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)

Dopexamine (FPL 60278) is a new vasodilator possessing both postjunctional dopaminergic and beta 2-adrenoceptor agonist actions. Its acute haemodynamic effects were compared in a cross-over study with those of dobutamine, captopril, and glyceryl trinitrate (GTN) in eight adult patients with chronic heart failure. Dopexamine, 1 microgram/kg/min intravenously (i.v.) for 10 min, increased cardiac index, systolic blood pressure, and heart rate while reducing systemic vascular resistance. Pulmonary artery end-diastolic pressure was unchanged. Plasma norepinephrine (NE) increased during dopexamine infusion. No arrhythmias occurred. Dobutamine, 5 micrograms/kg/min i.v. for 10 min, increased cardiac index and systolic blood pressure similarly but did not increase heart rate or reduce vascular resistance. Captopril, 25 mg orally, did not alter cardiac index at 1 h, but reduced heart rate, blood pressure, pulmonary diastolic pressure, and vascular resistance. GTN, 100 micrograms sublingually, reduced pulmonary diastolic pressure but did not affect other variables at 5 min. Dopexamine, because it combines some of the properties of dopamine and salbutamol, may have a role in the management of severe low output cardiac failure.
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PMID:Acute hemodynamic and neuroendocrine effects of dopexamine, a new vasodilator for the treatment of heart failure: comparison with dobutamine, captopril, and nitrate. 243 36

Dobutamine has been shown to exert disparate clinical effects in patients with cardiomyopathy and heart failure. This study evaluated the effects of dobutamine on hemodynamics and energetics in isolated, perfused myopathic hamster hearts at a moderate and advanced stage of heart failure. Biochemical changes were correlated with left ventricular developed pressure, coronary flow, and myocardial oxygen consumption. During dobutamine treatment left ventricular developed pressure increased in the control and moderate heart failure group 28.0 +/- 1.0% and 114.2 +/- 11.6%, respectively. Myocardial oxygen consumption increased 50.1 +/- 9.1% and 45.5 +/- 16.0%, respectively. There were no significant changes of left ventricular developed pressure and myocardial oxygen consumption in the advanced heart failure group. Inorganic phosphate (Pi) increased in the control group from 6.8 +/- 0.5 to 11.4 +/- 1.2 mmol (p less than 0.005) and in the advanced heart failure group from 10.4 +/- 1.1 to 15.3 +/- 1.2 mmol (p less than 0.01). Phosphocreatine (PCr) and beta-ATP (adenosine triphosphate) decreased in the control group from 12.2 +/- 0.4 to 8.7 +/- 0.7 mmol (p less than 0.001) and 10.4 +/- 0.8 to 7.7 +/- 0.7 mmol (p less than 0.02), respectively. PCr/Pi ratio, reflecting mitochondrial function, fell in the control and advanced heart failure group from 1.84 +/- 0.14 to 0.84 +/- 0.14 (p less than 0.02) and 0.81 +/- 0.16 to 0.37 +/- 0.08 (p less than 0.03), respectively. Thus in cardiomyopathic hamsters dobutamine improved mechanical performance and thermodynamic efficiency in moderate stages of heart failure by improving mitochondrial activity, but did not improve mechanical performance in an advanced stage of heart failure. These experiments provide into the disparate clinical effects of dobutamine at various stages of heart failure.
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PMID:The effect of dobutamine on myocardial performance and high-energy phosphate metabolism at different stages of heart failure in cardiomyopathic hamsters: a 31P MRS study. 266 31

Dobutamine is a commonly used positive inotrope for the short-term management of heart failure. It is commercially available as a 50:50 mixture of two isomers with unique effects on alpha- and beta adrenergic receptors. In dosages of 2-15 micrograms/kg/minute, dobutamine has been shown to increase cardiac output (mainly through stroke volume), reduce systemic vascular resistance, lower central venous and pulmonary artery wedge pressures, improve renal blood flow, and relieve signs and symptoms of congestive heart failure. At higher dosages it can increase heart rate and induce arrhythmias. Recent evidence indicates that effects of dobutamine last long after the drug has been eliminated from the plasma, and some work has been done on ambulatory use of this agent. Dobutamine has been used successfully in several circumstances, such as after cardiac surgery, in patients with myocardial infarction, and in various shock states. An understanding of the pathophysiology of the underlying disorder is important in deciding which catecholamine to use. With this in mind, monotherapy or combination therapy with inodilators such as dobutamine, or inopressors like dopamine will follow logically.
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PMID:Dobutamine: ten years later. 267 57

Dopamine hydrochloride is widely used to increase blood pressure, cardiac output, urine output, and peripheral perfusion in neonates, infants, and older children with shock and cardiac failure. Its pharmacologic effects are dose dependent, and at low, intermediate, and high dosages include dilation of renal, mesenteric, and cerebral vasculature; inotropic response in the myocardium; and increases in peripheral and renal vascular resistance, respectively. The inotropic response is diminished in neonates compared with older children and adults due to maturational differences in norepinephrine stores. The clearance of dopamine varies widely in the pediatric population, depending on age. Its elimination half-life is approximately 2 minutes in full-term neonates and older children, and may be as long as 4-5 minutes in preterm infants. Due to immaturity of the autonomic nervous system, the drug may produce some adverse respiratory responses at high dose in neonates, the most common being tachycardia and cardiac arrhythmias. Dobutamine resembles dopamine chemically and is an analog of isoproterenol. It is relatively cardioselective at dosages used in clinical practice, with its main action being on beta 1-adrenergic receptors. Unlike dopamine, it does not have any effect on specific dopaminergic receptors. Dobutamine is used to increase cardiac output in infants and children with circulatory failure. Its elimination half-life is about 2 minutes in adults and older children. No information is available about its pharmacokinetics in neonates and infants. Adverse effects such as an increase in heart rate usually occur at high dosages.
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PMID:Dopamine and dobutamine in pediatric therapy. 268 52

Digitalis glycosides exert both excitatory and inhibitory autonomic actions in animals and produce vasoconstriction in normal humans but produce vasodilation in heart failure patients. To determine whether or not these contrasting vascular responses are due to differing autonomic actions of the drug, we compared the responses to intravenous administration of Cedilanid-D (0.02 mg/kg) in eight normal subjects (mean age, 23 +/- 1 years) and eight patients with moderate-to-severe heart failure (mean age, 52 +/- 5 years, NYHA Class III-IV). Hemodynamics and efferent sympathetic nerve activity to muscle (MSNA) were measured during 5-minute periods before (control) and 20 minutes after drug administration. In the heart failure patients, Cedilanid-D significantly increased systolic and pulse pressures, whereas mean arterial pressure was unchanged. There was a decrease in right atrial pressure and a tendency for a decrease in pulmonary artery diastolic pressure with a slowing of heart rate. Cardiac index increased by 24 +/- 7%. Short-term administration of digitalis in these heart failure patients produced a fall in forearm vascular resistance (from 37.6 +/- 8.2 to 31.8 +/- 8.1 units, p less than 0.05) and an early, profound, and sustained decrease in MSNA (from 831.0 +/- 118.4 to 474.4 +/- 103.6 units/100 heart beats, p less than 0.01). Digitalis glycosides produced different vascular and MSNA responses in the normal subjects. In the normal volunteers, the drug significantly increased systolic, mean, and pulse pressures and decreased central venous pressure and heart rate. Despite the significant increase in arterial pressure, there was no change in forearm vascular resistance (from 11.7 +/- 1.0 to 12.7 +/- 1.0 units, p = NS) or MSNA (from 494.8 +/- 88.5 to 369.1 +/- 60.5 units/100 heart beats, p = NS), suggesting a sympathoexcitatory response in normal subjects. To determine whether or not the digitalis-induced sympathoinhibition in the heart failure patients was simply due to an inotropic effect (stimulation of inhibitory cardiac mechanoreceptors), we studied the responses of seven additional patients with heart failure before and during administration of dobutamine (3.4 +/- 0.4 micrograms/kg/min). Dobutamine produced a 34 +/- 3% increase in cardiac index, no significant change in systemic arterial pressures, a decrease in pulmonary artery diastolic and right atrial pressures, and no change in heart rate or forearm vascular resistance (from 30.2 +/- 4.3 to 26.5 +/- 4.7 units, p = NS).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Sympathoinhibitory responses to digitalis glycosides in heart failure patients. Direct evidence from sympathetic neural recordings. 273 56

A denervated heart coupled to a periphery previously exposed to high catecholamine levels provides a unique model to study adrenoceptor physiology. Six orthotopic transplant patients (1.3 +/- 0.8 years postoperative) were age matched with six atropine-treated normal subjects. Simultaneous two-dimensionally targeted left ventricular echo-cardiograms and calibrated carotid pulse tracings were recorded. Left ventricular contractility was assessed with use of heart rate- and load-independent end-systolic indexes. Studies were performed at baseline and during dobutamine infusion with and without beta-adrenergic blockade with use of propranolol; effects were assessed during afterload changes generated by the alpha 1 agonist methoxamine. There were no differences in baseline contractility or reserve between transplant patients and normal subjects. The heart rate response to dobutamine was greater for transplant patients (p less than 0.001). In both groups, the positive inotropic and chronotropic effects of dobutamine were ablated by propranolol. Dobutamine plus propranolol (unopposed alpha 1 effect) did not change mean systemic pressure in transplant patients while markedly raising mean systemic pressures in normal subjects (36 +/- 18 mm Hg; p less than 0.001). In addition, during initial challenge with methoxamine, the transplant patients required 60% more alpha 1 agonist than did the normal subjects (p less than 0.001) to obtain a pressor effect. In summary, transplant patients who were previously in severe heart failure have normal left ventricular inotropic response to beta 1 activation and blockade, exaggerated chronotropic response to dobutamine and reduced sensitivity to stimulation with alpha 1-adrenoceptor agonists. These findings are consistent with a differential response of adrenoceptors to long-term stimulation after cardiac transplantation.
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PMID:Cardiac and peripheral vascular responses to adrenoceptor stimulation and blockade after cardiac transplantation. 280 76

The drugs, new and old, useful in the treatment of acute cardiac failure, are reviewed in the light of its pathophysiological mechanisms and of the biochemical aspects of myocardial contraction. Two major classes of drugs are considered, those that stimulate cell membrane adenylcyclase, i.e. beta-agonists (dopamine, dobutamine and dopexamine) and alpha-agonists (glucagon, forskolin, calcium agonists) and those that inhibit the cellular phosphodiesterases, i.e. bipyridine derivatives (amrinone and milrinone) and imidazolone derivatives (fenoximone and piroximone). Virtually, all the inotropic agents act by increasing the entry of calcium into the cell by increasing the intracellular AMPc concentration. Dopamine has a dose-related triphasic activity. At low doses, stimulation of renal dopaminergic receptors increases renal blood flow, glomerular filtration rate and sodium clearance. At moderate doses, dopamine stimulates, for the most part, cardiac beta-adrenergic receptors. Higher doses stimulate alpha-1-adrenergic receptors, with an increase in systemic arterial and venous pressures. Dobutamine exerts a potent positive inotropic action, with little effect on vascular tone and less tachycardia than with other catecholamines, resulting in only a slight increase in myocardial oxygen consumption. The dopamine analogue, dopexamine, increases renal blood flow, myocardial contractility and produces peripheral vasodilation. The haemodynamic effects of phosphodiesterase inhibitors are similar to those of dobutamine, except that these drugs are vasodilators, their positive inotropic properties are weak and their haemodynamic effects persist for at least 8 h after a single dose in heart failure patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Use of new inotropic agents in the treatment of acute cardiac failure]. 289 79

The acute effects of captopril and dobutamine, alone and in combination, on left ventricular contractility were assessed from left ventricular end-systolic pressure-volume and pressure-shortening relations in 6 patients with severe end-stage cardiac failure. Dobutamine was given by constant intravenous infusion on two occasions 48 hours apart, on one of these occasions the patient also received oral captopril in a dose of 37 +/- 12 mg 6-hourly. Pressures and cardiac index were measured, and left ventricular volumes and ejection fraction computed from simultaneously recorded radionuclide ventriculography. Dobutamine alone did not cause a statistically significant increase in stroke index, stroke work index, cardiac index and ejection fraction, although pulmonary capillary wedge pressure and right atrial pressure fell (P less than 0.05). There was no change in systemic or pulmonary vascular resistance nor in arterial blood pressure. Following administration of captopril, diastolic arterial pressure decreased (P less than 0.05), and the dobutamine challenge produced a greater and significant rise in stroke and stroke work index (P less than 0.05) and cardiac index (P less than 0.01). The left ventricular contractile state was unaltered by captopril but appeared to increase with dobutamine and more so during combined therapy with captopril and dobutamine, indicating a synergistic effect of the two drugs when given in combination.
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PMID:Synergistic effect of captopril and dobutamine on left ventricular pressure-volume and pressure-shortening relations in severe cardiac failure. 306 63

The hemodynamic and hormonal responses to dobutamine alone and with the addition of amrinone were studied in ten patients with severe heart failure. Dobutamine significantly increased heart rate, cardiac index, and stroke volume index and significantly decreased mean right atrial and systemic arterial pressures and systemic and pulmonary vascular resistance. The addition of amrinone further decreased significantly mean right atrial, pulmonary arterial, and pulmonary arterial wedge pressures and systemic vascular resistance, while heart rate rose. The response of the cardiac index was variable, increasing in seven and decreasing in three patients. Plasma renin activity rose significantly with dobutamine and further increased with amrinone. We conclude that in most patients with severe heart failure, amrinone, when combined with dobutamine, improves hemodynamics. The further increase in heart rate, variable effects on the cardiac index, and marked activation of the renin-angiotensin system suggest caution and potential limitations in the use of this combination.
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PMID:Combined therapy with dobutamine and amrinone in severe heart failure. Improved hemodynamics and increased activation of the renin-angiotensin system with combined intravenous therapy. 330 46

Dobutamine is a sympathomimetic amine that was designed as an inotropic agent for use in congestive heart failure. Clinically, dobutamine increases cardiac output by selectively augmenting stroke volume, and this is associated with a decrease in total peripheral vascular resistance that is mediated, in part, by reflex withdrawal of sympathetic tone to the vasculature. This hemodynamic profile of dobutamine makes the drug of value in the management of low output cardiac failure. The inotropic activity of dobutamine has previously been attributed to selective stimulation of myocardial beta 1-adrenoceptors. However, recent studies from a number of laboratories indicate that the mechanism of action of dobutamine is substantially more complex. Dobutamine has the capacity to stimulate beta 1-, beta 2-, and alpha 1-adrenoceptors in the cardiovascular system at doses that approximate those used clinically. It has recently been suggested that the inotropic activity of dobutamine results from combined beta 1- and alpha 1-adrenoceptor stimulation in the myocardium, and that this activity could explain, at least in part, the inotropic selectivity of the compound. Furthermore, in the vasculature, the beta 2-adrenoceptor-mediated vasodilatory effect of dobutamine is exactly offset by the alpha 1-adrenoceptor-mediated vasoconstrictor activity, such that net changes in blood pressure are minimal following the administration of dobutamine. It is concluded, therefore, that the hemodynamic profile of dobutamine in patients with congestive heart failure is derived from a unique and complex series of interactions with alpha- and beta-adrenoceptors in the cardiovascular system.
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PMID:The pharmacology of dobutamine. 331 Jun 40


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