Biotransformations of glafenine in the rat and in man.

The biotransformations of a therapeutic dose of the non-narcotic analgesic, glafenine, have been studied in the rat and in man. In the rat, the ester bond is extensively hydrolysed to give glafenic acid which is the major metabolite excreted in bile and in urine. Two minor pathways have been identified one leading by hydroxylation of the benzene ring of glafenine or glafenic acid in para of the amino-substituent to the corresponding phenols, the other, by oxidation of the quinoline nitrogen of glafenic acid, to its N-oxide. In vivo this N-oxide is partly reduced into the parent compound. Hydroxyglafenic acid is the product of both direct oxidation of glafenic acid and hydrolysis of hydroxyglafenine. The glyceric esters are conjugated as glucuro-ethers and/or sulfo-esters and the carboxylic metabolites as acyl glucuronides. The conjugation rate, high for glafenine, its phenol homologue and glafenic acid, is low for hydroxyglafenic acid and the N-oxide. The analogous urinary excretion patterns in man and in the rat suggest a similarity in the biotransformation of glafenine in these two species.