Acute myocardial infarction owes to a plaque rupture resulting in total (STEMI) or partial occlusion (NSTEMI) of the coronary artery. In patients with a partial occlusion and multi vessel disease (MVD), identification of the lesion responsible for the current event (culprit) at the time of the examination (coronary angiogram, CAG) can be difficult. Meanwhile, identification of the culprit lesion is vital to conduct proper treatment. Furthermore, treating an artery with no plaque rupture (non-culprit), imposes a small risk for complications, which may be fatal. Precise identification of the culprit lesion in NSTEMI patients with MVD remains unsettled The purpose of this study is proper and precise identification of the culprit lesion in NSTEMI patients with MVD.
Background Acute myocardial infarction owes to a plaque rupture resulting in total (STEMI) or partial occlusion (NSTEMI) of the coronary artery. Current guidelines in NSTEMI recommend an invasive coronary angiogram (CAG) and possible treatment with percutaneous intervention (PCI) within 2-72 hours. In NSTEMI patients and multi vessel disease (MVD), identification of the lesion responsible for the current event (culprit) at the time of the examination can be difficult. Meanwhile, identification of the culprit lesion is vital to conduct proper treatment in order to restore blood flow to the myocardium. Furthermore, treating an artery with no plaque rupture (non-culprit), imposes a small risk for complications, which may be fatal. In addition, since the symptoms relate to the culprit lesion it is currently unclear whether all stenosis or only the culprit should be treated by PCI. Today precise identification of the culprit lesion in NSTEMI patients with MVD remains unsettled. Purpose The overall objective of this study is proper and precise identification of the culprit lesion in NSTEMI patients with MVD. Methods The study employs cardiac magnetic resonance (CMR), which allows detection of myocardium exposed to even brief periods of ischemia. Furthermore, Optical Coherence Tomography (OCT) which visualises the coronary artery lumen and wall. OCT allows for direct visualization of atherosclerotic plaques, presence of thrombus and atherosclerotic plaque ruptured that cannot be seen on a CAG alone. Patients will have CMR performed prior to CAG. The PCI operator determines culprit based on CAG and ECG changes alone. OCT is subsequently performed on culprit lesion(s) and stenosis ≥ 50%. Sample size calculation Assuming the culprit lesion can be correctly identified with history/angiography/ECG in 95% of cases a positive predictive value \>90% with 95% accuracy can be reached with 100 patients.
Study Type
OBSERVATIONAL
Enrollment
100
Lesions \>50% stenosis i patients with NSTEMI are examined by OCT. All patients will have CMR performed prior to angiography
Rigshospitalet
Copenhagen, Denmark
RECRUITINGIs the PCI operator capable of identifying the culprit lesion based on ECG-changes and CAG? (CMR is the golden standard)
Correlation between operator identification of the culprit and CMR/OCT. The location of the culprit on CAG/ECG and OCT versus CMR will be evaluated by the chi2-test
Time frame: Through study completion, an average of 1 year
Positive predictive value of PCI operator identification of culprit lesion with CAG and ECG.
cross-tables will be used to calculate the positive predictive value Receiver-operating-characteristics will be used to compare the additional diagnostic value of OCT compared to CAG/ECG.
Time frame: Through study completion, an average of 1 year
Improvement in identification of culprit lesions evaluated by identification of an additional diagnostic value of OCT compared to CAG/ECG
Receiver-operating-characteristics will be used to compare the additional diagnostic value of OCT compared to CAG/ECG. CMR is the golden standard.
Time frame: Through study completion, an average of 1 year
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