Introduction. Apixaban is a direct oral anticoagulant prescribed for treatment and prevention of venous thromboembolism (VTE) and for prevention of stroke in patients with nonvalvular atrial fibrillation. Direct oral anticoagulants (DOACs) such as apixaban are rapidly replacing warfarin therapy due to improved efficacy and safety profile shown in clinical trials. However, anticoagulants can cause serious and adverse drug reactions (ADRs).Aim. Study of the effect of carriage of polymorphisms in CYP3A4*22 (rs35599367) C>T, CYP3A5*3 (rs776746) A>G, ABCB1 (rs4148738) C>T and ABCB1 (rs1045642) C>T genes on the change in prothrombin time (PT) and activated partial thromboplastin time (aPTT) in patients using apixaban.Materials and methods. A total of 36 patients were enrolled onto this prospective observational study. All patients received apixaban at doses in accordance with instructions on how to administer the drug. Atrial fibrillation was diagnosed in 26 patients, and secondary thrombotic complications in 23 patients. To perform pharmacogenetic tests and measure aPTT and PT parameters, venous blood samples from each patient were drawn on Days 4-5 after prescription of apixaban. The PharmGKB database was used to select candidate genes for the study. Genotyping was performed using the real-time polymerase chain reaction technique. Statistical analysis: data were analyzed by using IBM SPSS Statistics program, Version 23.0.Results. In our study, we assessed the effect of polymorphisms in ABCB1 (rs1045738) C>T, ABCB1 (rs4148642) C>T genes on the aPTT and PT parameters. No statistically significant associations were found.Conclusion. The differences between PT and APTT values in patients using apixaban in the groups with different polymorphisms in ABCB1 (rs1045738) C>T, ABCB1 (rs4148642) C>T gene were not statistically significant. Further studies are necessary to assess the effect of pharmacogenetics on the safety and efficacy profile of apixaban.
<b><i>Introduction:</i></b> The interindividual variability of the antiplatelet effect of clopidogrel is determined by multiple clinical and genetic factors. A lot of genotype-oriented studies have concentrated on the impact of CYP2C19 gene polymorphisms on platelet aggregation in patients receiving clopidogrel. However, the influence of this polymorphism may be only 12–20%, so other genetic markers should also be investigated. The aim of this work was to study the impact of carriage of CES1, PON1, ABCG2, CYP4F2, CYP3A4, IGTB3, P2Y12, PEAR1, and B4GALT2 polymorphisms on antiplatelet effect of clopidogrel and clinical outcomes in patients with acute coronary syndrome (ACS) and atrial fibrillation (AF). <b><i>Methods:</i></b> 103 patients who underwent ACS with or without percutaneous coronary intervention and concomitant nonvalvular AF were included in an open multicenter prospective study to assess efficacy and safety of combined antithrombotic therapy. The study assessed the frequency of different primary clinical outcomes (incidence of major bleeding, hospital mortality, cardiovascular mortality, stroke and transient ischemic attacks (TIAs), renal mortality) and secondary outcomes (resistance to therapy – high residual platelet reactivity, excessive platelet suppression). Residual platelet reactivity was examined using the VerifyNow system (Accumetrics, Latham, NY, USA). <b><i>Results:</i></b> None of the studied genetic markers had no statistically significant effect on the antiaggregant response to clopidogrel in patients with ACS and AF. However, CYP4F2 C(Val433Met) T, PEAR1 rs41273215 C>T were statistically significantly associated with an increased frequency of bleeding on antithrombotic therapy. B4GALT2 rs1061781 was statistically significantly associated with increased frequency of strokes and TIA. <b><i>Conclusion:</i></b> In our study, we determined that carriers of CYP4F2 gene polymorphisms C(Val433Met)T, PEAR1 rs41273215 C>T (CT+TT) were associated with lower safety of antithrombotic therapy in patients with ACS and AF. And, the B4GALT2 rs1061781 gene polymorphism was associated with a greater risk of insufficient efficacy of the therapy. The data obtained in our study may improve the understanding of the effect of less studied genetic markers on the efficacy and safety of antithrombotic therapy in patients with ACS and AF.
Anticoagulants play an important role in reducing complications and mortality associated with thromboembolic disease. For some time, vitamin K antagonists (VKAs) have been the main drugs used for long-term oral anticoagulant therapy, but because of the significant limitations of VKAs over the past decade, pharmacological research has led to the development of new direct acting oral anticoagulants (DOACs). Direct acting oral anticoagulants have a rapid onset of action with peak levels within 2–4 hours and a half-life of about 12 hours, which is much shorter than that of vitamin K antagonists, a more predictable anticoagulant effect, no need for dose selection, routine laboratory monitoring of pharmacodynamic effects, and a lower frequency of clinically significant drug-drug interactions compared with warfarin. But anticoagulants can still cause serious adverse drug reactions (ADRs) in the form of hemorrhagic complications in hospitalized patients, as confirmed in studies. Currently, clinicalpharmacological technologies of personalized medicine such as pharmacogenetic and pharmacokinetic studies are considered as promising approaches to improve the safety of modern pharmacotherapy, allowing the prediction and prevention of various ADRs. In addition, there are emerging studies showing the importance of genetic features of patients in relation to the metabolism of oral anticoagulants, as well as described clinical situations where different gene polymorphisms, could be responsible for changes in the pharmacokinetics of DOACs. This article reviews clinical cases in which pharmacogenetic testing and therapeutic drug monitoring are used to optimize the clinical efficacy and maximum safety of anticoagulant therapy with apixaban and rivaroxaban.
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