Abstract
To provide insight into the reported reduction in the plasma clearance of diflunisal in human renal failure, this investigation evaluated several possible mechanisms for this effect in experimental renal failure. Rats with renal failure, induced by uranyl nitrate or by ureteral ligation, had both a lower plasma clearance and an increased apparent volume of distribution, a pattern resembling that seen in human renal failure. Steady-state diflunisal concentration and unbound fraction were determined in studies during a constant infusion of diflunisal to establish the relationships of concentration, protein binding and intrinsic clearance. The infusion studies revealed that the intrinsic clearance of diflunisal, i.e., the ability of enzyme system(s) to metabolize the drug, was decreased in uremia. Also, plasma protein binding of diflunisal was decreased, which may explain the increase in apparent volume of distribution in uremic rats. The decreased intrinsic clearance of diflunisal in uremic rats may be due partly to saturation of biotransformation process(es) by increasing unbound concentration as a consequence of impairment of plasma protein binding of diflunisal, and partly due to the diminished enzyme activity of glucuronidation by renal failure. The lack of an effect of the esterase inhibitor phenylmethylsulfonyl fluoride on the intrinsic clearance of diflunisal in uremic rats suggested that the reduced intrinsic clearance of diflunisal was not attributable to the systemic enzymatic hydrolysis of the ester glucuronide.
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