Abstract
Strategies to prevent acute coronary and cerebrovascular events are based on accurate identification of patients at increased cardiovascular (CV) risk who may benefit from intensive preventive measures. The majority of acute CV events are precipitated by the rupture of the thin cap overlying the necrotic core of an atherosclerotic plaque. Hence, identification of vulnerable coronary lesions is essential for CV prevention. Atherosclerosis is a highly dynamic process involving cell migration, apoptosis, inflammation, osteogenesis, and intimal calcification, progressing from early lesions to advanced plaques. Coronary artery calcification (CAC) is a marker of coronary atherosclerosis, correlates with clinically significant coronary artery disease (CAD), predicts future CV events and improves the risk prediction of conventional risk factors. The relative importance of coronary calcification, whether it has a protective effect as a stabilizing force of high-risk atherosclerotic plaque has been debated until recently. The extent of calcium in coronary arteries has different clinical implications. Extensive plaque calcification is often a feature of advanced and stable atherosclerosis, which only rarely results in rupture. These macroscopic vascular calcifications can be detected by computed tomography (CT). The resulting CAC scoring, although a good marker of overall coronary plaque burden, is not useful to identify vulnerable lesions prone to rupture. Unlike macrocalcifications, spotty microcalcifications assessed by intravascular ultrasound or optical coherence tomography strongly correlate with plaque instability. However, they are below the resolution of CT due to limited spatial resolution. Microcalcifications develop in the earliest stages of coronary intimal calcification and directly contribute to plaque rupture producing local mechanical stress on the plaque surface. They result from a healing response to intense local macrophage inflammatory activity. Most of them show a progressive calcification transforming the early stage high-risk microcalcification into the stable end-stage macroscopic calcification. In recent years, new developments in noninvasive cardiovascular imaging technology have shifted the study of vulnerable plaques from morphology to the assessment of disease activity of the atherosclerotic lesions. Increased disease activity, detected by positron emission tomography (PET) and magnetic resonance (MR), has been shown to be associated with more microcalcification, larger necrotic core and greater rates of events. In this context, the paradox of increased coronary artery calcification observed in statin trials, despite reduced CV events, can be explained by the reduction of coronary inflammation induced by statin which results in more stable macrocalcification.
Highlights
Strategies for preventing acute coronary and cerebrovascular (CV) events are based on accurate identification of patients at increased (CV) risk who may benefit from intensive preventive measures [1]
An acute coronary event is not due to occlusion at the site of severe stenosis seen on conventional angiography
The degree of luminal obstruction is a poor predictor of subsequent acute events and most vulnerable plaques are commonly associated with only mild to moderate stenosis [9,10,11,12]
Summary
Strategies for preventing acute coronary and cerebrovascular (CV) events are based on accurate identification of patients at increased (CV) risk who may benefit from intensive preventive measures [1]. An acute coronary event is not due to occlusion at the site of severe stenosis seen on conventional angiography. The majority of acute coronary events are caused by rupture of the thin cap overlying necrotic core of an atherosclerotic plaque or by plaque erosion, with superimposed thrombus formation [15,16,17]. Identification of the plaques thought to cause coronary thrombosis, referred to as vulnerable plaques, is essential for optimum acute event prevention. The important role of imaging techniques depends on their ability to identify the morphological and functional characteristics of the vulnerable plaque
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