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DOI: 10.1160/TH05-10-0649
Biological efficacy of low against medium dose aspirin regimen after coronary surgery: Analysis of platelet function
Financial support: This study was supported by the Papworth Hospital NHS Trust and Papworth Surgeons Research Fund.Publication History
Received
03 October 2005
Accepted after resubmission
05 January 2006
Publication Date:
29 November 2017 (online)
Summary
The failure of aspirin to inhibit platelet function has been documented in patients undergoing coronary artery bypass graft (CABG) surgery, but the causes of “aspirin-resistance” remain uncertain. The aim of this study was to investigate the efficacy of aspirin in patients undergoing CABG surgery receiving either 100 mg or 325 mg of oral aspirin for 5-days.Platelet function was tested the day before surgery and on day+1 and day+5, and evaluated by changes in collagen-induced thromboxane-A2 (TxA2) release and platelet aggregation following stimulation with collagen, ADP and epinephrine. In all patients, baseline platelet aggregation was significantly inhibited by pre-incubation with in vitro aspirin (150 µmol/l), with a mean reduction in TxA2-release of ≥95.5% (82.3, 99.1). After 5-days of oral aspirin, platelet aggregation was significantly inhibited, and was not further inhibited by in vitro aspirin. Oral aspirin was also associated with a ≥99.5% (97.8, 99.7) reduction in TxA2-release, and with the reversal of the second-phase of ADP-induced aggregation which is TxA2-dependent. In addition a single-dose of 325mg aspirin on the first post-operative morning may have a greater inhibitory effect on collagen-induced aggregation than 100mg aspirin. Western blot analysis provided no evidence for the presence of COX-2 in platelets, while the up-regulation of p38-MAPK following platelet-stimulation and surgery was seen. The inhibition of COX-2 (NS398) or p38-MAPK (SB203580) activity did not affect platelet aggregation and TxA2-release on day+5. In summary, there was no evidence for inherent or acquired aspirin-resistance in this surgical population, or for the involvement of either COX-2 or p38-MAPK.
* These authors contributed equally to this manuscript.
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References
- 1 Mangano DT. Aspirin and mortality from coronary bypass surgery. N Engl J Med 2002; 347: 1309-17.
- 2 Antiplatelet Trialists’ Collaboration. Collaborative overview of randomised trials of antiplatelet therapy- II: Maintenance of vascular graft or arterial patency by antiplatelet therapy. BMJ 1994; 308: 159-68.
- 3 Lim E, Cornelissen J, Routledge T. et al. Clopidogrel did not inhibit platelet function early after coronary bypass surgery: A prospective randomized trial. J Thorac Cardiovasc Surg 2004; 128: 432-5.
- 4 Lim E, Cornelissen J, Routledge T. et al. Randomized trial of low-, medium-dose aspirin and clopidogrel on platelet aggregation after cardiac surgery. Circulation 2004; 110 (Suppl. 03) 354-5.
- 5 Hoffman M, Rauhoft C, Terres W. Long-term effect of 50 mg acetylsalicylic acid alone and in combination with dipyridamole on platelet function after coronary bypass surgery. Z Kardiol 1998; 87: 865-71.
- 6 Lorenz RL, Schacky CV, Weber M. et al. Improved aortocoronary bypass patency by low-dose aspirin (100 mg daily) Effects on platelet aggregation and thromboxane formation. Lancet 1984; 01: 1261-4.
- 7 Buchanan MR, Brister SJ. Individual variation in the effects ofASA on platelet function: implications for the use of ASA clinically. Can J Cardiol 1995; 11: 221-7.
- 8 Zimmermann N, Kienzle P, Weber AA. et al. Aspirin resistance after coronary artery bypass grafting. J Thorac Cardiovasc Surg 2001; 121: 982-4.
- 9 Cattaneo M. Aspirin and clopidogrel: efficacy, safety, and the issue of drug resistance. Arterioscler Thromb Vasc Biol 2004; 24: 1980-7.
- 10 Hankey GJ, Eikelboom JW. Aspirin resistance. BMJ 2004; 328: 477-9.
- 11 McKee SA, Sane DC, Deliargyris EN. Aspirin resistance in cardiovascular disease: A review of prevalence, mechanisms, and clinical significance. Thromb Haemost 2002; 88: 711-5.
- 12 Weber AA, Przytulski B, Schumacher M. et al. Flow cytometry analysis of platelet cyclooxygenase-2 expression: induction of platelet cyclooxygenase-2 in patients undergoing coronary artery bypass grafting. Br J Haematol 2002; 117: 424-6.
- 13 Zimmermann N, Wenk A, Kim U. et al. Functional and biochemical evaluation of platelet aspirin resistance after coronary artery bypass surgery. Circulation 2003; 108: 542-7.
- 14 Rocca B, Secchiero P, Ciabattoni G. et al. Cyclooxygenase-2 expression is induced during human megakaryopoiesis and characterizes newly formed platelets. Proc Natl Acad Sci USA 2002; 99: 7634-9.
- 15 Mustonen P, van Willigen G, Lassila R. Epinephrine-via activation of p38-MAPK-abolishes the effect of aspirin on platelet deposition to collagen. Thromb Res 2001; 104: 439-49.
- 16 Folts JD, Rowe GG. Epinephrine potentiation of in vivo stimuli reverses aspirin inhibition of platelet thrombus formation in stenosed canine coronary arteries. Thromb Res 1988; 50: 507-16.
- 17 Borsch-Haubold AG, Kramer RM, Watson SP. Phosphorylation and activation of cytosolic phospholipase A2 by 38-kDa mitogen-activated protein kinase in collagen-stimulated human platelets. Eur J Biochem 1997; 245: 751-9.
- 18 Born GVR. Aggregation of blood platelets by adenosine diphosphate and its reversal. Nature 1962; 164: 927-9.
- 19 Cornelissen J, Armstrong J, Holt CM. Mechanical stretch induces phosphorylation of p38-MAPK and apoptosis in human saphenous vein. Arterioscler Thromb Vasc Biol 2004; 24: 451-6.
- 20 Kawasaki T, Ozeki Y, Igawa T. et al. Increased platelet sensitivity to collagen in individuals resistant to low-dose aspirin. Stroke 2000; 31: 591-5.
- 21 Zimmermann N, Kurt M, Wenk A. et al. Is cardiopulmonary bypass a reason for aspirin resistance after coronary artery bypass grafting?. Eur J Cardiothorac Surg 2005; 27: 606-10.
- 22 Poston R, Gu J, Manchio J. et al. Platelet function tests predict bleeding and thrombotic events after offpump coronary bypass grafting. Eur J Cardiothorac Surg 2005; 27: 584-91.
- 23 Andersen KS, Nygreen EL, Grong K. et al. Comparison of the centrifugal and roller pump in elective coronary artery bypass surgery--a prospective, randomized study with special emphasis upon platelet activation. Scand Cardiovasc J 2003; 37: 356-62.
- 24 Boldt J, Schindler E, Osmer C. et al. Influence of different anticoagulation regimens on platelet function during cardiac surgery. Br JAnaesth 1994; 73: 639-44.
- 25 Boldt J, Knothe C, Welters I. et al. Normothermic versus hypothermic cardiopulmonary bypass: do changes in coagulation differ?. Ann Thorac Surg 1996; 62: 130-5.
- 26 Zotz RB, Klein M, Dauben HP. et al. Prospective analysis after coronary-artery bypass grafting: platelet GP IIIa polymorphism (HPA-1b/PIA2) is a risk factor for bypass occlusion, myocardial infarction, and death. Thromb Haemost 2000; 83: 404-7.
- 27 Vanags D, Rodgers SE, Lloyd JV. et al. The antiplatelet effect of daily low dose enteric-coated aspirin in man: a time course of onset and recovery. Thromb Res 1990; 59: 995-1005.
- 28 Carter AJ, Heptinstall S. Platelet aggregation in whole blood: the role of thromboxane A2 and adenosine diphosphate. Thromb Haemost 1985; 54: 612-6.
- 29 Matijevic-Aleksic N, Sanduja SK, Wang LH. et al. Differential expression of thromboxane A synthase and prostaglandin H synthase in megakaryocytic cell line. Biochim Biophys Acta 1995; 1269: 167-75.
- 30 Weber AA, Zimmermann KC, Meyer-Kirchrath J. et al. Cyclooxygenase-2 in human platelets as a possible factor in aspirin resistance. Lancet 1999; 353: 900.
- 31 Patrignani P, Sciulli MG, Manarini S. et al. COX-2 is not involved in thromboxane biosynthesis by activated human platelets. J Physiol Pharmacol 1999; 50: 661-7.
- 32 Reiter R, Resch U, Sinzinger H. Do human platelets express COX-2?. Prostaglandins Leukot Essent Fatty Acids 2001; 64: 299-305.
- 33 Takahashi Y, Ueda N, Yoshimoto T. et al. Immunoaffinity purification and cDNA cloning of human platelet prostaglandin endoperoxide synthase (cyclooxygenase). Biochem Biophys Res Commun 1992; 182: 433-8.
- 34 Macchi L, Christiaens L, Brabant S. et al. Resistance to aspirin in vitro is associated with increased platelet sensitivity to adenosine diphosphate. Thromb Res 2002; 107: 45-9.