Objective: We sought to determine the underlying coronary anatomy and characterize the culprit lesion after non-Q-wave myocardial infarction (NQWMI).
Background: Although the culprit lesion and infarct-related artery often are easily identified with coronary angiography after Q-wave MI, the culprit lesion after NQWMI has not been well characterized. Small retrospective studies have suggested that the absence of Q-waves on an electrocardiogram is due to incomplete occlusion of the infarct-related artery.
Methods: Coronary angiograms from 350 patients randomized to the early invasive strategy in the Veterans Affairs Non-Q-Wave Infarction Strategies in-Hospital (VANQWISH) trial were systematically analyzed in an angiographic core laboratory. A consensus panel identified the culprit lesion and the infarct-related artery using prespecified criteria for complex lesion morphology and acute versus chronic occlusions. Severity of angiographic disease and left ventricular function also were analyzed. Patients with a single identified culprit lesion were compared with those who had multiple apparent culprits and those without an identifiable culprit lesion.
Results: A single culprit lesion was identified in only 49% of patients undergoing early angiography after NQWMI. The majority of patients either had no identifiable culprit (37%) or multiple apparent culprit lesions (14%). A single incomplete occlusion of the infarct-related artery was found in only 36% of patients, and an isolated acute occlusion of the infarct-related artery occurred in 13%. Patients without an identifiable culprit lesion had severe coronary disease (obstructive coronary artery disease [CAD] in 84%) but no complex lesion morphology. There was no difference in angiographic severity of disease comparing patients with and without identifiable culprit lesions. Patients with a single incomplete occlusion of the infarct-related artery were more likely to undergo percutaneous transluminal coronary angioplasty than other patients, whereas patients with multiple culprit lesions were more frequently treated with coronary artery bypass grafting.
Conclusions: Coronary angiography early after NQWMI frequently identifies severe obstructive CAD, but a single identifiable culprit lesion was identified in <50% of patients. Multiple culprit lesions were seen in 14% of patients. An angiographic culprit lesion could not be identified in more than one-third of patients undergoing coronary angiography as part of an invasive strategy.