Abstract
Ibuprofen is a 2-arylpropionic acid anti-inflammatory agent that undergoes stereoselective chiral inversion (R to S configuration) as well as oxidative metabolism in humans and rats. The present study was undertaken to define more clearly the role of the liver in ibuprofen stereoisomer clearance in both normal and disease states. Liver perfusion experiments were conducted with normal and fatty rat liver; chronic fatty liver was induced by nutritional deficiency and was used as a model of hepatotoxin-induced fatty liver in humans. Total (R)-ibuprofen clearance (ClRtot), chiral inversion-related clearance (ClRinv), (S)-ibuprofen clearance (ClS) and hepatic distribution coefficients for each stereoisomer (KR and KS) were calculated with a model that corrected for perfusate reservoir sampling. In both normal and fatty liver, ClRinv accounted for 60% of ClRtot, but ClRtot was 30% lower in fatty liver than in normal liver (P less than .001). ClS was 40% of ClRtot in normal liver and was not significantly different from the noninversion clearance of (R)-ibuprofen. ClS was unchanged between normal and fatty liver and KS was greater than KR in normal liver (P = .01) but not in fatty liver. The results indicate that the fatty liver condition stereoselectively affects (R)-ibuprofen clearance and eliminates preferential (S)-isomer hepatic distribution. Based on model simulations, these effects are predicted to have minimal impact on total ibuprofen plasma levels or area-under-curve measurements following a dose of rac-ibuprofen unless ClRtot is reduced by more than 50%.
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