BACKGROUND AND OBJECTIVES: The combination of vitamin E with aspirin is becoming an attractive therapeutic approach to prevent thrombotic vascular accidents. In this study we investigated the capacity of vitamin E (50 and 100 M) to enhance the antiplatelet effect of aspirin. DESIGN AND METHODS: The dose-response curves of platelet aggregation, dense body secretion, phospholipase C activation and calcium mobilization were measured in aspirin-treated platelets with and without added vitamin E (50 and 100 M). The role of vitamin E in reducing platelet adhesion to collagen was also studied. RESULTS: We demonstrated that, in platelets incubated with 100 M vitamin E, collagen-concentration ( g/mL) able to induce 50% of the maximal platelet aggregation and of the calcium mobilization was higher than in controls (11.6 versus 3.8 and 21.3 versus 9.8, respectively). Furthermore, 50 M vitamin E reduced platelet adhesion to collagen by about 80%. INTERPRETATION AND CONCLUSIONS: These data demonstrate that vitamin E can potentiate the antiplatelet activity of aspirin by inhibiting the early events of platelet activation pathways induced by collagen. This finding provides a rationale for combining aspirin and vitamin E to prevent thrombotic complications in atherosclerotic patients.
BACKGROUND AND OBJECTIVES: The combination of vitamin E with aspirin is becoming an attractive therapeutic approach to prevent thrombotic vascular accidents. In this study we investigated the capacity of vitamin E (50 and 100 M) to enhance the antiplatelet effect of aspirin. DESIGN AND METHODS: The dose-response curves of platelet aggregation, dense body secretion, phospholipase C activation and calcium mobilization were measured in aspirin-treated platelets with and without added vitamin E (50 and 100 M). The role of vitamin E in reducing platelet adhesion to collagen was also studied. RESULTS: We demonstrated that, in platelets incubated with 100 M vitamin E, collagen-concentration ( g/mL) able to induce 50% of the maximal platelet aggregation and of the calcium mobilization was higher than in controls (11.6 versus 3.8 and 21.3 versus 9.8, respectively). Furthermore, 50 M vitamin E reduced platelet adhesion to collagen by about 80%. INTERPRETATION AND CONCLUSIONS: These data demonstrate that vitamin E can potentiate the antiplatelet activity of aspirin by inhibiting the early events of platelet activation pathways induced by collagen. This finding provides a rationale for combining aspirin and vitamin E to prevent thrombotic complications in atheroscleroticpatients.
Authors: Vaseem Ahmad Ansari; Muhammad Arif; Md Sarfaraj Hussain; Hefazat Hussain Siddiqui; Rakesh Kumar Dixit Journal: Integr Med Res Date: 2016-08-16
Authors: Tania Pannu; Sarah Sharkey; Grazyna Burek; Daniela Cretu; Michael D Hill; David B Hogan; Marc J Poulin Journal: BMC Complement Altern Med Date: 2017-02-10 Impact factor: 3.659