Comparison of plasma and saliva concentrations of levetiracetam following administration orally as a tablet and as a solution in healthy adult volunteers.

OBJECTIVE: Concentrations in saliva, as an alternative to concentrations in blood, can be advantageous for the monitoring of antiepileptic agents. This study assesses the relationship between saliva and plasma concentrations of levetiracetam after administration orally as a solution and as a tablet. The possibility that saliva concentrations of the drug are altered by contamination in the buccal cavity was also examined. METHODS: 4 healthy male subjects received a single 750 mg oral dose of levetiracetam as a 10% solution and 4 subjects received three 250 mg tablets (750 mg). Levetiracetam concentrations in plasma and saliva were monitored for 24 hours post dose. RESULTS: In subjects receiving the levetiracetam solution, maximum saliva concentrations were observed at the first collection point (15 min) after administration and these were 19-74 times higher than corresponding plasma levels. The mean saliva/plasma ratio rapidly decreased thereafter, becoming stable after 4 hours. In subjects receiving tablets, levetiracetam concentration profiles for saliva paralleled the plasma concentration profiles with a fairly constant saliva/plasma concentration ratio throughout the 24-hour sampling period. A significant linear correlation between levetiracetam saliva and plasma concentrations was demonstrated (Pearson r = 0.88; p < 0.001 for tablet (n = 35) and r = 0.87; p < 0.001 for solution at times > or = 4 hours post-dose (n = 20)). The saliva to plasma concentration ratio was 1.11 (95% confidence interval: 0.99 - 1.22) following tablet intake, and 1.55 (95% CI: 1.34 1.77) following oral solution (> or = 4 hours post dose). CONCLUSIONS: Using saliva to monitor therapeutic exposure to levetiracetam is feasible beginning 15 minutes after tablet intake but beginning 4 hours after intake of an oral solution.

Absorption and disposition of levocetirizine, the eutomer of cetirizine, administered alone or as cetirizine to healthy volunteers.

The primary objective of the present study was to compare the absorption and disposition of levocetirizine, the eutomer of cetirizine, when administered alone (10 mg) or in presence of the distomer. An additional objective was also to investigate the configurational stability of levocetirizine in vivo in humans. The study was performed in a randomized, two-way cross-over, single-dose design with a wash-out phase of 7 days between the two periods. A total of 12 healthy male and 12 healthy female volunteers were included in the study. Bioequivalence can be concluded from the analysis of the pharmacokinetic parameters of levocetirizine when administered alone or as the racemate cetirizine. No chiral inversion occurs in humans when levocetirizine is administered, i.e. there is no formation of the distomer. When comparing the pharmacokinetic characteristics of levocetirizine and the distomer, the apparent volume of distribution of the eutomer is significantly smaller than that of the distomer (0.41 and 0.60 L/kg, respectively). For an H1-antagonist a small distribution volume can be considered as a positive aspect, both in terms of efficacy and safety. Moreover the non-renal clearance of levocetirizine is also significantly lower than that of the distomer (9.70 and 28.70 mL/min, respectively), which constitutes an additional positive aspect particularly as far as metabolism-based drug interactions are concerned. The information collected in the present study on the pharmacokinetics of levocetirizine and the distomer provide additional reasons for eliminating the distomer and developing levocetirizine as an improvement on cetirizine.

Effects of betaxolol on heart rate in patients with a recent transmural myocardial infarction.

A randomized double-blind trial was performed with betaxolol, a beta 1-selective and long-acting beta-blocker, in patients with a recent first uncomplicated acute myocardial infarction (AMI). Patients were treated between the 3rd and 14th day after the onset of AMI with either a single oral dosage of 20 mg betaxolol or placebo. The effects on heart rate, ventricular and supraventricular arrhythmias were studied by continuous 24 hours ECG recordings on the 7th and between the 9th to 12th after the onset of AMI and by a submaximal exercise test on the 12th day. Hourly mean, peak and minimal heart rate were during the whole day significantly lower in the active treatment group. In betaxolol treated patients diurnal variations in heart rate were definitely changed. No differences in the occurrence of ventricular arrhythmias were found between both groups; auricular fibrillation was more common in placebo treated patients. Heart rate and pressure rate product were significantly higher during exercise in the placebo group. During exercise ventricular arrhythmias were infrequent in both groups. The clinical tolerance of betaxolol was excellent.

[Comparison of the effects of intravenous diltiazem and a placebo on hemodynamics and blood gases in the acute phase of myocardial infarction]. / Comparaison des effets du diltiazem intraveineux et d'un placebo sur l'hémodynamique et les gaz sanguins à la phase aiguë de l'infarctus myocardique.

We compared the effects on hemodynamics and blood gases of an intravenous perfusion of diltiazem vs placebo, administered randomly and in a double-blind fashion, to 20 patients with acute myocardial infarction (less than 24 hours). After 130 minutes, we noted a significant reduction of the arterial blood pressure and the systemic vascular resistances; the other hemodynamic variable are not significantly modified. Diltiazem causes a slight but significant decrease of PaO2 after 130 minutes in intravenous perfusion. This effect is secondary to an increase of the arterio-alveolar gradient in O2, reflecting an increase of the pulmonary shunt. This has no clinical consequence since the oxygen transfer remains stable. In conclusion, intravenous diltiazem administered red in the acute phase of myocardial infarction is well tolerated hemodynamically and clinically. It may induce a minimal arterial hypoxemia by increasing the arterio-alveolar gradient in oxygen.

Comparative pharmacokinetics and metabolism of levetiracetam, a new anti-epileptic agent, in mouse, rat, rabbit and dog.

1: The pharmacokinetics and metabolism of 14C-levetiracetam, a new anti-epileptic agent, in mouse, rat, rabbit and dog after a single oral dose were investigated. Moreover, the in vitro hydrolysis of levetiracetam to its major carboxylic metabolite by rat tissue homogenates was investigated to identify tissues involved in the production of the metabolite. Data are also presented on the induction of the enzyme(s) involved in levetiracetam hydrolysis in the rat. 2: Levetiracetam was rapidly and almost completely absorbed. The unchanged drug accounted for a very high percentage of plasma radioactivity. Levetiracetam did not bind to plasma proteins. Although brain radioactivity concentrations were lower than those of whole blood at early time points, brain-to-blood ratios increased over time. The predominant route of elimination of total 14C was excretion via urine, accounting for about 81, 93, 87 and 89% of the dose in the mouse, rat, rabbit and dog, respectively. Consequently, levetiracetam was poorly metabolized. It was submitted in vivo to hydrolysis and/or oxidation. Hydrolysis of the amide function of levetiracetam produced the corresponding acid. However, levetiracetam could also be oxidized at positions 3 and 4 of the 2-oxopyrrolidine ring. Finally, the compound and the corresponding acid metabolite could be oxidized at position 5 of the 2-oxopyrrolidine ring and then hydrolysed with the opening of the ring. 3: All the investigated rat tissues (liver, kidney, lung, brain, small intestine mucosa) had the potential to produce the acid metabolite. By contrast, the acid was undetectable following incubation of levetiracetam with buffer alone or heat-denaturated liver fractions. 4: No marked species or sex differences were observed in the absorption, disposition and metabolism of levetiracetam. 5:The hydrolysis of levetiracetam is carried out by an enzymatic process characterized by a broad tissue distribution. In the rat, the enzyme system hydrolysing levetiracetam is not induced by phenobarbital, at least under the experimental conditions used herein, whereas the enzyme system(s) involved in the other metabolic pathways is induced.

Pharmacokinetic study of levetiracetam in children.

PURPOSE: The pharmacokinetics of the novel antiepileptic drug (AED) levetiracetam and its major metabolite, ucb L057, were studied in children with partial seizures in a multicenter, open-label, single-dose study. METHODS: Twenty-four children (15 boys, nine girls), 6 to 12 years old, received a single dose of levetiracetam (20 mg/kg) as an adjunct to their stable regimen of a single concomitant AED, followed by a 24-h pharmacokinetic evaluation. RESULTS: In children, the half-lives of levetiracetam and its metabolite ucb L057 were 6.0 +/- 1.1 and 8.1 +/-2.7 hours, respectively. The Cmax and area under the curve (AUC) of levetiracetam equated for a 1-mg/kg dose were lower in children (Cmax, norm=1.33 plus minus 0.35 microg/ml; AUCnorm=12.4 +/- 3.5 microg/h/ml) than in adults (Cmax, norm=1.38 +/- 0.05 microg/ml; AUCnorm=11.48 +/- 0.63 microg/h/ml), whereas the renal clearance was higher. The apparent body clearance (1.43 +/- 0.36 ml/min/kg) was approximately 30-40% higher in children than in adults. Levetiracetam was generally well tolerated. CONCLUSIONS: On the basis of these data, a daily maintenance dose equivalent to 130-140% of the usual daily adult maintenance dosage (1,000-3,000 mg/day) in two divided doses, on a weight-normalized level (mg/kg/day) is initially recommended. Clinical efficacy trials in children are ongoing with dosages of 20 to 60 mg/kg/day.