Determination of deramciclane and N-desmethylderamciclane in human plasma by liquid chromatography-tandem mass spectrometry using off-line robotic sample pretreatment.

A rapid and highly sensitive LC-MS-MS method using deuterium-labelled internal standards was developed and evaluated for the simultaneous determination of deramciclane and its pharmacologically active metabolite (N-desmethylderamciclane). The sample preparation based on liquid-liquid extraction was carried out with an off-line robotic system. Evaluation of this analytical method shows that samples can be assayed with acceptable accuracy and precision in the 0.1 to 50 ng/ml concentration range for both compounds. The method was applied for the quantitative determination of deramciclane and its metabolite in human plasma samples during a food interaction pharmacokinetic study.

Oral, intraperitoneal and intravenous pharmacokinetics of deramciclane and its N-desmethyl metabolite in the rat.

The pharmacokinetic properties of deramciclane fumarate (EGIS-3886), a new potential anxiolitic agent, and its N-desmethyl metabolite have been investigated in Wistar rats after 10 mgkg(-1) deramciclane fumarate was administered orally, intraperitoneally or intravenously. A highly sensitive, validated and optimized gas chromatographic method with nitrogen selective detection (GC-NPD) using a solid-phase extraction technique was used to determine plasma levels of the parent compound and its N-desmethyl metabolite. After oral administration the absorption of the parent compound was very fast (t(max) 0.5h). The maximum plasma concentration (C(max)) was detected at 44.9, > or =177.8 and > or =2643.0 ngmL(-1) after oral, intraperitoneal and intravenous administration of deramciclane, respectively. For the metabolite the respective Cmax values were 32.0, > or =25.4 and 51.0 ngmL(-1). The pharmacokinetic curves of both the parent compound and its metabolite showed enterohepatic recirculation for all administration routes. The biological half-life (tbeta 1/2) for deramciclane ranged from 3.42 to 5.44 h and for the N-desmethyl metabolite the range was 2.90-5.44 h, after administration of the drug by the three different routes. After intravenous administration AUC0-infinity, of deramciclane was 29.2- and 5.4-times higher than that observed after oral and intraperitoneal treatment, respectively. These AUC0-infinity ratios were only 2.1- and 1.5-times higher for the metabolite. The absolute bioavailability of deramciclane in rats was 3.42% after oral and 18.49% after intraperitoneal administration. The comparative pharmacokinetic study of deramciclane in rat after the different administration routes showed fast absorption. Furthermore, plasma levels were found to be administration route-dependent, low bioavailability of the parent compound indicated an extremely fast and strong first-pass metabolism. The apparent volume of distribution suggested strong tissue binding after administration of the drug by any of the three routes studied.

Application of overpressured layer chromatography combined with digital autoradiography and mass spectrometry in the study of deramciclane metabolism.

Overpressured layer chromatography was combined with the highly sensitive and rapid digital autoradiography (DAR) and mass spectrometry to separate, detect, and identify 3H- and 14C-labeled deramciclane metabolites in different biological matrixes. Several minor and major metabolites were separated from plasma and urine samples. The radioactive metabolites localized by DAR were scraped from the thin-layer chromatographic plate and transferred to a mass spectrometer for structure identification. Several metabolites were isolated and characterized, including hydroxy-N-desmethyl deramciclane, which is described in detail. The combination of techniques is efficient and has good sensitivity: about 2 micrograms metabolite from a biological matrix was isolated and identified this way.

Human bioequivalence study of a new nifedipine containing retard filmtablet after single and repeated administration.

A clinical pharmacokinetic bioequivalence study with two retard filmtablet preparations, both containing 20 mg of nifedipine (CAS 219829-25-4) was carried out. The investigated test preparation was Cordaflex 20 mg retard filmtablet. The pharmacokinetic parameters were determined after single and repeated administration in 15 and 16 healthy male volunteers, respectively, in open, randomised studies of cross-over design. Plasma levels of nifedipine were determined by HPLC with electrochemical detection using a robotic sample preparation technique. Statistical comparison of the pharmacokinetic parameters (AUC0-infinity, AUCss, tau tmax, Cmax, Css,min, Css,av, MRT, etc.) calculated from plasma concentration-time curves by ANOVAlog, confidence interval, Schuirman's, Westlake's, Anderson's and Wilcoxon's tests, furthermore the comparison of the clinical results did not show any significant difference between the two preparations. It is concluded that the two preparations are bioequivalent after repeated administration.