Aspirin Clinical Trial
Official title:
Reversal of the Antiplatelet Effects of Ticagrelor in Combination With Aspirin, Using Normal Platelets
The specific objective of this study is to investigate the potential for normal platelets to reverse the inhibition of platelet aggregation in patients treated with ticagrelor in combination with aspirin.
Ticagrelor is one of three commercially available antiplatelet adenosine diphosphate (ADP)
antagonists (the other two are clopidogrel and prasugrel). They exert their antiplatelet
effects by binding to P2Y12 receptors on the platelet surface. Ticagrelor is used in
combination with aspirin to prevent and treat thrombosis in patients with acute coronary
syndrome, particularly after stent implantation. ADP antagonists are combined with aspirin
because aspirin blocks platelet aggregation by preventing thromboxane production, and
blocking two different pathways leads to greater efficacy than either drug used alone.
Recent clinical trials indicate ticagrelor in combination with aspirin is more effective for
prevention of thrombotic events in patients with symptomatic coronary artery disease than
aspirin in combination with clopidogrel, but causes significantly more bleeding. The
improved efficacy and reduced safety occurs because ticagrelor causes greater inhibition of
ADP-mediated platelet activation. The latter can be reliably measured in the laboratory.
Management of patients who bleed while taking an ADP antagonist in combination with aspirin
is challenging because there is no specific antidote, Platelet transfusion has the potential
to reverse the effects of clopidogrel or prasugrel and aspirin, but these findings cannot be
extrapolated to ticagrelor in combination with aspirin because the pharmacokinetic and
pharmacodynamic effects of ticagrelor differ.
Aspirin, clopidogrel active metabolite, and prasugrel active metabolite have half-lives of
15-20 minutes, 30 minutes, and four hours respectively. They are irreversible platelet
inhibitors which bind to and permanently block platelet function. After their drug
elimination, new platelets which enter the circulation from megakaryocytes in the bone
marrow are unaffected. Therefore, after elimination, newly transfused platelets have the
potential to restore haemostasis. In contrast, ticagrelor, a reversible platelet inhibitor,
has a longer half-life (7.7 to 14.1 hours). As a result of its longer half-life, newly added
platelets (both from the bone marrow and transfused platelets) are inhibited by ticagrelor
for at least 24 hours after the last dose. Therefore, reversing platelet inhibition and
controlling excessive bleeding associated with ticagrelor by platelet transfusion poses a
greater challenge than with clopidogrel and prasugrel. Nevertheless, because of its greater
efficacy, ticagrelor is preferred over clopidogrel in high risk patients.
Previous studies of platelet transfusion and ev vivo mixing within 24 hours of drug
administration have shown than the inhibition of ADP-mediated platelet activation by
clopidogrel and prasugrel, but not ticagrelor can be reversed or modulated by the addition
of donor platelets. Although reversing the platelet inhibitory effects of ticagrelor might
not be possible within 24 hours of stopping the drug, it should be possible in the days that
follow. This has not been examined. Accordingly, we propose to perform a study in which we
systematically evaluate inhibition of ADP mediated platelet activation, a reliable measure
of ticagrelor's antiplatelet activity, when donor platelets are added to the platelets of
subjects treated with ticagrelor at time intervals up to 96 hours after their last dose.
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