Gallone G, Bellettini M, Gatti M, Tore D, Bruno F, Scudeler L, Cusenza V, Lanfranchi A, Angelini A, de Filippo O, Iannaccone M, Baldetti L, Audisio K, Demetres M, Risi G, Rizzello G, Porto I, Fonio P, Prati F, Williams MC, Koo BK, Pontone G, Depaoli A, Libby P, Stone GW, Narula J, de Ferrari GM, and d'Ascenzo F
Background: The clinical value of high-risk coronary plaque characteristics (CPCs) to inform intensified medical therapy or revascularization of non-flow-limiting lesions remains uncertain., Objectives: The authors performed a systematic review and meta-analysis to study the prognostic impact of CPCs on patient-level and lesion-level major cardiovascular adverse events (MACE)., Methods: Thirty studies (21 retrospective, 9 prospective) with 30,369 patients evaluating the association of CPCs with MACE were included. CPCs included high plaque burden, low minimal lumen area, thin cap fibroatheroma, high lipid core burden index, low-attenuation plaque, spotty calcification, napkin ring sign, and positive remodeling., Results: CPCs were evaluated with the use of intracoronary modalities in 9 studies (optical coherence tomography in 4 studies, intravascular ultrasound imaging in 3 studies, and near-infrared spectroscopy intravascular ultrasound imaging in 2 studies) and by means of coronary computed tomographic angiography in 21 studies. CPCs significantly predicted patient-level and lesion-level MACE in both unadjusted and adjusted analyses. For most CPCs, accuracy for MACE was modest to good at the patient level and moderate to good at the lesion level. Plaques with more than 1 CPC had the highest accuracy for lesion-level MACE (AUC: 0.87). Because the prevalence of CPCs among plaques was low, estimated positive predictive values for lesion-level MACE were modest. Results were mostly consistent across imaging modalities and clinical presentations, and in studies with prevailing hard outcomes., Conclusions: Characterization of CPCs identifies high-risk atherosclerotic plaques that place lesions and patients at risk for future MACE, albeit with modest sensitivity and positive predictive value (Coronary Plaque Characteristics Associated With Major Adverse Cardiovascular Events Among Atherosclerotic Patients and Lesions; CRD42021251810)., Competing Interests: Funding Support and Author Disclosures In the past 2 years, Dr Porto has received speaker or advisor fees from GE, Terumo, Medtronic, Abbott, Philips, Sanofi, Amgen, and Daiichi-Sankyo, all outside of the scope of the submitted work; his laboratory has received support from Chiesi and Amgen. Dr Williams is supported by the British Heart Foundation (FS/ICRF/20/26002) and has given lectures for Canon Medical Systems and Siemens Healthineers. Dr Pontone has received speaker honoraria or research grants from GE Healthcare, Heartflow, Bracco, and Boehringer. Dr Libby is an unpaid consultant to or involved in clinical trials for Amgen, AstraZeneca, Baim Institute, Beren Therapeutics, Cartesian, Esperion, Therapeutics, Genentech, Kancera, Kowa Pharmaceuticals, Medimmune, Merck, Novo Nordisk, Merck, Novartis, Pfizer, and Sanofi-Regeneron. Dr Libby is a member of scientific advisory boards for Amgen, Corvidia Therapeutics, Caristo, CSL Behring, DalCor Pharmaceuticals, Dewpoint, PlaqueTec, Kancera, Kowa Pharmaceuticals, Olatec Therapeutics, Medimmune, Novartis, TenSixteen Bio, and XBiotech; his laboratory has received research funding in the last 2 years from Novartis; he is on the Board of Directors of and has a financial interest in Xbiotech, a company developing therapeutic human antibodies; his interests were reviewed and are managed by Brigham and Women’s Hospital and Partners HealthCare in accordance with their conflict of interest policies; and he has received funding support from the National Heart, Lung, and Blood Institute (1R01HL134892), the American Heart Association (18CSA34080399), the RRM Charitable Fund, and the Simard Fund. Dr Stone has received speaker honoraria from Pulnovo and Infraredx; is a consultant to Valfix, TherOx, Robocath, HeartFlow, Ablative Solutions, Vectorious, Miracor, Neovasc, Abiomed, Ancora, Elucid Bio, Occlutech, CorFlow, Apollo Therapeutics, Impulse Dynamics, Vascular Dynamics, Shockwave, V-Wave, Cardiomech, Gore, and Amgen; and has equity/options from Ancora, Cagent, Applied Therapeutics, Biostar family of funds, SpectraWave, Orchestra Biomed, Aria, Cardiac Success, Valfix, and Xenter; his daughter is an employee of Medtronic; and his employer, Mount Sinai Hospital, receives research support from Abbott, Bioventrix, Cardiovascular Systems, Phillips, Biosense-Webster, Shockwave, Vascular Dynamics, and V-wave. All other authors have reported that they have no relationships relevant to the contents of this paper to disclose., (Copyright © 2023 American College of Cardiology Foundation. Published by Elsevier Inc. All rights reserved.)