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

The cardiac in vitro effects of R 80122, a novel phosphodiesterase (PDE) inhibitor, were investigated and compared with those of the reference compound milrinone and of the calcium-sensitizer adibendan. In guinea pig left atria, both milrinone and R 80122 increased contractile force; 10 microM milrinone was equieffective to 1 microM R 80122. The rate of spontaneously beating atria was not altered by R 80122 in the concentration range of 0.01-0.3 microM. Higher concentrations (1-10 microM) led to a statistically insignificant increase of 20%. Milrinone's effect on frequency was more pronounced and amounted to 21% at 10 microM and to 40% at 100 microM. Adibendan increased heart rate (HR) by 10% at a concentration of only 0.03 microM. This effect was not enhanced any further by increasing the concentration. In papillary muscle, the positive inotropic effects of both milrinone and R 80122 were inhibited by carbachol, indicating involvement of cyclic AMP. Further indications for a cyclic AMP-dependent action were obtained by induction of slow action potentials and synergism with isoprenaline. In electrophysiologic measurements, milrinone reduced action potential duration (APD) in a high concentration whereas R 80122 had no effect. Action potential changes elicited by a toxic concentration of ouabain were reduced by R 80122. Relaxation of rat aortic rings contracted by KCl and relaxation of guinea pig aortic rings contracted by norepinephrine (NE) was comparable for both milrinone and R 80122. R 80122 also caused relaxation of canine coronary arteries constricted with prostaglandin F2 alpha (PGF2 alpha) both with and without endothelium. NE-induced contractions in canine gastrosplenic arteries were not affected by R 80122. Cardiac contractility that had been impaired to various degrees by pentobarbital or by aging was restored to control values by both milrinone and R 80122. R 80122 enhanced cardiac contractility at lower concentrations than milrinone with no concomitant increase in frequency or shortening of the action potential, which may be advantageous for treatment of heart failure.
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PMID:In vitro pharmacology of R 80122, a novel phosphodiesterase inhibitor. 128 Jul 31

Beta-adrenergic stimulants (Dobutamine and Dopamine) and recently introduced phosphodiesterase inhibitors (PDI) such as Amrinone, Milrinone, Enoximone and Piroximone are the principal inotropic agents for the treatment of acute cardiac failure. Most of the hemodynamic effects of these drugs are comparable, but peripheral vasodilatation is more marked with PDI. A potential advantage of the latter group is the lack of development tolerance, which occurs within 48 to 72 hours after beta-stimulants. On simultaneous administration, additive effects can be observed. Short term clinical results with PDI are good, especially in patients with postoperative cardiocirculatory failure, including cardiogenic shock. In contrast, long-term oral treatment with Amrinone, Milrinone and Enoximone in recent studies was disappointing. Efficacy was not superior to Digoxin, and unwanted side effects were frequent. Intermittent instead of continuous administration of positive inotropic agents should be evaluated in patients with severe congestive heart failure not responding to vasodilators and diuretics.
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PMID:[New positive inotropic drugs in acute and chronic heart failure]. 135 9

Considerable effort and resources have been directed at the development and study of positive inotropic drugs over the past 10-15 years. Much has been learned about the physiology and pharmacology of myocardial contraction, the application of agents to augment contractility, and, importantly, the general and specific limitations of positive inotropic therapy. Studies on acute inotropic intervention have now shown that a drug's ability to augment overall cardiac performance is heavily dependent on its effects on vasculature, vascular control, and ventricular-vascular coupling. The clinical research on new agents has served to remind us how difficult it is to formulate the "ideal" positive inotropic or cardiovascular support drug for the critical care setting. The vast effort to develop a chronically and orally administrable drug to replace or even supplement digitalis has generally been disappointing. The dopaminergic agents (e.g., ibopamine, levodopa) act primarily via vasodilation and their effectiveness and role in managing heart failure remain unresolved. The initial excitement about the phosphodiesterase III inhibitors (e.g., amrinone, milrinone, enoximone) has been tempered by the results of large well-designed trials indicating variable effectiveness and a prominent adverse effect profile. During long-term oral administration none of these agents has been shown to improve clinical status or exercise capacity beyond that achieved by digoxin, when administered either separately or in combination with digoxin. The Prospective Randomized Milrinone Survival Evaluation (PROMISE) trial, showing that repeated oral administration of milrinone can increase mortality in heart failure, is having a devastating effect on the further development of this class of drugs.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Current status of non-digitalis positive inotropic drugs. 135 56

The cardiac and hemodynamic effects of R80122, a new specific phosphodiesterase III inhibitor, were studied in a closed-chest canine model of acute global left ventricular ischemia complicated by heart failure. The results obtained were compared with those obtained with milrinone. Intravenous infusion of the compounds (0.005 mg/kg/min for both) was started when stable heart failure had developed and was continued for 50 min followed by a washout period of 60 min. Both R80122 and milrinone improved the function of the acutely failing heart, as indicated by the increase in the values of the variables related to left ventricular function, but differences existed. The most striking differences were the normalization of the left ventricular external mechanical efficiency with R80122, but not with milrinone, and the maintenance of aortic blood pressure during infusion of R80122, which decreased during infusion of milrinone. Milrinone tends to induce ventricular tachycardia more frequently than R80122. It can be concluded that R80122 and milrinone improve the function of the acutely failing heart, but that the changes induced by R80122 are better balanced, i.e., enhancement of external mechanical efficiency with maintenance of aortic blood pressure.
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PMID:Cardiac and hemodynamic effects of intravenous R80122, a new phosphodiesterase III inhibitor, in a canine model of myocardial ischemia and heart failure. 138 27

The effects of enoximone (MDL 17043, Perfan, CAS 77671-31-9) on the activities of the phosphodiesterase (PDE) isoenzymes I-IV and on force of contraction were investigated in ventricular preparations isolated from failing (end-stage myocardial failure, NYHA IV) and non-failing human hearts. In both tissues four PDE isoenzymes (PDE I-IV) with similar properties were separated by DEAE-sepharose chromatography. The effects of enoximone on PDE I-IV activities did not differ between non-failing and failing human hearts. As compared to PDE I (IC50 2100 mumol/l) and II (IC50 2900 mumol/l) enoximone is a selective PDE III (cGMP-inhibited PDE, IC50 5.9 mumol/l) and PDE IV (cGMP-insensitive PDE, IC50 21.1 mumol/l) inhibitor. Milrinone, 3-isobutyl-1-methylxanthine (IBMX) and UD-CG 212 Cl, a derivative of pimobendan, were studied in the failing heart for comparison. Milrinone inhibited PDE I-IV activities similar to enoximone, revealing IC50 values for inhibition of PDE III and IV (1.2 and 3.3 mumol/l) which were about two orders of magnitude lower than that of PDE I and II (173 and 306 mumol/l). UD-CG 212 Cl was the most potent (IC50 0.05 mumol/l) and most selective PDE III inhibitor tested (IC50 for PDE I, II and IV were 175, 181 and 40.8 mumol/l, resp.), whereas IBMX inhibited PDE I-IV nonselectively (IC50 15.3, 26.2, 5.6, 5.8 mumol/l, respectively). In trabeculae carneae from nonfailing and failing human hearts enoximone increased force of contraction only marginally by 18.0 +/- 9.1% (n = 8) and 24.5 +/- 8.7% (n = 9) of the predrug value.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphodiesterase inhibition by enoximone in preparations from nonfailing and failing human hearts. 138 15

To characterize the cardiovascular effect of FK664, a compound developed for the treatment of heart failure, the mean circulatory pressure (MCP), cardiac output and other parameters were measured in open-chest anesthetized dogs. Milrinone, a cardiotonic agent, and nifedipine, a calcium channel blocker were used as reference substances. Nifedipine (10 micrograms/kg), FK664 (0.1 mg/kg) or milrinone (0.1 mg/kg) given intravenously reduced the total peripheral resistance in a similar extent (35-40%). Whereas nifedipine had no effect on MCP, FK664 produced a significant decrease in MCP. Milrinone caused a minimal decrease in MCP, but not significantly. These results indicate that FK664 dilates the systemic capacitance vessels. This action to reduce the pre-load would be beneficial in the treatment of heart failure.
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PMID:The effect of FK664, a new cardiovascular drug, on systemic capacitance vessels in anesthetized dogs. 145 74

Milrinone, a bipyridine derivative with positive inotropic and balanced type vasodilating properties, acutely improves cardiac pump function in patients with severe and moderate to severe heart failure. Whether it has similar effects in patients with mild to moderate heart failure is unknown. A hemodynamic evaluation of oral milrinone in dosage of 2.5, 5 and 10 mg was carried out on 3 consecutive days in 18 patients with NYHA class 2.7 heart failure. Patients continued with diuretics and digitalis, administered 15 h before each hemodynamic study. Peak milrinone plasma levels ranged from 77 to 252 micrograms/ml and were attained at 60-90 min following administration. Concomitantly, milrinone significantly reduced pulmonary wedge and right atrial pressures with 24, 47 and 44, and 25, 42 and 38% with the 2.5-, 5- and 10-mg doses, respectively. Milrinone had no effect on cardiac or stroke indices with either dose. Moreover, systemic vascular resistance only decreased by 12% with the highest dose, together with a 7% fall in mean arterial pressure and a 13% rise in heart rate (all p less than 0.05 vs. baseline). Patients were subsequently grouped depending on baseline pulmonary wedge pressure greater than or equal to 18 mm Hg (Gr I, n = 9) or less than 18 mm Hg (Gr II, n = 9). Changes in pulmonary wedge, pulmonary artery and right atrial pressure were similar in both groups following each dose. In contrast, the effect on cardiac pump function clearly differed in patients with high versus normal baseline wedge pressure. In Gr I, cardiac index increased significantly by 16% (5 and 10 mg). In Gr II, cardiac index decreased with 13% following the 10-mg dose (p less than 0.05 vs. baseline). When maximal individual changes in cardiac index were compared, 10 mg milrinone resulted in an improvement of cardiac index in all patients with baseline wedge pressures greater than 15 mm Hg, but in a decrease in cardiac index in patients with lower wedge pressures. It is concluded that milrinone induces contrasting effects on cardiac pump function in patients with mild to moderate heart failure, which may negatively affect its early and, possibly, also late efficacy in this patient group.
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PMID:Preload-dependent hemodynamic effects of milrinone in moderate heart failure. 161 32

Intravenous phosphodiesterase inhibition with milrinone is known to have a beneficial effect on haemodynamics in chronic heart failure. Its effect on lower limb capacitance vessels has not been previously investigated. We have studied the effect of intravenous milrinone in 10 patients with severe chronic heart failure. Thirty minutes after commencement of treatment mean cardiac index had risen by 26% and pulmonary artery wedge pressure, systemic vascular resistance and right atrial pressure had fallen by 51, 24 and 89%, respectively (p less than 0.05 for all changes). These changes were maintained for the 2 h observation period with no evidence of tolerance and were accompanied by a 17% increase in venous volume (p less than 0.01) and a 42% increase in ejection fraction (p less than 0.001) at 30 min; at 120 min the improvement in ejection fraction had been maintained and a further increase in venous volume to 38% above baseline was evident. The increase in venous volume was strongly correlated with the decrease in mean pulmonary artery wedge pressure and mean right atrial pressure at 30 min and 2 h (r = -0.80 and -0.69 for mean pulmonary artery wedge pressure, r = -0.88 and -0.56 for mean right atrial pressure). Milrinone therefore has clinically important venodilating properties, in addition to its known effects as an arterial vasodilator and a positive inotrope.
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PMID:Acute effects of intravenous phosphodiesterase inhibition in chronic heart failure: simultaneous pre- and afterload reduction with a single agent. 161 97

The clinical literature on the subject of inotropic therapy of heart failure, particularly use of digitalis glycosides, is full of contradictions. Most of this disparity can be accounted for if not reconciled by taking the methodology of the clinical trials into consideration. Because drug interventions may produce subtle effects requiring a subjective determination, the questions being asked in these studies cannot be answered without removing as many sources of bias as possible from the patient management and data analysis. If a study has not been adequately randomized, double-blinded, and placebo-controlled, the clinical findings will be inconclusive at best. Systolic myocardial dysfunction plays a pivotal role in the pathogenesis of CHF in many patients and is a prerequisite for the use of cardiotonic drugs. Although the clinical signs of heart failure may be relieved initially by diuretics and vasodilators, compensation may require the addition of a positive inotrope, particularly in advanced cases. In veterinary medicine, the choice of positive inotrope is limited to digoxin, digitoxin, dobutamine, or amrinone. Digoxin possesses superior pharmacokinetics and is the cardiac glycoside of choice for use in the dog. Dobutamine and amrinone are more potent inotropes, but since they must be administered by continuous intravenous infusion, their use is limited to critical care therapy. At the present time, only digoxin can be administered orally for sustained long-term maintenance therapy. Milrinone, a more potent derivative of amrinone, also offers this option, but it has not been available since its brief trial debut as an investigational drug. None of the nonglycoside alternatives couples the benefits of positive inotropic and negative chronotropic effects. Consequently, digoxin remains the mainstay for chronic inotropic support of the heart. Atrial fibrillation with a rapid ventricular response rate is the prime indication for digoxin. In the last few years, evidence from methodologically sound clinical trials on humans has also restored faith in the efficacy of digoxin for treating heart failure in patients with normal sinus rhythm. From these studies, the profile of a digitalis responsive heart failure patient has emerged. Digoxin is most likely to be efficacious when heart failure is associated with chronic, severe ventricular systolic dysfunction, which has resulted in ventricular dilatation. The most reliable clinical marker is the presence of a third heart sound (gallop rhythm). Although the patients in the worst heart failure generally have the shortest survival time, they may also have the most dramatic short-term clinical benefit. However, once cardiac reserve is exhausted in the terminal stages of failure, cardiotonic stimulation ceases to be effective.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Efficacy of inotropic support of the failing heart. 194 98

Milrinone has been studied in a variety of situations. In experimental dogs it has been documented to increase contractility to a similar degree as beta-receptor agonists and to produce mild arteriolar dilation in dogs. In canine patients with heart failure, milrinone produces demonstrable improvement in echocardiographic ventricular function and hemodynamic variables. In addition, it improves clinical signs in these patients, improving their quality of life. Milrinone is superior to digoxin as evidenced by the improvement in clinical signs noted in dogs that were unresponsive or no longer responding to digoxin administration. There is no doubt that milrinone improves short-term prognosis and in so doing prolongs life. Many of the patients that the author has observed would not have gone home without the benefits of milrinone. Milrinone's effects on long-term survival cannot be assessed, but its effects on survival time are certainly not dramatic enough to be evident without a comparison population. Therefore, milrinone administration should be considered palliative, as is administration of all other cardiovascular medications for heart failure. In addition to its beneficial effects, milrinone also appears to be relatively safe when compared with the alternative of digoxin administration. Fatal events attributable to milrinone administration are rare, and those directly attributable to enhanced ventricular arrhythmia can generally be avoided by monitoring an electrocardiogram after initial milrinone administration commences. Milrinone does not increase the incidence of sudden death in Doberman Pinschers. It is possible that a small number of dogs with mitral regurgitation may develop mitral chordal rupture. For this reason and possibly others, milrinone probably will not be indicated in early heart failure due to mitral regurgitation when heart failure is readily responsive to diuretic administration. The risk-to-benefit ratio turns markedly in the favor of milrinone administration in the dog with mitral regurgitation that is partially or completely refractory to other cardiovascular drugs. Milrinone appears to be a more effective and safer positive inotrope for long-term treatment of dogs with congestive heart failure than drugs currently available. The author and all the investigators involved in the milrinone clinical trials hope that it will soon be available for use by the veterinary community.
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PMID:The efficacy and safety of milrinone for treating heart failure in dogs. 194 99


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