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  • 1
    ISSN: 1432-0843
    Keywords: Key words Vinorelbine ; Navelbine ; Oral ; Bioavailability ; Food ; Divided dosing ; Pharmacokinetics
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract  The effects of food and divided dosing on the bioavailability of a liquid-filled gelatin capsule formulation of vinorelbine (Navelbine), a semisynthetic vinca alkaloid with broad clinical activity, was evaluated in patients with advanced solid tumors. A group of 13 patients were randomized to treatment with the oral formulation at the recommended phase II dose of 80 mg/m2 per week either in the fasting state or after ingestion of a standard meal. Patients were treated 1 week later in the alternate state relative to their first dose. The effects of divided dosing were assessed during the 3rd week, at which time vinorelbine was administered in two divided doses. After the completion of pharmacokinetic and bioavailability studies, patients received the oral formulation at a dose of 80 mg/m2 per week in two divided doses to evaluate the feasibility of chronic oral drug administration. Both manipulations resulted in small, albeit statistically significant, reductions in the relative bioavailability of this oral formulation. The relative bioavailability decreased by 22±28% when treatment followed the ingestion of a standard meal, possibly due to a delay in gastrointestinal transit time. The mean time of maximum plasma concentration (Tmax) increased from 1.3±1.6 h in the fasting state to 2.5±1.6 h in the fed state, although this difference was not statistically significant. Similarly, the relative bioavailability declined by 16±51% when vinorelbine was administered in two divided doses. An analysis of dose proportionality revealed disproportionate increases in dose-normalized Cmax and AUC values with single oral doses above 120 mg, which may account for this phenomenon. The high clearance of vinorelbine, which approaches hepatic blood flow, and the lack of dose proportionality after oral administration, indicate that there is a large first-pass effect which may be saturable, or nonlinear, above single doses of 120 mg. In addition, the toxicological and pharmacological characteristics of oral vinorelbine indicate that treatment after a standard meal or on a divided dosing schedule is safe. Chronic oral administration of the agent in two divided doses was also well tolerated. However, the small reduction in the relative bioavailability following the ingestion of a standard meal and with divided dosing suggest the need for further pharmacodynamic studies to determine if reductions in drug exposure of this magnitude may portend diminished antitumor activity.
    Type of Medium: Electronic Resource
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  • 2
    ISSN: 1569-8041
    Keywords: 776C85 ; bioequivalence ; dihydropyrimidine dehydrogenase inhibitor ; eniluracil ; 5-fluorouracil ; pharmacokinetics
    Source: Springer Online Journal Archives 1860-2000
    Topics: Medicine
    Notes: Abstract Background:This study was performed to evaluate thepharmacokinetics, bioequivalence, and feasibility of a combined oralformulation of 5-flurouracil (5-FU) and eniluracil (Glaxo Wellcome Inc.,Research Triangle Park, North Carolina), an inactivator of dihydropyrimidinedehydrogenase (DPD). The rationale for developing a combined eniluracil/5-FUformulation oral dosing form is to simplify treatment with these agents, whichhas been performed using separate dosing forms, and decrease the probabilityof severe toxicity and/or suboptimal therapeutic results caused byinadvertently high or conversely insufficient 5-FU dosing. Patients and methods:The trial was a randomized, three-waycrossover bioequivalence study of three oral dosing forms of eniluracil/5-FUtablets in adults with solid malignancies. Each period consisted of two daysof treatment and a five- to seven-day washout phase. Eniluracil at a dose of20 mg, which results in maximal DPD inactivation, was administered twice dailyon the first day and in the evening on the second day of each of the threetreatments. On the morning of the second day, all patients received a totaleniluracil dose of 20 mg orally and a total 5-FU dose of 2 mg orally as eitherseparate tablets (treatment A) or combined eniluracil/5-FU tablets in twodifferent strengths (2 tablets of eniluracil/5-FU at a strength (mg/mg) of10/1 (treatment B) or 8 tablets at a strength of 2.5/0.25 (treatment C)). Thepharmacokinetics of plasma 5-FU, eniluracil, and uracil, and the urinaryexcretion of eniluracil, 5-FU, uracil, and α-fluoro-β-alanine (FBAL),were studied. To determine the bioequivalence of the combined eniluracil/5-FUdosing forms compared to the separate tablets, an analysis of variance onpharmacokinetic parameters reflecting eniluracil and 5-FU exposure wasperformed. Results:Thirty-nine patients with advanced solid malignancies hadcomplete pharmacokinetic studies performed during treatments A, B, and C. Thepharmacokinetics of eniluracil and 5-FU were similar among the three types oftreatment. Both strengths of the combined eniluracil/5-FU dosing form and theseparate dosing forms were bioequivalent. Mean values for terminal half-life,systemic clearance, and apparent volume of distribution for oral 5-FU duringtreatments A/B/C were 5.5/5.6/5.6 hours, 6.6/6.6/6.5 liters/hour, and50.7/51.5/50.0 liters, respectively. The intersubject coefficient of variationfor pharmacokinetic variables reflecting 5-FU exposure and clearance intreatments ranged from 23% to 33%. The urinary excretion ofunchanged 5-FU over 24 hours following treatments A, B, and C averaged52.2%, 56.1%, and 50.8% of the administered dose of 5-FU,respectively. Parameters reflecting DPD inhibition, including plasma uraciland urinary FBAL excretion following treatments A, B, and C were similar.Toxicity was generally mild and similar following all three types oftreatments. Conclusions:The pharmacokinetics of 5-FU and eniluracil weresimilar and met bioequivalence criteria following treatment with the separateoral formulations of 5-FU and eniluracil and two strengths of the combinedformulation. The availability of a combined eniluracil/5-FU oral dosing formwill likely simplify dosing and decrease the probability of severe toxicityor suboptimal therapeutic results caused by an inadvertent 5-FU overdose orinsufficient 5-FU dosing in the case of separate oral formulations, therebyenhancing the overall feasibility and therapeutic index of oral 5-FU therapy.
    Type of Medium: Electronic Resource
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