Clinical pharmacokinetics of oxaprozin.

Oxaprozin is a nonsteroidal anti-inflammatory drug which reaches peak plasma concentrations 2 to 6 hours after oral administration. Oxaprozin binds extensively, in a concentration-dependent manner, to plasma albumin. The area under the plasma concentration-time curve (AUC) of oxaprozin is linearly proportional to the dose for oral doses up to 1200 mg. At doses greater than 1200 mg there is an increase in the unbound fraction of drug, leading to an increased clearance and volume of distribution (Vd) of total oxaprozin. Accumulation of the drug at steady state is between 40 and 58% lower than predicted by single dose data. After administration of multiple doses, the apparent oral clearance (CL/F) and Vd of total oxaprozin increased while those of the unbound drug decreased significantly. Substantial concentrations of oxaprozin are attained in synovial fluid, which is a proposed site of action for nonsteroidal anti-inflammatory drugs. Relationships between total plasma, unbound plasma and synovial concentrations, and therapeutic and toxicological effects have yet to be established. Oxaprozin is eliminated following biotransformation to glucuroconjugated metabolites which are excreted in urine and bile, with little drug being eliminated unchanged. Two hydroxylated metabolites have been shown to possess anti-inflammatory activity. Hepatic disease and rheumatoid arthritis do not significantly alter the disposition of oxaprozin. Patients with renal impairment demonstrate an increase in unbound plasma concentrations of oxaprozin. A significant drug interaction has been demonstrated between oxaprozin and aspirin (acetylsalicylic acid).