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Identification of Genetic Determinants of the Coronary Microvascular Obstruction Development in Percutaneous Coronary Interventions
In Brief
An observational study evaluating different variants of SNPs that may be associated with the coronary microvascular obstruction development for Myocardial Infarction and No-Reflow Phenomenon. Completed, enrolled 80 participants across 2 sites.
Detailed Summary
Myocardial infarction (MI) remains one of the most common causes of death. Percutaneous coronary intervention (PCI) is the main treatment option to restore blood flow through the infarction-related coronary artery (IRA) in MI patients. Performing PCI significantly reduces mortality, but in 5-10% cases, PCI is complicated by the development of coronary microvascular obstruction (CMVO, "no-reflow"). CMVO is defined as the absence of adequate myocardial perfusion, despite the restoration of the IRA lumen. The development of CMVO significantly worsens the prognosis and increases mortality. CMVO has a complex pathogenesis and is development due to following mechanisms: distal microembolism, ischemia-reperfusion injury, persistent endothelial dysfunction, and individual predisposition. These mechanisms can be implemented simultaneously and have different severity. The most significant predictors of CMVO occurrence are: age, time from pain onset to reperfusion, severity of acute heart failure, ineffective thrombolytic therapy, collateral blood flow according to the Rentrop classification, severity of IRA thrombosis according to Thrombolysis in Myocardial Infarction (TIMI) thrombus grade, initial IRA blood flow according to TIMI flow grade, implantation of 3 or more stents, direct IRA stenting, neutrophil and blood glucose levels. Difficulties in CMVO predicting are caused by the pathogenetic heterogeneity of this complication. Even the best models are moderately accurate. This can be explained by the fact that the models don't use genetic factors that determine endothelial function, microcirculation, hemostasis, and inflammation. Identification of the genetic determinants of the CMVO development can help create a new diagnostic system for CMVO predicting.
Study Details
Timeline
Interventions
Some variants of SNPs determine endothelial function, microcirculation, hemostasis, and inflammation in MI patients. They may be associated with the development of coronary microvascular obstruction during emergency PCI. A link between the different SNPs and the CMVO development will be established. SNP will be determined by real-time polymerase chain reaction with high-resolution melting curve analysis using TaqMan fluorescent probes.