Abstract
Atherosclerotic cardiovascular diseases (CVD) are the leading cause of mortality worldwide, accounting for greater than 19.10 6 deaths annually. Despite major advances in the treatment of CVD, a high proportion of CVD victims die suddenly while being apparently healthy, the great majority of these accidents being due to the rupture or erosion of a vulnerable coronary atherosclerotic plaque. Indeed, an acute heart attack is the first symptom of atherosclerosis in as much as 50% of individuals with severe disease. A non-invasive imaging methodology allowing the early detection of vulnerable atherosclerosis in selected individuals prior to the occurrence of any symptom would therefore be of great public health benefit. Nuclear imaging could potentially allow the identification of vulnerable patients by non-invasive scintigraphic imaging following administration of a radiolabeled tracer. The development of radiolabeled probes that specifically bind to and allow the in vivo imaging of vulnerable atherosclerotic plaques is therefore the subject of intense ongoing experimental and clinical research. Radiotracers targeted at the inflammatory process seem particularly relevant and promising. Recently, macrophage targeting allowed the experimental in vivo detection of atherosclerosis using either SPECT or PET imaging. A few tracers have also been evaluated clinically. Targeting of apoptosis and macrophage metabolism both allowed the imaging of vulnerable atherosclerotic plaques in the carotid vessels of patients. However, nuclear imaging of vulnerable plaques at the level of the coronary arteries remains a challenging issue because of the small size of atherosclerotic lesions and of their vicinity with blood and the circulating tracer activity.
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