Edouard Gerbaud1, Fabien Arabucki2, Hubert Nivet3, Christophe Barbey4, Laura Cetran5, Stephan Chassaing4, Benjamin Seguy5, Arnaud Lesimple5, Hubert Cochet6, Michel Montaudon6, François Laurent6, Olivier Bar4, Guillermo J Tearney7, Pierre Coste8. 1. Cardiology Intensive Care Unit and Interventional Cardiology, Hôpital Cardiologique du Haut Lévêque, Pessac, France; Bordeaux Cardio-Thoracic Research Centre, Bordeaux University, Hôpital Xavier Arnozan, Pessac, France. Electronic address: edouard.gerbaud@chu-bordeaux.fr. 2. Cardiology Intensive Care Unit and Interventional Cardiology, Hôpital Cardiologique du Haut Lévêque, Pessac, France; Interventional Cardiology and Department of Cardiovascular Imaging, Clinique Saint Gatien, Tours, France. 3. Department of Cardiovascular Imaging, Hôpital Cardiologique du Haut-Lévêque, Pessac, France. 4. Interventional Cardiology and Department of Cardiovascular Imaging, Clinique Saint Gatien, Tours, France. 5. Cardiology Intensive Care Unit and Interventional Cardiology, Hôpital Cardiologique du Haut Lévêque, Pessac, France. 6. Bordeaux Cardio-Thoracic Research Centre, Bordeaux University, Hôpital Xavier Arnozan, Pessac, France; Department of Cardiovascular Imaging, Hôpital Cardiologique du Haut-Lévêque, Pessac, France. 7. Wellman Center for Photomedicine, Harvard Medical School and Massachusetts General Hospital, Boston, Massachusetts, USA; Department of Pathology, Massachusetts General Hospital and Harvard Medical School, Boston, Massachusetts, USA; Harvard-MIT Health Sciences and Technology, Boston, Massachusetts, USA. 8. Cardiology Intensive Care Unit and Interventional Cardiology, Hôpital Cardiologique du Haut Lévêque, Pessac, France; Bordeaux Cardio-Thoracic Research Centre, Bordeaux University, Hôpital Xavier Arnozan, Pessac, France.
Abstract
OBJECTIVES: Among all patients presenting with myocardial infarction with nonobstructive coronary arteries (MINOCA), epicardial causes may be suspected when there is a correlation between electrocardiogram (ECG) changes and regional wall motion abnormalities (WMAs). We evaluated the diagnostic yield of intravascular optical coherence tomography (OCT) and cardiac magnetic resonance (CMR) in this specific setting. BACKGROUND: OCT is able to identify different morphologic features of coronary plaques that are well known causes of MINOCA. Furthermore, CMR has become the gold standard for detection of myocardial infarction in the setting of MINOCA. METHODS: In a prospective 2-center study, consecutive patients with MINOCA including ECG features of ischemia associated with corresponding WMAs underwent OCT and CMR. RESULTS: Forty patients (mean age: 50 ± 11 years, 62.5% male, 32.5% with ST-segment elevation) were enrolled. Coronary arteries were normal on coronary angiography in 10 patients (25%); 18 patients (45%) presented minimal lumen irregularities, whereas the remaining 12 patients (30%) showed mild to moderate (≥30% but <50%) coronary lesions. Plaque rupture, eruptive calcific nodule, plaque erosion, lone thrombus, and spontaneous coronary artery dissection were found in 14 (35%), 1 (2.5%), 12 (30%), 3 (7.5%), and 2 (5%) patients, respectively. Acute myocardial infarction was evident at CMR in 31 of 40 patients (77.5%). Twenty-three patients (57.5%) had a substrate and/or diagnosis supported by both techniques with an evident relationship between the findings obtained by the 2 techniques. By coupling OCT with CMR, a substrate and/or diagnosis was found in 100% of cases. CONCLUSIONS: OCT coupled with CMR can provide a clear substrate and/or diagnosis in the vast majority of patients presenting with MINOCA including ECG features of ischemia associated with corresponding WMAs.
OBJECTIVES: Among all patients presenting with myocardial infarction with nonobstructive coronary arteries (MINOCA), epicardial causes may be suspected when there is a correlation between electrocardiogram (ECG) changes and regional wall motion abnormalities (WMAs). We evaluated the diagnostic yield of intravascular optical coherence tomography (OCT) and cardiac magnetic resonance (CMR) in this specific setting. BACKGROUND: OCT is able to identify different morphologic features of coronary plaques that are well known causes of MINOCA. Furthermore, CMR has become the gold standard for detection of myocardial infarction in the setting of MINOCA. METHODS: In a prospective 2-center study, consecutive patients with MINOCA including ECG features of ischemia associated with corresponding WMAs underwent OCT and CMR. RESULTS: Forty patients (mean age: 50 ± 11 years, 62.5% male, 32.5% with ST-segment elevation) were enrolled. Coronary arteries were normal on coronary angiography in 10 patients (25%); 18 patients (45%) presented minimal lumen irregularities, whereas the remaining 12 patients (30%) showed mild to moderate (≥30% but <50%) coronary lesions. Plaque rupture, eruptive calcific nodule, plaque erosion, lone thrombus, and spontaneous coronary artery dissection were found in 14 (35%), 1 (2.5%), 12 (30%), 3 (7.5%), and 2 (5%) patients, respectively. Acute myocardial infarction was evident at CMR in 31 of 40 patients (77.5%). Twenty-three patients (57.5%) had a substrate and/or diagnosis supported by both techniques with an evident relationship between the findings obtained by the 2 techniques. By coupling OCT with CMR, a substrate and/or diagnosis was found in 100% of cases. CONCLUSIONS: OCT coupled with CMR can provide a clear substrate and/or diagnosis in the vast majority of patients presenting with MINOCA including ECG features of ischemia associated with corresponding WMAs.
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