Journal Article

Propofol metabolites in man following propofol induction and maintenance

P. Favetta, C.‐S. Degoute, J.‐P. Perdrix, C. Dufresne, R. Boulieu and J. Guitton

in BJA: British Journal of Anaesthesia

Published on behalf of the British Journal of Anaesthesia

Volume 88, issue 5, pages 653-658
Published in print May 2002 | ISSN: 0007-0912
Published online May 2002 | e-ISSN: 1471-6771 | DOI:
Propofol metabolites in man following propofol induction and maintenance

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Background. The pharmacokinetics of propofol in man is characterized by a rapid metabolic clearance linked to glucuronidation of the parent drug to form the propofol‐glucuronide (PG) and sulfo‐ and glucuro‐conjugation of hydroxylated metabolite via cytochrome P450 to produce three other conjugates. The purpose of this study was to assess the urine metabolite profile of propofol following i.v. propofol anaesthesia in a Caucasian population.

Methods. The extent of phase I and phase II metabolism of propofol was studied in 18 female and 17 male patients after an anaesthesia induced and maintained for at least 4 h with propofol. The infusion rates (mg kg–1 h–1) of propofol were (mean (sd)) 4.1 (1.0) and 4.5 (1.3) for males and females, respectively. Urine was collected from each patient for the periods 0–4, 4–8, 8–12, and 12–24 h after the start of propofol administration. In a preliminary study, the three main glucuro‐conjugated metabolites were isolated from urine and characterized by magnetic resonance spectroscopy. The quantification of these metabolites for the different collection periods was then performed by a HPLC–UV assay.

Results. Total recovery of propofol in the metabolites studied amounts to 38%, of which 62% was via the PG metabolite and 38% via cytochrome P‐450. This percentage is significantly higher than that previously reported from patients after a bolus dose of propofol. Extreme values for PG (0–24 h period) were included from 73 to 49%. There was no significant difference between female and male patients in the metabolite ratio.

Conclusions. We conclude that the extent of hydroxylation in propofol metabolism was higher than in previous findings after administration of anaesthetic doses of propofol. Moreover, the ratio between hydroxylation and glucuronidation of propofol is subject to an inter‐patient variability but this does not correlate with the dose of propofol. However, the variation of the metabolite profile observed in the present report does not seem to indicate an extended role of metabolism in pharmacokinetic variability.

Br J Anaesth 2002; 88: 653–8

Keywords: Keywords: anaesthetics i.v., propofol; pharmokinetics, propofol

Journal Article.  3797 words. 

Subjects: Anaesthetics

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