Gene polymorphism as a cause of hemorrhagic complications in patients with non-valvular atrial fibrillation treated with oral vitamin K-independent anticoagulants.
Ayan S AbdrakhmanovAizhana ShaimerdinovaZhanasyl SuleimenSvetlana AbildinovaRustam AlbayevGulnar TuyakovaElena RibAkmaral BeysenbayevaGulden KabduyevaMakhabbat BekbossynovaPublished in: Therapeutic advances in cardiovascular disease (2024)
Atrial fibrillation (AF) accounts for 40% of all cardiac arrhythmias and is associated with a high risk of stroke and systemic thromboembolic complications. Dabigatran, rivaroxaban, apixaban, and edoxaban are direct oral anticoagulants (DOACs) that have been proven to prevent stroke in patients with non-valvular AF. This review summarizes the pharmacokinetics, pharmacodynamics, and drug interactions of DOACs, as well as new data from pharmacogenetic studies of these drugs. This review is aimed at analyzing the scientific literature on the gene polymorphisms involved in the metabolism of DOACs. We searched PubMed, Cochrane, Google Scholar, and CyberLeninka (Russian version) databases with keywords: 'dabigatran', 'apixaban', 'rivaroxaban', 'edoxaban', 'gene polymorphism', 'pharmacogenetics', ' ABCB1 ', ' CES1 ', ' SULT1A ', ' ABCG2 ', and ' CYP3A4 '. The articles referred for this review include (1) full-text articles; (2) study design with meta-analysis, an observational study in patients taking DOAC; and (3) data on the single-nucleotide polymorphisms and kinetic parameters of DOACs (plasma concentration), or a particular clinical outcome, published in English and Russian languages during the last 10 years. The ages of the patients ranged from 18 to 75 years. Out of 114 reviewed works, 24 were found eligible. As per the available pharmacogenomic data, polymorphisms affecting DOACs are different. This may aid in developing individual approaches to optimize DOAC pharmacotherapy to reduce the risk of hemorrhagic complications. However, large-scale population studies are required to determine the dosage of the new oral anticoagulants based on genotyping. Information on the genetic effects is limited owing to the lack of large-scale studies. Uncovering the mechanisms of the genetic basis of sensitivity to DOACs helps in developing personalized therapy based on patient-specific genetic variants and improves the efficacy and safety of DOACs in the general population.
Keyphrases
- atrial fibrillation
- direct oral anticoagulants
- oral anticoagulants
- left atrial
- catheter ablation
- left atrial appendage
- venous thromboembolism
- end stage renal disease
- heart failure
- systematic review
- percutaneous coronary intervention
- chronic kidney disease
- ejection fraction
- electronic health record
- risk factors
- big data
- genome wide
- case control
- randomized controlled trial
- peritoneal dialysis
- stem cells
- prognostic factors
- patient reported outcomes
- machine learning
- meta analyses
- mitral valve
- drug induced
- pulmonary embolism
- psychometric properties