BACKGROUND: Platelets, long believed to be incapable of de novo protein synthesis, may retain their ability to form the cyclooxygenase (COX) enzyme once it has been inactivated by aspirin. This may explain the inefficacy of the drug to induce sustained platelet inhibition in certain patients. We evaluated the stability of platelet inhibition following once-daily enteric-coated aspirin administration. METHODS: Platelet responsiveness to aspirin was evaluated in 11 stable coronary artery disease patients on chronic aspirin therapy before and 1, 3, 8, and 24h after observed ingestion of 80-mg enteric-coated aspirin. Inhibition of the COX pathway was measured pharmacologically through plasma thromboxane (Tx) B(2) levels, and functionally by light transmission aggregometry in response to arachidonic acid. COX-independent platelet activity was measured in response to adenosine diphosphate, epinephrine and collagen. RESULTS: Plasma TxB(2) levels showed profound inhibition of TxA(2) formation, which was stable throughout 24h, in all but 1 subject. This subject had optimal response to aspirin (inhibition of platelet TxA(2) production within 1h), but recovered the ability to synthesize TxA(2) within 24h of aspirin ingestion. Arachidonic acid-induced platelet aggregation closely mirrored TxB(2) formation in this patient, portraying a functional ability of the platelet to aggregate within 24h of aspirin ingestion. COX-independent platelet aggregation triggered TxA(2) production to a similar extent in all patients, likely through signal-dependent protein synthesis. CONCLUSIONS: COX-dependent platelet activity is recovered in certain individuals within 24h of aspirin administration. Further research should consider increasing aspirin dosing frequency to twice daily, to allow sustained inhibition in such subjects.
BACKGROUND: Platelets, long believed to be incapable of de novo protein synthesis, may retain their ability to form the cyclooxygenase (COX) enzyme once it has been inactivated by aspirin. This may explain the inefficacy of the drug to induce sustained platelet inhibition in certain patients. We evaluated the stability of platelet inhibition following once-daily enteric-coated aspirin administration. METHODS: Platelet responsiveness to aspirin was evaluated in 11 stable coronary artery diseasepatients on chronic aspirin therapy before and 1, 3, 8, and 24h after observed ingestion of 80-mg enteric-coated aspirin. Inhibition of the COX pathway was measured pharmacologically through plasma thromboxane (Tx) B(2) levels, and functionally by light transmission aggregometry in response to arachidonic acid. COX-independent platelet activity was measured in response to adenosine diphosphate, epinephrine and collagen. RESULTS: Plasma TxB(2) levels showed profound inhibition of TxA(2) formation, which was stable throughout 24h, in all but 1 subject. This subject had optimal response to aspirin (inhibition of platelet TxA(2) production within 1h), but recovered the ability to synthesize TxA(2) within 24h of aspirin ingestion. Arachidonic acid-induced platelet aggregation closely mirrored TxB(2) formation in this patient, portraying a functional ability of the platelet to aggregate within 24h of aspirin ingestion. COX-independent platelet aggregation triggered TxA(2) production to a similar extent in all patients, likely through signal-dependent protein synthesis. CONCLUSIONS: COX-dependent platelet activity is recovered in certain individuals within 24h of aspirin administration. Further research should consider increasing aspirin dosing frequency to twice daily, to allow sustained inhibition in such subjects.
Authors: Danai Bem; Janine Dretzke; Simon Stevens; Marie Lordkipanidzé; James Hodgkinson; Sue Bayliss; David Moore; David Fitzmaurice Journal: Syst Rev Date: 2015-06-19