Stereoselective disposition and tissue distribution of carvedilol enantiomers in rats

The pharmacokinetics and metabolic chiral inversion of the S(+)-and R(-)-enantiomers of tiaprofenic acid (S -TIA, R-TIA) were assessed in vivo in rats, and in addition the biochemistry of inversion was investigated in vitro in rat liver homogenates. Drug enantiomer concentrations in plasma were inve

Stereoselective differences in pharmacokinetics between clausenamide (CLA) enantiomers have been found after intravenous and oral administration of each enantiomer to rats. The differences could be associated with protein binding of CLA enantiomers. By equilibrium dialysis methods, the binding of CL

## Abstract Pharmacokinetics of sulpiride enantiomers after intravenous administration of (±)‐, (+)‐, and (−)‐sulpiride was examined in humans and rats. Pharmacokinetic profiles were similar in (+)‐ and (−)‐enantiomers after intravenous administration of (±)‐sulpiride. Metabolic inversion at a chir

R)-2-Arylpropionates are often inverted to the pharmacologically active S-enantiomers in vivo, although there is significant interspecies variability in inversion. In order to provide a basis for determining the biochemical consequences of this unique process using rats as a model, it was important