Haematology and Cell Biology

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Browsing Haematology and Cell Biology by Subject "Arterial thrombosis"

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    The evaluation of tirofiban hydrochloride in a high shear rate arterial thrombosis model in baboons
    (University of the Free State, 2009-11) Janse van Rensburg, Walter James; Meiring, S. M.; Roodt, J. P.
    English: Background: Acute coronary syndrome (ACS) is a major cause of mortality and morbidity world-wide, and is responsible for roughly 2.5 million hospital admissions world-wide annually. ACS is commonly associated with platelet thrombus formation on disrupted atherosclerotic plaques, therefore effective and safe anti-platelet drugs are needed to help treat and prevent ACS. The current most popular anti-platelet drugs are associated with increased bleeding risk and reduced efficacy, thus drugs with a wider therapeutic window (more efficacy with less bleeding) need to be developed. Tirofiban hydrochloride is a small, short half-life molecule that inhibits platelet aggregation by antagonising the glycoprotein IIb/IIIa receptor on platelets preventing fibrinogen and von Willebrand factor to cross-link platelets, thereby inhibiting the final pathway of platelet aggregation. Tirofiban hydrochloride was believed to be a very promising drug due to its short half-life, as an antidote strategy is not needed to reverse adverse bleeding events, but it soon fell out of favour when it was found not to be as effective as for example abciximab in preventing ischaemic events. This was possibly due to the recommended dose being suboptimal. Methods and Results: We studied the efficacy of tirofiban hydrochloride to inhibit platelet thrombus formation on an injured and partially occluded artery by evaluating the effect of escalating doses on cyclic flow reduction (CFR) formation in a high shear arterial thrombosis model in baboons, and also evaluated its safety in two different bleeding models. We then compared our results to results found in the same model using clopidogrel. A significant effect on the number of CFRs was only observed after injection of three times (30 μg/kg bolus plus 0.45 μg/kg/min infusion) the therapeutic dose tirofiban, but it was a weak inhibitor at this dose. Only after injection of nine times (90 μg/kg bolus plus 1.35 μg/kg/min infusion) the recommended therapeutic dose, a strong complete inhibition was observed. A further dose of 27 times (270 μg/kg bolus plus 4.05 μg/kg/min infusion) the recommended therapeutic dose was given to evaluate the effect of an overdose on the bleeding tendency. A significant prolongation in bleeding time (3.05 minutes to 11.90 minutes) was observed after injection of nine times the therapeutic dose, an average 2.7 ± 2.44 fold increase in blood loss was also observed at this dose. A maximum increase in blood loss of an average of 3.4 ± 1.77 fold was seen after injection of 27 times the therapeutic dose. The efficacy of tirofiban hydrochloride was comparable to that of clopidogrel found in earlier studies, but the blood loss was much less when compared to the average 4.3 ± 2.6 fold increase with clopidogrel at 2.5 mg/kg and 8.0 ± 5.0 fold increase at 5 mg/kg. Conclusion: Tirofiban hydrochloride is an effective anti-platelet drug, but only offers adequate protection against arterial thrombosis at a dose between three and nine times the recommended therapeutic dose. However, it still remains safer in terms of bleeding than the most common anti-platelet drugs used today. We recommend that further in vivo studies be done to determine the optimal dose for tirofiban hydrochloride treatment, and that new clinical trials be done with higher dose tirofiban hydrochloride.