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Title

The comparative pharmacokinetics of modified-release and immediate-release paracetamol in a simulated overdose model.

Authors

Chiew, Angela; Day, Peter; Salonikas, Chris; Naidoo, Daya; Graudins, Andis; Thomas, Rebecca

Abstract

Panadol Extend (PEx) is an over-the-counter, modified-release formulation of paracetamol. Each 665 mg tablet contains 69% slow-release and 31% immediate-release paracetamol. In simulated human overdose, PEx exhibits lower and later peak serum concentrations and a lower area-under-the-curve (AUC) than comparable doses of immediate-release paracetamol (APAP-IR). The lower AUC might result from incomplete absorption of paracetamol or simultaneous metabolism with absorption. Do differences in pharmacokinetics (PK) between PEx and APAP-IR result from incomplete absorption or simultaneous absorption and metabolism of paracetamol? Cross-over study of 80 mg/kg of PEx or APAP-IR in nine volunteers. Serial plasma paracetamol, glucuronide, sulphate and cysteine metabolite estimates performed over 24 h. Peak plasma concentration (Cmax), AUC time to peak concentration (Tmax) and elimination half-life (t) were compared. PEx exhibited significantly lower paracetamol Cmax (252.33 µmol/L vs 565.56 µmol/L, P= 0.0421), AUC (2133 µmol/h/L vs 2637 µmol/h/L, P= 0.0004) and delayed Tmax (2.889 h vs 1.389 h, P= 0.0189) than APAP-IR. Sulphate metabolite PK parameters for both preparations, PEx vs APAP-IR, showed similar AUC (1369 µmol/h/L vs 1089 µmol/h/L), Tmax (3.889 h vs 4.444 h), Cmax (95.889 µmol/L vs 95.889 µmol/L) and t (3.895 h vs 3.810 h). Glucuronide metabolite concentrations revealed that PEx produced a lower Cmax (257.44 µmol/L vs 335.22 µmol/L, P= 0.0239) than APAP-IR. All other pharmacokinetic parameters were similar. Cysteine metabolite was not detected. There were minor differences between the PK parameters of the two major paracetamol metabolites of these two preparations in simulated overdose. The variability in paracetamol AUC seen between the two preparations in moderate overdose might be explained by concurrent metabolism of paracetamol during slower absorption with PEx.

Subjects

AUSTRALIA; ACETAMINOPHEN; ANALYSIS of variance; COMPUTER software; CROSSOVER trials; DOSAGE forms of drugs; DRUG overdose; GENETIC techniques; HIGH performance liquid chromatography; LONGITUDINAL method; STATISTICAL hypothesis testing; DATA analysis; ABSORPTION; DRUG dosage

Publication

Emergency Medicine Australasia, 2010, Vol 22, Issue 6, p548

ISSN

1742-6731

Publication type

Academic Journal

DOI

10.1111/j.1742-6723.2010.01354.x

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