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)

The effect of flosequinan and its sulphone metabolite BTS 53,554, on phosphodiesterase isoenzymes isolated from guinea-pig cardiac and vascular smooth muscle using DEAE-cellulose chromatography was investigated. Zaprinast and milrinone showed peak I and peak III selectivity, and IBMX non-selective activity respectively, against both cardiac and vascular smooth muscle isoenzymes, as expected for these reference inhibitors. Flosequinan and BTS 53,554 demonstrated non-selective inhibition with similar potency against both cardiac and vascular smooth muscle isoenzymes and, overall, were the least potent compounds tested. The high inhibitory concentrations observed (IC50 peak III 660 microM for cardiac tissue and 230 microM for vascular smooth muscle with flosequinan) relative to its clinically effective plasma concentration (10 microM) questions the relevance of phosphodiesterase inhibition to the efficacy of flosequinan in heart failure.
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PMID:Effect of flosequinan upon isoenzymes of phosphodiesterase from guinea-pig cardiac and vascular smooth muscle. 131 14

1. In right ventricular papillary muscles from control ferrets, flosequinan (10(-7)-10(-4) M) produced a concentration-dependent positive inotropic effect (10(-5) M = 153 +/- 24, 10(-4) M = 198 +/- 44% increase in isometric tension; control tension = 100%; n = 11) associated with a corresponding increase in amplitude of the intracellular Ca2+ ([Ca2+]i) transient recorded with aequorin (10(-5) M = 133 +/- 11, 10(-4) M = 187 +/- 36% increase in [Ca2+]i transient; n = 11). 2. The positive inotropic effect of flosequinan in control ferret ventricular muscle was neither blocked by propranolol (6 x 10(-7) M), nor associated with the abbreviation of the [Ca2+]i transient and contraction that is typical of catecholamines. 3. Neither flosequinan (n = 12) nor BTS 53 554, its sulphone metabolite (n = 6) produced a positive inotropic effect or altered the time course of contraction in myocardium from the hearts of patients with end-stage failure. 4. In contrast to milrinone, which produces a positive inotropic effect via phosphodiesterase inhibition, the unresponsiveness of myopathic human myocardium to flosequinan was not restored after intracellular adenosine 3':5'-cyclic monophosphate (cyclic AMP) levels were increased by prior treatment with forskolin (n = 13). 5. Taken together, these data indicate that flosequinan has a direct positive inotropic effect that is Ca(2+)-dependent, but independent of changes in intracellular cyclic AMP concentrations. 6. The positive inotropic effect may be species-dependent or altered by the presence of hypertrophy and/or heart failure. However, when used therapeutically in patients with severe heart failure, our data suggest that flosequinan should not adversely affect myocardial oxygen consumption through direct or catecholamine-mediated actions on the heart.
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PMID:Differential inotropic effects of flosequinan in ventricular muscle from normal ferrets versus patients with end-stage heart failure. 132 72

Flosequinan (BTS 49465) is a putative, selective direct-acting balanced vasodilator currently undergoing evaluation for the treatment of congestive heart failure (CHF) and hypertension. We examined the pharmacologic action of flosequinan and compared it to milrinone and nitroprusside (SNP). In ferret papillary muscle, in vitro, flosequinan (1-100 microM) increased the rate of force development up to 116%. The effect was not blocked by nadolol (10 microM). Flosequinan was less effective than milrinone and SNP as a relaxant of canine renal and coronary arteries, in vitro, since 100 microM of flosequinan produced less than 50% relaxation of the arteries, whereas milrinone or SNP (100 microM) produced between 85 and 125% relaxation of the precontracted arteries. Flosequinan, SNP, and milrinone (100 microM) completely relaxed precontracted canine mesenteric veins. Fifteen minutes after intraduodenal administration (i.d.) of flosequinan (0.3, 1.0, and 3.0 mg/kg) to anesthetized dogs (n = 7), mean left ventricular (LV) dP/dT increased by 11, 27, and 54%, respectively, whereas total peripheral resistance (TPR) decreased by 4, 4, and 13%, and mean arterial pressure (MAP) decreased by 7, 14, and 23%, respectively. flosequinan was 4.6 times more potent as a positive inotrope than as a vasodilator. The hemodynamic profile of milrinone was similar to that of flosequinan, except milrinone produced greater increases in LV dP/dT and decreases in MAP and TPR. In contrast, SNP (1, 3, and 10 micrograms/kg/min i.v.) decreased TPR (7, 18, and 34%, respectively) and MAP (14, 32, and 41%, respectively) without any increase in LV dP/dT. In dogs with propranolol-induced heart failure (PIHF), flosequinan (1.0 and 3.0 mg/kg, i.d.) increased mean myocardial dP/dT by 54 and 84% (n = 5) and MAP, but decreased TPR. The data show that (a) the hemodynamic effects of flosequinan in the normal and PIHF dogs were primarily due to positive inotropy rather than to arterial vasodilation and (b) the positive inotropic effect of flosequinan is independent of catecholamines, since it occurred in dogs with PIHF. The beneficial effect of flosequinan in patients with CHF may not be mediated by balanced vasodilation.
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PMID:Positive inotropy contributes to the hemodynamic mechanism of action of flosequinan (BTS 49465) in the intact dog. 169 12

BTS 49465 (flosequinan), a putative selective, balanced arterial and venous vasodilator, displays positive inotropic effects in doses lower than those producing vasodilation. Thus rather than unloading the myocardium, flosequinan may increase myocardial work and oxygen consumption (MVO2), and may adversely affect the patient with myocardial ischemia or compromised coronary blood flow. This study compared the effects of flosequinan with milrinone, a mixed positive inotropic agent and vasodilator, and with nitroprusside (SNP), a standard direct-acting vasodilator, on myocardial dP/dT, MVO2, and myocardial energetics in the normal pentobartital-anesthetized dog. The effect of flosequinan on myocardial work was also evaluated in the dog with propranolol-induced heart failure (PIHF). Fifteen minutes after intraduodenal (id) administration of flosequinan (0.3, 1.0, and 3.0 mg/kg) to seven dogs, mean myocardial dP/dT was increased by 11%, 27%, and 54%, respectively, whereas stroke MVO2 was increased by 10%, 24%, and 47%, respectively. Doses of flosequinan greater than 0.3 mg/kg decreased left ventricular (LV) work but LV efficiency decreased in a dose-related manner. Milrinone (0.1, 0.3, and 1.0 mg/kg, id) increased LV dp/dt by 34%, 68%, and 104% above basal values, while increasing stroke MVO2 by 24%, 106%, and 249%, respectively (n = 7). LV work and LV efficiency decreased after each dose of milrinone. SNP (0.001, 0.003, and 0.01 mg/kg/min, intravenously) did not increase dP/dT but decreased LV work by 28%, 42%, and 46% (n = 5). In animals with PIHF, flosequinan (1 and 3 mg/kg, id) increased LV dP/dT 58% and 87% and increased LV work by 58% and 76% above control values. It was concluded that (1) flosequinan is a positive inotropic agent as well as a vasodilator; (2) in the normal animal the energy cost of positive inotropic activity is less with flosequinan than with milrinone, despite the lesser vasodilating action of the former; and (3) in the animal with a depressed myocardium, flosequinan may adversely affect myocardial work and wall tension.
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PMID:Effect of flosequinan (BTS 49465) on myocardial oxygen consumption. 235 21

Pharmacologic tolerance develops rapidly to the hemodynamic effects of many vasodilator drugs used in the treatment of congestive heart failure. We evaluated the responses to 3 days of therapy with a new long-acting vasodilator drug, flosequinan (BTS 49465), in 16 patients with severe chronic heart failure. On each of the 3 days, flosequinan (100 or 150 mg orally) produced marked increases in cardiac index and decreases in left ventricular filling pressure, mean right atrial pressure, and systemic vascular resistance (all p less than 0.01) without significant changes in heart rate. Whereas the effects of flosequinan on right and left ventricular filling pressures on the first and third days were similar, cardiac index was higher and systemic vascular resistance was lower after the third dose than after the first dose of the drug, indicating the occurrence of a cumulative vasodilator effect on arterial resistance vessels. Since all hemodynamic changes persisted for longer than 24 h after each dose of the drug, the daily administration of flosequinan also produced a progressive improvement in the hemodynamic state recorded before each dose of the drug. These data indicate that pharmacologic tolerance does not develop to the effects of flosequinan during short-term therapy with the drug in patients with severe chronic heart failure. Instead, further hemodynamic improvement may occur because of a cumulative vasodilator effect that results from the drug's prolonged duration of action.
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PMID:Cumulative hemodynamic response to short-term treatment with flosequinan (BTS 49465), a new direct-acting vasodilator drug, in severe chronic congestive heart failure. 245 36

The hemodynamic effects of BTS 49465, a new oral, direct-acting systemic vasodilator drug, were investigated in 10 patients with severe chronic congestive heart failure. One to 2 hours after the administration of 1.5 mg/kg orally, BTS 49465 produced significant increases in cardiac index, stroke volume index, and stroke work index (26%, 27%, and 23%, respectively, p less than 0.01 to 0.001) and marked decreases in left ventricular filling pressure (-12.6 mm Hg, 44%), mean pulmonary artery pressure (-13.2 mm Hg, 31%), and mean right atrial pressure (-7.7 mm Hg, 63%), all p less than 0.001, without significant changes in heart rate. These hemodynamic responses were accompanied by notable declines in systemic vascular resistance (-28%, p less than 0.001) and pulmonary arteriolar resistance (-24%, p less than 0.05). These effects persisted throughout the 24-hour period of observation. The decline in left ventricular filling pressure in our patients ranged in magnitude from 8 to 21 mm Hg, and varied linearly and directly with pretreatment values for left ventricular filling pressure (r = 0.69). The decrease in systemic vascular resistance ranged in magnitude from 3% to 40% and varied linearly and directly with pretreatment values for systemic vascular resistance (r = 0.85). These data indicate that BTS 49465, a new oral, direct-acting vasodilator agent, exerts balanced cardiocirculatory effects in patients with severe chronic heart failure, which may be sustained with once-daily oral administration.
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PMID:Hemodynamic effects of BTS 49465, a new long-acting systemic vasodilator drug, in patients with severe congestive heart failure. 379 27

Flosequinan is a balanced-type vasodilator with a prolonged mode of action due to an approximate 38-hour half-life of its active first metabolite, BTS 53554. As this may lead to tolerance and neurohormonal activation, the acute and long-term pharmacokinetic, hemodynamic, and neurohormonal profile of flosequinan was evaluated. On three consecutive days, 23 patients with heart failure (New York Heart Association classes II-IV), despite digitalis and diuretics, underwent invasive hemodynamic studies after receiving 100 mg oral flosequinan (day 1), placebo (day 2), and 100 mg flosequinan (day 3), followed by repeat invasive evaluation after long-term flosequinan (100 mg daily) for 17 +/- 2 weeks. On each study day, plasma flosequinan levels increased to 1.9 +/- 0.2 mg/L after 1 hour, but returned to baseline levels at 24 hours. In contrast, BTS 53554 increased progressively, reaching relatively high plateau levels (6 mg/L) during chronic therapy. First-dose flosequinan decreased the pulmonary wedge, right atrial pressure, and systemic resistance by 50, 60, and 22%, respectively, whereas the cardiac index was increased by 40%; these effects lasted for 48 hours. During long-term treatment, baseline values of the pulmonary wedge and right atrial pressure were comparable to prestudy values, whereas systemic resistance had decreased by 22%, and the cardiac index and heart rate had increased by 22 and 14%, respectively. Readministration of flosequinan did not further affect hemodynamics, apart from a moderate reduction in the pulmonary wedge and right atrial pressure. Neurohumoral activation did not occur during acute or long-term therapy. Thus, although changes in left and right heart filling pressures are attenuated during long-term treatment, flosequinan induces sustained arterial dilatation and improves cardiac pump function without activation of circulating neurohormones.
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PMID:Long-term vasodilator treatment with flosequinan does not lead to hemodynamic tolerance or neurohormonal activation in severe heart failure. 942 Jun 41