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Platelets play a key role in the athero-thrombotic process. However, the in vivo mechanism accounting for thrombus growth at site of coronary atherosclerotic lesion has not been fully elucidated. While platelet adhesion and aggregation on the thrombogenic core of atherosclerotic plaque is an established mechanism for thrombus growth, the role of systemic factors, which may contribute to thrombus via amplification and propagation of platelet aggregation, is still to be clarified.
There is a growing body of evidence that lipopolysaccharides (LPS), are implicated in athero-thrombosis. Circulating levels of endotoxins have been associated with human atherosclerosis progression, particularly in smokers or in patients with infections. Furthermore, endotoxins seem to be implicated in the thrombotic process through several mechanisms including up-regulation of macrophage tissue factor expression and amplification of platelet response upon interaction with Toll-like receptor 4. The relationship between endotoxins and platelets may be relevant in the context of acute coronary syndromes as endotoxins could locally amplify platelet-derived thrombus growth but this issue is still unexplored.
Previous studies demonstrated that low-grade endotoxemia is detectable in human circulation, likely as consequence of enhanced gut permeability, and may be responsible for leucocyte-platelet aggregate and eventually thrombosis. The investigators hypothesize that low-grade endotoxemia may be observed in patients with coronary heart disease and may favor, at site of coronary unstable plaque, thrombus growth. To explore this issue, Escherichia Coli (EC)-LPS concentration and biomarkers of platelet activation will be measured in coronary thrombus and intra-coronary blood of patients with STEMI and stable angina (SA), respectively, and in peripheral circulation of both patients and controls. EC DNA will be searched in serum of all patients by polymerase chain reaction (PCR). Furthermore, to substantiate that LPS could be biologically active, immune-histochemical analysis of thrombi and in vitro studies will be performed to assess the interplay between LPS and platelet activation.
Full description
In this case-control study, three groups of patients will be compared: consecutive STEMI patients undergoing to manual thrombo-aspiration during primary percutaneous coronary intervention, patients with chronic stable angina (SA) undergoing elective diagnostic and/or interventional coronary procedure and outpatients without coronary heart disease referring to the ambulatory of the Department of Internal Medicine, I Clinica Medica, Sapienza -University of Rome.
Patients will be recruited from three Centers: i) Department of the Heart and Great Vessels "Attilio Reale", Sapienza -University of Rome; ii) Department of Internal Medicine, I Clinica Medica, Sapienza -University of Rome; iii) Department of Interventional Cardiology, Santa Maria University Hospital, Terni.
The study complied with the Declaration of Helsinki and was approved by the local ethic committees of centers involved.
In patients presenting STEMI, coronary thrombi, when present, or plaque fragments will be aspirated from the culprit coronary artery before stent implantation and collected in EDTA tubes.
Thrombi will be homogenized in 5 mL of a homogenization buffer. Aliquots of thrombi homogenate will be centrifuged. In a subset of STEMI patients, part of the thrombotic material aspirated will be fixed in 4% buffered formaldehyde for histologic and immunohistochemical analyses.
In patients with SA, intracoronary blood will be aspirated from the stented coronary artery, before stenting, and immediately collected in EDTA tubes and centrifuged. Next, supernatant will be removed and stored at -80°C until use.
Peripheral blood samples will be obtained from a radial or femoral artery, before the start of procedure and after stent deployment in STEMI patients, or before balloon dilation and stenting in SA patients and then collected into tubes with or without 3.8% sodium citrate and EDTA tubes and centrifuged to obtain supernatant. Blood samples of controls group will be obtained from patients after supine rest for at least 10 min and taken into tubes with or without 3.8% sodium citrate and in EDTA tubes and centrifuged to obtain supernatant. Plasma and serum aliquots will be stored at -80°C in appropriate cuvettes until assayed.
Complete haemochrome, blood glucose, lipid profile, fibrinogen, creatinine, creatine kinase-MB and troponin T will be evaluated using standard methods.
sCD40L and sP-selectin levels will be measured with a commercial immunoassay in aliquots of plasma, thrombus homogenate and intracoronary blood.
Lipopolysaccharide (LPS) levels in serum and thrombus will be measured using a commercial ELISA kit.
A PCR reaction for specific amplification of a region of the 16S ribosomal RNA gene of Escherichia coli will be developed.
Serum zonulin levels will be measured using a commercial ELISA kit.
Immunoistochemistry (IHC) will be performed on sections obtained from formalin-fixed and paraffin embedded thrombus fragments aspirated from a subset of STEMI patients. After rehydration and antigen retrieval slides will be incubated with primary antibodies respectively to LPS, TLR4 and Cathepsin G, then washed in phosphate saline buffer and incubated with a secondary universal antibody. Immunoreactions will be detected with diaminobenzidine.
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Inclusion criteria
For STEMI patients:
For SA patients:
For control subjects:
Exclusion criteria
Additional exclusion criteria for STEMI patients were symptoms duration>12 h, rescue PCI, in-stent thrombosis and anatomical difficulty in reaching the lesion.
150 participants in 3 patient groups
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Data sourced from clinicaltrials.gov
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