Rationale and design of the enoximone clinical trials program.

BACKGROUND: Chronic heart failure is a disease syndrome characterized in its advanced stages by a poor quality of life, frequent hospitalizations, and a high risk of mortality. In advanced and ultra-advanced chronic heart failure, many treatment options, such as cardiac transplantation and mechanical devices, are severely limited by availability and cost. Short-term Phase II clinical trials suggest that low-dose oral inotropic therapy with enoximone may improve hemodynamics and exercise capacity, without adversely affecting mortality, in selected subjects with advanced chronic heart failure. Based on these data, the ability of enoximone to deliver safe and efficacious palliative treatment of advanced/ultra-advanced chronic heart failure is being evaluated in Phase III clinical trials. METHODS AND RESULTS: The Enoximone Clinical Trials Program is a series of 4 clinical trials designed to evaluate the safety and efficacy of oral enoximone in advanced chronic heart failure. ESSENTIAL I and II (The Studies of Oral Enoximone Therapy in Advanced Heart Failure) will investigate the effects of oral enoximone on all-cause mortality and cardiovascular hospitalization, submaximal exercise capacity, and quality of life in subjects with New York Heart Association Class III/IV chronic heart failure. EMOTE (Oral Enoximone in Intravenous Inotrope-Dependent Subjects) will evaluate the potential of oral enoximone to wean subjects with ultra-advanced chronic heart failure from chronic intravenous inotropic therapy to which they have been shown to be dependent. EMPOWER (Enoximone Plus Extended-Release Metoprolol Succinate in Subjects with Advanced Chronic Heart Failure) will explore the potential of enoximone to increase the tolerability of continuous release metoprolol in subjects shown previously to be hemodynamically intolerant to beta-blocker treatment. CONCLUSION: These studies are Phase III, multicenter, randomized, double-blinded, placebo-controlled trials designed to test the general hypothesis that chronic oral administration of low doses of enoximone can produce beneficial effects in subjects with advanced or ultra-advanced chronic heart failure.

Enoximone pharmacokinetics in infants.

Enoximone and enoximone sulphoxide concentrations were measured in plasma of 20 infants, median age 6.0 (range 0.6-49.7) weeks, during and after prolonged continuous infusions. Patients were given enoximone 1 mg kg-1 and an infusion at 10 micrograms kg-1 min-1 just before being weaned from cardiopulmonary bypass (CPB). The infusion was stopped when clinically indicated, after a median 97 (range 24-572) h. Arterial blood samples were taken 30 min and 12 h after CPB, every 24 h during the infusion, and then 2, 4, 8, 12 and 24 h after the infusion was stopped. Pharmacokinetic non-compartmental analysis was performed using TOPFIT software. Fourteen patients who retained normal hepatic function had a median (95% confidence intervals) clearance of 9.7 (6.3-14.1) ml min-1 kg-1, elimination half-life of 5.2 (2.4-6.8) h and a volume of distribution of 3.6 (2.0-5.7) litre kg-1. The six patients with significant hepatic dysfunction had a lower clearance, 5.7 (2.4-14.5) ml min-1 kg-1, and significantly longer elimination half-life, 7.6 (6.5-10.9) h (P = 0.02). Enoximone sulphoxide elimination half-life was significantly prolonged in three patients with renal dysfunction, 16.2 (10.5-17.7) h versus 6.9 (6.1-9.4) h (P = 0.03). These results confirm that enoximone pharmacokinetics in infants is similar to that found in adults. The infusion rate of enoximone should be reduced if hepatic or renal dysfunction supervenes.

Clinical pharmacokinetics of vasodilators. Part II.

Stimulating cardiac beta 1-adrenoceptors with oxyfedrine causes dilatation of coronary vessels and positive inotropic effects on the myocardium. beta 1-adrenergic agonists increase coronary blood flow in nonstenotic and stenotic vessels. The main indication for the use of the phosphodiesterase inhibitors pamrinone, mirinone, enoximone and piroximone is acute treatment of severe congestive heart failure. Theophylline is indicated for the treatment of asthma, chronic obstructive pulmonary disease, apnea in preterm infants ans sleep apnea syndrome. Severe arterial occlusive disease associated with atherosclerosis can be beneficially affected by elcosanoids. These drugs must be administered parenterally and have a half-life of only a few minutes. Sublingual or buccal preparations of nitrates are the only prompt method (within 1 or 2 min) of terminating anginal pain, except for biting nifedipine capsules. The short half-life (about 2.5 min) of nitroglycerin (glyceryl trinitrate) makes long term therapy impossible. Tolerance is a problem encountered with longer-acting nitric oxide donors. Knowledge of the pharmacokinetic properties of vasodilating drugs can prevent a too sudden and severe blood pressure decrease in patients with chronic hypertension. In considering the administration of a second dose, or another drug, the time necessary for the initially administered drug to reach maximal efficacy should be taken into account. In hypertensive emergencies urapidil, sodium nitroprusside, nitroglycerin, hydralazine and phentolamine are the drugs of choice, with the addition of beta-blockers during catecholamine crisis or dissecting aortic aneurysm. Childhood hypertension is most often treated with angiotensin-converting enzyme (ACE) inhibitors or calcium antagonists, primarily nifedipine. Because of the teratogenic risk involved with ACE inhibitors, extreme caution must be exercised when prescribing for adolescent females. The propagation of health benefits to breast-fed infants, combined with more women delaying pregnancy until their fourth decade, has entailed an increase in the need for hypertension management during lactation. Low dose hydrochlorothiazide, propranolol, nifedipine and enalapril or captopril do not pose enough of a risk of preclude breastfeeding in this group. The most frequently used antihypertensive agents during pregnancy are methyldopa, labetalol and calcium channel antagonists. Methyldopa and beta-blockers are the drugs of choice for treating mild to moderate hypertension. Prazosin and hydralazine are used to treat moderate to severe hypertension and hydralazine, urapidil or labetalol are used to treat hypertensive emergencies. The use of overly aggressive antihypertensive therapy during pregnancy should be avoided so that adequate uteroplacental blood flow is maintained. Methyldopa is the only drug accepted for use during the first trimester of pregnancy.

Pharmacokinetics of enoximone after various intravenous administrations to healthy volunteers.

The pharmacokinetics of enoximone and its sulfoxide metabolite were investigated in healthy male volunteers after various intravenous administrations: a bolus single dose, a continuous infusion, and bolus multiple doses of enoximone. The overall pharmacokinetic profiles of enoximone and sulfoxide metabolite indicated linearity over the range of 0.25-2.0 mg/kg after single doses of enoximone. The hypothetical plasma concentration just after bolus injection of enoximone, the maximum concentration of sulfoxide, and the area under the concentration-time curves of both compounds increased proportionally with dose. The terminal half-lives of both compounds indicated similar values (2.0-2.7 h) and were not dose related. After four consecutive doses given at 3-h intervals, no accumulation was observed for either compound, and the pharmacokinetic parameters were not altered. After a 4-h infusion of enoximone, the areas under the plasma concentration-time curves of both compounds were 30% lower than the estimated values from the single dose study. Also, some pharmacokinetic parameters were changed as compared to those from the single dose study. The pharmacokinetic parameters obtained in Japanese healthy volunteers showed no marked differences from those obtained in Caucasians; thus, no racial difference was suggested in the pharmacokinetic properties of enoximone.

[Clinico-pharmacologic aspects of therapy with enoximone]. / Klinisch-pharmakologische Aspekte der Therapie mit Enoximon.

Enoximone is an imidazole derivative which proved to be a selective inhibitor of the isoenzymes III/IV of the cAMP-specific phosphodiesterase. It has been shown in various experimental models that the drug exerts both positive inotropic and vasodilating properties which can be attributed to the proposed mode of action. A marked dose-dependent improvement in left ventricular pump performance was observed, with only minor changes in heart rate or systemic blood pressure, if enoximone was administered as i.v. -bolus to patients with moderate to severe congestive heart failure. These effects coincided with vasodilatory effects as determined by decreases in systemic vascular resistance and pulmonary capillary wedge pressure. Enoximone is eliminated by intensive metabolism, predominantly in the liver, with enoximone sulfoxide being the major metabolite in man. Enoximone exhibits a marked firstpass metabolism following oral administration. There is evidence in the literature that the metabolism can be saturated either during long-term administration or by increasing the dose of enoximone. In experimental settings, the metabolite exerts weak positive inotropic effects, too, and reconversion to the parent compound enoximone has been demonstrated in addition. The half-life of elimination of enoximone seems to be about 1 h in healthy volunteers and approximately 3 to 7 h in patients with congestive heart failure, with marked inter-individual differences. In patients with renal failure mainly enoximone sulfoxide accumulates in plasma depending on the degree of renal impairment. The elimination of enoximone seems to be impaired in these patients, too, which might be caused by enhanced reconversion due to the high plasma concentrations of the metabolite.(ABSTRACT TRUNCATED AT 250 WORDS)