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Pharmacokinetics of ketanserin and its metabolite ketanserin-ol in man after intravenous, intramuscular and oral administration (1986)

Heykants, J. ; Peer, A. ; Woestenborghs, R. ; [et al.]

Springer

European journal of clinical pharmacology 31 (1986), S. 343-350

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ISSN: 1432-1041

Keywords: ketanserin ; serotonin antagonist ; antihypertensive drug ; pharmacokinetics ; bioavailability ; dose-proportionality ; metabolite kinetics

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary The pharmacokinetics of ketanserin (R 41468), a novel serotonin S2-receptor blocking agent widely investigated for its effect on acute and chronic hypertension, has been studied in 10 healthy male subjects. They received single 10 mg doses i.v. and i.m., and 20, 40 and 60 mg solutions of ketanserin by mouth, in a five-way cross-over design. The model-independent kinetics of i.v. ketanserin were characterized by a terminal half-life of 14.3±4.4 h, a moderate plasma clearance (CL=565±57 ml/min) and a large tissue distribution (Vss=268±71 l, Vz=703±204 l; mean ± SD). Following i.m. administration, peak levels of nearly 200 ng/ml were attained within 10 minutes and the absolute bioavailability was 112±23%. After oral dosing, peak levels of ketanserin were reached within 1 h. The peak level and AUC increased in proportion to the dose. The absolute bioavailability was 46.8, 50.4 and 55.5% for 20, 40 and 60 mg doses and they conformed to the predicted bioavailability based on i.v. clearance data. The terminal half-life of 17 h and the urinary excretion of parent drug (about 0.7% of the dose) were similar after oral and parenteral dosing. The kinetics of ketanserin-ol, the major metabolite of ketanserin formed by ketone reduction, was also studied. Because of its negligible pharmacological activity, the contribution of ketanserin-ol to the overall therapeutic effect of ketanserin is small, in spite of its 1.6-times (parenteral) to 3.2-times (oral) higher plasma level than that of ketanserin. The particular role of the metabolite is discussed in the light of the clinical pharmacokinetics of ketanserin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00981135

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Pharmacokinetic approach to equilibrium between ketanserin and ketanserin-ol (1986)

Peer, A. ; Woestenborghs, R. ; Embrechts, L. ; [et al.]

Springer

European journal of clinical pharmacology 31 (1986), S. 339-342

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ISSN: 1432-1041

Keywords: ketanserin ; ketanserin-ol ; pharmacokinetics ; reduction-oxidation equilibrium ; healthy volunteers ; adverse effects

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Summary The metabolic reduction-oxidation equilibrium between ketanserin and ketanserin-ol was studied after oral dosing of both substances to two healthy volunteers. Comparison of plasma Cmax and AUCs indicated that the equilibrium was shifted towards ketanserin-ol. There is evidence that ketanserin-ol elimination is the slowest step dictating the terminal half-life of ketanserin.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00981134

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Population analysis of the non-linear red blood cell partitioning of draflazine following various infusion durations (1997)

Snoeck, E. ; Piotrovskij, V. ; Jacqmin, P. ; [et al.]

Springer

European journal of clinical pharmacology 53 (1997), S. 57-63

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ISSN: 1432-1041

Keywords: Key wordsDraflazine ; Population analysis; nucleoside transport inhibitor ; non-linear red blood cell partition ing ; pharmacokinetics

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Medicine

Notes: Abstract Objective: The pharmacokinetics and non-linear red blood cell partitioning of the nucleoside transport inhibitor draflazine were investigated in 19 healthy male and female subjects (age range 22–55 years) after a 15-min i.v. infusion of 1 mg, immediately followed by infusions of variable rates (0.25, 0.5 and 1 mg · h−1) and variable duration (2–24 h). Methods: The parameters describing the capacity-limited specific binding of draflazine to the nucleoside transporters located on erythrocytes were determined by NONMEM analysis. The red blood cell nucleoside transporter occupancy of draflazine (RBC occupancy) was evaluated as a pharmacodynamic endpoint. Results: The population typical value for the dissociation constant K d (%CV) was 0.648 (12) ng · ml−1 plasma, expressing the very high affinity of draflazine for the erythrocytes. The typical value of the specific maximal binding capacity Bmax (%CV) was 155 (2) ng · ml−1 RBC. The interindividual variability (%CV) was moderate for K d (38.9%) and low for Bmax (7.8%). As a consequence, the variability in RBC occupancy of draflazine was relatively low, allowing the justification of only one infusion scheme for all subjects. The specific binding of draflazine to the red blood cells was a source of non-linearity in draflazine pharmacokinetics. Steady-state plasma concentrations of draflazine virtually increased dose-proportionally and steady state was reached at about 18 h after the start of the continuous infusion. The t1/2βaveraged 11.0–30.5 h and the mean CL from the plasma was 327 to 465 ml · min−1. The disposition of draflazine in whole blood was different from that in plasma. The mean t1/2β was 30.2 to 42.2 h and the blood CL averaged 17.4–35.6 ml · min−1. Conclusion: Although the pharmacokinetics of draflazine were non-linear, the data of the present study demonstrate that draflazine might be administered as a continuous infusion over a longer time period (e.g., 24 h). During a 15-min i.v. infusion of 1 mg, followed by an infusion of 1 mg · h−1, the RBC occupancy of draflazine was 96% or more. As the favored RBC occupancy should be almost complete, this dose regimen could be justified in patients.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002280050337

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