Assessment of Atherosclerotic Plaque Characteristics Change by DCE-MRI With Alirocumab

Acute ischemic events caused by atherosclerosis cardiovascular disease (ASCVD) are primarily due to plaque rupture/erosion determined by plaque morphologic characteristics, local composition and inflammation, which can be directly assessed using magnetic resonance imaging (MRI). Prospective carotid MRI studies have demonstrated: (1) plaques with thin or ruptured cap, intraplaque hemorrhage (IPH), neovascularization, or larger lipid-rich necrotic core (LRNC) are strongly associated with occurrence of cerebrovascular and coronary events, (2) increased LRNC size is significantly associated with increased risk for systemic ASCVD events after adjusting for LDL-C or Non-HDL-C levels, (3) increased permeability of adventitial vasa vasorum is associated with presence of IPH which increases plaque burden and LRNC progression that appears to be resistant to conventional doses of statins, (4) intensive lipid therapy decreases carotid LRNC and vascular inflammation, (5) multicenter carotid studies can be conducted with good reproducibility and feasibility.

Unlike previous clinical trials evaluating carotid artery disease using ultrasound based technology that showed a weak relationship to systemic and coronary vascular events, recent studies have demonstrated predictive value of carotid plaque tissue characteristics for subsequent systemic ASCVD events including coronary events. Hellings and colleagues found that carotid plaque composition by histology in 818 patients who underwent endarterectomy is an independent predictor of future cardiovascular events during long-term post-operative follow-up. Specifically, those with carotid IPH and increased neovascularization were at significantly higher risk for ASCVD events. The Atherosclerosis Risk in Communities study investigators reported that carotid LRNC (HR=1.9, p=0.014) and minimum cap thickness (HR=0.67, p=0.03), as identified by MRI, were significantly associated with development of ASCVD including coronary events after adjusting for all clinical risk factors, treatment variables and biomarkers. The carotid MRI sub-study in AIM-HIGH showed that higher Lp(a) levels are associated with high-risk plaque features which are prevalent in subjects with established vascular disease and "well-controlled" LDL-C and blood pressure. Thin or ruptured cap and a larger LRNC are predictive of systemic ASCVD events that include 83% (15/18) of the coronary events in AIM-HIGH, meanwhile, none of the clinical risk factors and lipids were predictive of future events.

Alirocumab has shown substantial lowering in LDL-C, non-HDL-C and Lp(a), with or without concomitant statin treatment [43]. It has the potential to be a therapy that can improve plaque characteristics leading to reduction of ASCVD events. We propose to conduct a carotid MRI pilot study to demonstrate that adding alirocumab for 12 months, in comparison to pre-alirocumab therapy, in 30 subjects with documented carotid artery plaques who are not able to tolerate high intensity statin therapy and have LDL-C ≥70 mg/dl would improve atherosclerotic plaque characteristics by reducing Ktrans and LRNC size.