochloride in comparison with dopamine and dobutamine, before its place in therapy can fully be defined.
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PMID:[Dopexamine: a new dopaminergic agonist]. 790 85

Significant advances are emerging in what concerns the newer inotropic agents. Despite the ideal agent, whose sole action is to increase the sensitivity of contractile proteins to calcium is yet to be found, the identification of specific receptors of dopamine in the CNS and peripheral circulation, had stimulated the pharmacological research of dopaminergic receptors agonists, selective for the subtypes DA1 and DA2, selective DA1 and DA2 antagonists and the dopamine beta-hidroxilase inhibitors and represent an unequivocal value. Beta-adrenergic agonists have been extensively evaluated as positive inotropic agents in the patients with congestive heart failure. Although norepinephrine, epinephrine and isoproterenol are potent stimulators of myocardial beta-adrenergic receptors, the clinical use of these agents has been limited by their positive chronotropic actions and their tendency to exacerbate cardiac arrhythmias (epinephrine and isoproterenol); their potent effects on vascular alpha 1-adrenergic receptors, which cause vasoconstriction (norepinephrine); and their effects on vascular beta 2 receptors, which cause vasodilation (isoproterenol). Dopamine, endogenous precursor of norepinephrine, is a sympathomimetic amine that has been widely used clinically as a cardiac stimulant. The effects of this drug are due to a combination of its actions on alpha, beta, and dopaminergic receptors, as well as a tyramine-like effect that causes the release of endogenous norepinephrine. Dopamine's positive inotropic effects are due principally to stimulation of cardiac beta-adrenergic receptors. At low doses it also stimulates renal dopaminergic receptors, thereby increasing renal cortical blood flow and promotion diuresis; higher doses causes stimulation of alpha 1-adrenergic receptors, resulting in increasing systemic arterial and venous pressures and, potentially, decrease renal blood flow. This vasoconstrictor action is frequently undesirable in patients with severe heart failure, and limits the drug's usefulness as a positive inotropic agent. Despite this risk, the use of synthetically derived catecholamines, i.e. dobutamine, has gained wide acceptance for the treatment of low output state associated with systemic hypotension. Despite the well reported down regulation of beta 1-adrenergic receptors in patients with chronic congestive heart failure, dobutamine consistently exerts hemodynamic benefits in this clinical situation. An attenuation of these benefits may be observed at times, although new tachyphylaxis very rarely occurs. Since dobutamine does not preferentially dilate the renal vasculature, concomitant administration of dopamine, at a dose which only stimulates the dopaminergic receptors in the renal artery, had the advantage of increasing renal perfusion and improving renal function. Administration of dopamine is often prolonged after that of dobutamine, and may help the wearing off of dobutamine.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[New inotropic agents in the treatment of congestive heart failure]. 790 58

Twelve patients with severe heart failure (NYHA class III-IV) were investigated by intraindividual comparison for the hemodynamic and neurohumoral effects of dopamine (3 and 6 micrograms/kg/min), enoximone (8 micrograms/kg/min), and the combination of both medications (dopamine 3 micrograms/kg/min+enoximone 8 micrograms/kg/min) using right heart catheterization. The duration of active treatment was 8 h for each substance with a subsequent washout time of 16 h. Dopamine led to a dose-dependent increase in cardiac index of 10-13% and 18-37% under 3 and 6 micrograms/kg/min, respectively (p < 0.001). Enoximone monotherapy produced a comparable increase in cardiac index between 27 and 32% (p < 0.001). Enoximone, but not dopamine, resulted in a significant decrease in mean pulmonary artery pressure (21-26%; p < 0.01), pulmonary capillary wedge pressure (24-30%; p < 0.01), and right atrial mean pressure (26-28%; p < 0.001). The systemic vascular resistance was without significant changes at low-dose dopamine therapy, decreased by 10-19% insignificantly at a dose of 6 micrograms/kg/min, and reached the level of significance with enoximone therapy (-20 to -25%; p < 0.001). There was a highly significant decrease by 49-55% in systemic vascular resistance with enoximone (p < 0.001), in contrast to dopamine. Heart rate and blood pressure remained without significant changes at low-dose dopamine, with the heart rate increasing significantly by 25% at a dose of 6 micrograms/kg/min within the first 2 h (p < 0.01). Enoximone produced a heart rate increase by 8-13% (being significant after 2 h; p < 0.05) with no changes in blood pressure. The combination therapy with dopamine and enoximone led to an additive increase in cardiac index by 35-43% (p < 0.001), a decrease in right atrial mean pressure by 28-36% (p < 0.01), a decrease in systemic vascular resistance by 27-30% (p < 0.01) and in pulmonary vascular resistance by 46-51%. An additive effect on heart rate was not observed. The respective monotherapies with low-dose dopamine and enoximone had no remarkable effect on plasma catecholamines, while dopamine at a dose of 6 micrograms/kg/min and combination therapy led to a significant increase in noradrenaline levels. There was a highly significant decrease in the plasma concentration of the atrial natriuretic factor under enoximone and combination therapy (p < 0.001) as well as a significant decrease in aldosterone (0 < 0.05).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Neurohumoral and hemodynamic effects in combination therapy of enoximone and dopamine]. 809 23

Chronic heart failure is a complex clinical syndrome characterized by many neuroendocrine manifestations by which the organism responds to the reduced cardiac output--the reduced minute volume. In order to ensure the blood flow to vitally important organs in several regions of the circulation vasoconstriction occurs. The plasma noradrenaline (NA) level rises and this correlates with the stage of chronic heart failure. In chronic heart failure the renin production in the kidney and vascular wall rises and thus also the angiotensin II (AG II) formation is increased. AG II is an affective direct arterial constrictor which facilitates NA release from terminal nerve endings and stimulates aldosterone secretion. AG II conditions also myocardial hypertrophy. Arginine vasopressin (AVP) is usually also elevated in chronic heart failure. In vasoconstriction associated with chronic heart failure participates also endothelin, an effective vasoconstrictor substance which modulates the renin-angiotensin-aldosterone system and has also an antinatriuretic effect. As a compensating response to the increased formation of vasoconstrictor substance during chronic heart failure endogenous vasodilatating and natriuretic substances are formed. Another vasodilatating factor is the atrial natriuretic factor (ANF) which is secreted by atrial myocytes as a result of atrial distension, hypernatremia or tachycardia. ANF inhibits renin, aldosterone and AVP formation. The ANF level correlates closely with the grade of chronic heart failure. With advancing heart failure also down regulation of receptors for ANF occurs. Dopamine, a natural precursor of NA, is also a vasodilatating substance and is secreted during stimulation of the sympathetic nerve. In chronic heart failure the formation of vasoconstrictor substances predominates above vasodilating ones.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Neuroendocrine changes in chronic heart failure]. 809 65

Catecholamines bind to cardiac beta-adrenoceptor to introduce positive inotropic, chronotropic, dromotropic and lucinotropic effects of the heart. Therapeutic catecholamines causes less effects to failing myocardium in comparison to normal myocardium. Down-regulation of cardiac beta-adrenoceptor (decrease in receptor number) and uncoupling of beta-adrenoceptor to G protein (increase in Gi alpha) have been demonstrated in failing human myocardium. Rapid improvement can be obtained in cardiac function by intravenous catecholamines, usually with dopamine and/or dobutamine in patients with acute heart failure. But, tachyphylaxis occurs in 72 hours which limits usefulness of the drugs. Dopamine has DA1-receptor activity which increases renal blood flow and natriuresis. Dobutamine is superior to dopamine in positive lucinotropic effects in reducing PCWP in patients with heart failure. Mechanisms of beta blocker therapy with special reference to molecular mechanisms are discussed.
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PMID:[Catecholamines and beta-blockers for the treatment of heart failure]. 810 Dec 36

1. Dopamine (DA) at low doses (2.5 micrograms kg-1 min-1) produces a measurable increase in glomerular filtration rate (GFR) and effective renal plasma flow (ERPF) in young healthy subjects and has a therapeutic effect in younger patients with congestive cardiac failure (CCF). In elderly healthy subjects, DA increases ERPF but does not increase GFR in all subjects. 2. To determine the potential therapeutic use of DA in elderly subjects with CCF, we studied 17 patients (5 male) aged 79.9 years (range 68 to 93 years) admitted to hospital for inpatient treatment of CCF resistant to diuretic and angiotensin converting enzyme inhibitor therapy. The effects of a single infusion DA at 2.5 micrograms kg-1 min-1 on GFR and ERPF were assessed in a double-blind, placebo controlled prospective study. 3. There were no significant differences in GFR or ERPF between control and DA. A reduction in GFR was seen in some patients. 4. DA at low dosage was not shown to benefit elderly patients with resistant CCF, and in some patients was detrimental. Higher doses or a combination with other inotropes may be necessary for a renal effect in elderly patients.
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PMID:The acute effects of a single dopamine infusion in elderly patients with congestive cardiac failure. 819 35

Sulfoconjugated catecholamines have been regarded simply as metabolites of free catecholamines. However, a conjugated form of the catecholamine, dopamine has recently attracted much attention because it is present at high levels in the plasma of humans and experimental animals. We carried out experimental and clinical studies to determine the physiological significance of this large amount of dopamine conjugate in the plasma. Clinical studies showed that the plasma level of dopamine sulfate decreased significantly during the acute phase of heart failure, whereas that of free dopamine increased. Moreover, the plasma level of conjugated dopamine in patients with essential hypertension was higher than that in control subjects, and being highest in patients with renal hypertension. In experimental studies, we examined the activity for deconjugating DA sulfate in homogenates of organs from dogs. The kidney and liver exhibited the highest activities, and in the heart, the activity was higher in the atrium than the ventricle. We also examined the effect of dopamine sulfate on isolated perfused rat heart. Dopamine sulfate was found to be converted to free dopamine, which was responsible for the positive inotropic action, in atrial tissue. Moreover, deconjugation of DA sulfate to the free form was accelerated by a high work lord on the heart. From these results, we conclude that the formation of dopamine sulfate plays a role in regulating the level of plasma free dopamine and that plasma dopamine sulfate may be a storage or reserve form of dopamine. Free (or active) dopamine may be formed through a deconjugation reaction when necessary.
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PMID:Physiological significance of plasma sulfoconjugated dopamine: experimental and clinical studies. 852 36


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