Triflusal (TR) is a new salicylic acid derivative used clinically as an antiplatelet drug. Both aspirin (ASA) and TR inhibit platelet cyclooxygenase but the effects of these drugs are different. TR (0.5-2 mM) strongly inhibited platelet aggregation and malondialdehyde formation induced by arachidonic acid. The IC50 was 0.8 mM for TR and less than 0.1 mM for ASA. Deacetylated compounds, salicylic acid (SA) and HTB (the main metabolite of TR) were apparently competitive and reversible inhibitors of cyclooxygenase and HTB was 15 times more potent than SA. They did, however, partially prevent the inhibitory effects of ASA and TR in vitro. A similar effect was observed ex vivo in rats treated with HTB (100 mg/k i.p.) before TR or ASA (20 and 5 mg/kg i.v., respectively). Moreover, TR at 10 and 20 mg/kg i.v., inhibited thromboxane production by more than 50% while its effect on vascular cyclooxygenase was negligible. These findings indicated that TR is a weaker inhibitor of cyclooxygenase than ASA, and that HTB interferes with the effect of TR and ASA, despite the fact that HTB is a more potent reversible inhibitor than SA with probably a higher affinity for this enzyme.