Hyperglycemia is a common finding in patients diagnosed with acute coronary syndrome (ACS), and an independent predictor of mortality in patients with and without diabetes. Though percutaneous coronary intervention (PCI) is the cornerstone of ST-segment elevation myocardial infarction (STEMI), the incidence of heart failure, re-infarction and death in hyperglycemic patients remains significant, with a mortality of more than 40% one year after the event. In these STEMI patients dual anti-aggregation therapy is currently the gold standard after PCI, but bleeding phenomena, and therapeutic resistance may reduce their therapeutic efficacy. Therefore, it is likely that the individual response to the dual anti-aggregation therapy, and the hyperglycemic stress, may influence resistance mechanisms, and/or lead to an increase in pharmacological functional deactivation by the microbiotic flora. The term microbiota indicates the totality of the genomes of microorganisms that reside in an ecological niche, and which constitute the "human microbiota". In this context, the analysis of the faecal microbiota before PCI, at hospital discharge and at follow-up, could be considered useful for identifying hyperglycaemic patients with alteration of metabolic-oxidative processes, and pro-thrombotic correlates with worse post procedural prognosis. Therefore, the analysis of faecal microbiota during the STEMI event could theoretically identify hyperglycemic patients with excessive inflammatory and oxidative tone caused by hyperglycemia, conditioning resistance to double anti-aggregation therapy and coronary stenting, and conditioning pro-thrombotic phenomena after coronary reperfusion by PCI. Therefore, authors will conduct a study to analyze the microbiota in patients with acute hyperglycaemic and normoglycemic coronary syndrome. The primary objective of this study will be to evaluate any changes in the microbiota and its activity on faecal material taken before PCI, and after 6 and 12 months in patients with hyperglycemic STEMI, and also evaluate if the changes in the microbiota can be related to the 12-month prognosis.
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all cause deaths
Timeframe: 12 months
cardiac deaths
Timeframe: 12 months