Absolute bioavailability and metabolic disposition of valaciclovir, the L-valyl ester of acyclovir, following oral administration to humans
Valaciclovir (Valtrex), the L-valyl ester of acyclovir, is undergoing clinical development for the treatment and suppression of herpesviral diseases. The absolute bioavailability of acyclovir from valaciclovir and the metabolic disposition of valaciclovir were investigated with healthy volunteers in two separate studies. In a randomized, crossover study, 12 fasting healthy volunteers each received 1,000 mg of oral valaciclovir and a 1-h intravenous infusion of 350 mg of acyclovir. The mean absolute bioavailability of acyclovir was 54.2%, a value three to five times that obtained previously with oral acyclovir. A similar estimate of 51.3% was made from urinary recovery of acyclovir. In the second study, four fasting volunteers received a single oral dose of 1,000 mg of [ 14 C]valaciclovir. The majority of plasma radioactivity was accounted for by acyclovir, with very low plasma valaciclovir concentrations (mean maximum concentration of drug in plasma ؍ 0.19 M), which were undetectable after 3 h postdose. By 168 h, more than 90% of the administered radioactive dose was recovered, with approximately 46% in urine and 47% in feces. More than 99% of the radioactivity recovered in urine corresponded to acyclovir and its known metabolites, 9-(carboxymethoxymethyl)guanine and 8-hydroxy-9-[(2-hydroxyethoxy)methyl]guanine, with valaciclovir accounting for less than 0.5% of the dose. Acyclovir, but no valaciclovir, was detected in fecal samples. These studies show that after oral administration to humans, valaciclovir is rapidly and virtually completely converted to acyclovir to provide a high level of acyclovir bioavailability in comparison with that following oral administration of acyclovir. The plasma acyclovir exposure obtained following oral administration of valaciclovir is similar to that achieved with doses of intravenous acyclovir, which are effective in the treatment and suppression of the less susceptible herpesviral diseases.
The tolerability and pharmacokinetics of the novel antimigraine compound 311C90 in healthy male volunteers
1 311C90 is a novel and selective agonist at 5-HTID receptors, with central and peripheral actions, currently in development for the acute oral treatment of migraine. 2 The pharmacokinetic and tolerability profiles of single oral doses from 1-50 mg 311C90 were investigated in 12 healthy male volunteers in a double-blind, placebo-controlled, dose-escalating study. 3 311C90 was well tolerated with most adverse experiences of mild and transient nature. 4 Absorption was rapid with dose-independent kinetics. Median t, , , was 2-4 h although 5 0 4 5 % of eventual C, , , was attained within 1 h. The tli2 was 2.5-3 h with a high apparent plasma clearance (CL/F> 2000 ml min-) and apparent volume of distribution ( V J F ) of 400-500 1. 5 Three metabolites were detected in plasma and urine, one of which, the N-desmethyl metabolite, has 5-HTID agonist activity. 6 311C90 showed no clinically significant effects on blood pressure, heart rate, ECG or laboratory variables at any dose and demonstrated a tolerability and pharmacokinetic profile compatible with an acute oral migraine treatment.
Aims Two open studies in healthy volunteers were conducted to determine the absolute bioavailability and metabolic disposition of zolmitriptan (311C90), a novel 5HT 1D agonist for the acute treatment of migraine. Methods After an initial test i.v. infusion, bioavailabilty was assessed by comparison of AUC after an i.v. infusion (3.5 mg ) and an oral tablet (10 mg), in six men and six women using a randomised, crossover design. Disposition was studied by administration of a 25 mg capsule, labelled with 100 mCi [ 14 C]-zolmitriptan, to five men and one woman on a single occasion. Results Zolmitriptan was well tolerated by both i.v. and oral routes. Adverse events were mostly mild, consistent with earlier studies and characteristic of this class of drug. Reports were similar in nature and number after both oral and iv dosing. Mean±s.d. oral bioavailability was 0.49±0.24 (0.38±0.16 in men and 0.60±0.28 in women). After oral dosing, C max and AUC values in women were approximately double those in men. Relative to zolmitriptan concentrations, metabolite concentrations were higher after oral dosing than after i.v., and higher in men compared with women. Half-life was significantly longer after oral dosing (mean 22%, 95% CI 6-35%). Mean±s.d. values for CL, V z and t 1/2,z after i.v. dosing (all subjects) were 8.7±1.7 ml min −1 kg −1 , 122±32 l and 2.30±0.59 h respectively. Following administration of 25 mg [ 14 C]-zolmitriptan, 91.5% of the dose was recovered in 7 days, 64.4±6.5% in urine and 27.1±6.0% in faeces. Less than 10% was recovered unchanged in urine, with 31.1±6.4% recovered as the inactive indole acetic acid metabolite. Most of the faecal material was unchanged zolmitriptan, representing unabsorbed drug. Plasma concentrations of [ 14 C] were slightly higher than those of the summed concentrations of known analytes zolmitriptan, the active N-desmethyl metabolite (183C91), the inactive N-oxide (1652W92) and indole acetic acid (2161W92) metabolites, which accounted for 86% of total plasma radioactivity. No other significant metabilites were detected in plasma. Some minor additional metabolites were detected in urine, none of which contributed more than 5% of the dose. Conclusions The data suggest that zolmitriptan undergoes first-pass metabolism and this is more extensive in men than in women. Zolmitriptan has suitable bioavailabilty for an acute oral migraine treatment and there are no significant unidentified metabolites in man.
The effects of probenecid and cimetidine on the pharmacokinetics of valaciclovir and its metabolite acyclovir have been investigated. Twelve healthy male volunteers participated in this open single-dose study with a four-way-crossover randomized and balanced design. At the first of four administrations, volunteers in four groups received 1 g of valaciclovir alone, valaciclovir with 1 g of probenecid, valaciclovir with 800 mg of cimetidine, or valaciclovir with a combination of probenecid and cimetidine. At three subsequent administrations, drug regimens were alternated among groups so that each group received each regimen. Probenecid and cimetidine increased the mean maximum concentrations in serum (C max ) of valaciclovir by 23 and 53% and the areas under the concentration-time curves (AUC) for valaciclovir by 22 and 73%, respectively; probenecid and cimetidine also increased the mean acyclovir C max by 22 and 8% and its AUC by 48 and 27%, respectively. The combination had a greater effect than either drug alone. Their effects may be due to competitive inhibition of membrane transport of valaciclovir and acyclovir in the liver and kidney. Neither cimetidine nor probenecid affected the absorption of valaciclovir. Both probe drugs reduced the rate of valaciclovir metabolism but not its extent. These pharmacokinetic modifications did not affect the tolerability of valaciclovir.Valaciclovir (Valtrex) is the L-valine ester of acyclovir and is extensively converted to the antiherpetic compound acyclovir by hepatic first-pass metabolism following oral administration. Its bioavailability as valaciclovir is three-to fivefold greater than acyclovir's oral bioavailability (13). The active metabolite acyclovir is excreted 85% unchanged in the urine, with the rate of renal clearance (CL R ) being three times that of the glomerular filtration rate, indicating that renal excretion has a significant tubular-secretion component. Valaciclovir and acyclovir, which have anionic and cationic forms in plasma, are secreted by organic anion and cation transporters. Acyclovir CL R is reduced by probenecid (6), which was thought to be due to inhibition of the renal tubular secretion of acyclovir by the anionic pathway.We investigated the effects of probenecid and cimetidine on valaciclovir pharmacokinetics, as these drugs have been reported to inhibit the metabolism of some compounds and the active membrane transport of a number of organic anions and cations (4,6,8,9,12). Additionally, we examined the effects of probenecid and cimetidine on the pharmacokinetics of acyclovir. The drug interactions at the renal level were modeled as a function of the concentrations of the interaction drugs in plasma in order to characterize more precisely their mechanisms and potential consequences. MATERIALS AND METHODS Study design.We employed an open, randomized, balanced, crossover study design with four drug treatments separated by intervals of at least 1 week. Twelve healthy male volunteers (age range, 22 to 43 years; weight range, 54 to 111 kg) par...
Members of the new class of antimigraine compounds, 5HT1B/1D agonists, as well as ergotamine, may cause vasoconstriction through stimulation of 5HT receptors on peripheral vessels. The cardiovascular effects of 20 mg oral zolmitriptan (Zomig, formerly 311C90), 2 mg oral ergotamine and the combination were assessed in a randomized double-blind, placebo-controlled crossover study in 12 healthy subjects. Pharmacodynamic measures included oscillometric blood pressure, systolic blood pressure at the toe and arm using a strain gauge technique, stroke volume and cardiac output using bioimpedance cardiography, high-resolution ultrasound to measure brachial arterial diameter and a novel Doppler method to measure blood flow velocity. Both drugs produced small degrees of peripheral vasoconstriction, including increases in diastolic blood pressure and blood flow velocity and decreases in arterial diameter and toe-arm systolic pressure gradient. These effects were generally additive with the combination but of no clinical importance. There were no significant changes in cardiac output, stroke volume heart rate or ECG. Zolmitriptan, at eight times the likely therapeutic dose, was generally well tolerated both alone and in combination with ergotamine. Ergotamine had no clinically important effects on zolmitriptan pharmacokinetics.
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