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Chirality. 1995;7(1):44-52.

Stereospecific determination, chiral inversion in vitro and pharmacokinetics in humans of the enantiomers of thalidomide.

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  • 1Hospital Pharmacy, Malmö General Hospital, Sweden.

Abstract

The purposes of this work were (1) to develop a high performance liquid chromatographic (HPLC) assay for the enantiomers of thalidomide in blood, (2) to study their inversion and degradation in human blood, and (3) to study the pharmacokinetics of (+)-(R)- and (-)-(S)-thalidomide after oral administration of the separate enantiomers or of the racemate to healthy male volunteers. The enantiomers of thalidomide were determined by direct resolution on a tribenzoyl cellulose column. Mean rate constants of chiral inversion of (+)-(R)-thalidomide and (-)-(S)-thalidomide in blood at 37 degrees C were 0.30 and 0.31 h-1, respectively. Rate constants of degradation were 0.17 and 0.18 h-1. There was rapid interconversion in vivo in humans, the (+)-(R)-enantiomer predominating at equilibrium. The pharmacokinetics of (+)-(R)- and (-)-(S)-thalidomide could be characterized by means of two one-compartment models connected by rate constants for chiral inversion. Mean rate constants for in vivo inversion were 0.17 h-1 (R to S) and 0.12 h-1 (S to R) and for elimination 0.079 h-1 (R) and 0.24 h-1 (S), i.e., a considerably faster rate of elimination of the (-)-(S)-enantiomer. Putative differences in therapeutic or adverse effects between (+)-(R)- and (-)-(S)-thalidomide would to a large extent be abolished by rapid interconversion in vivo.

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