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Computed Tomography Assessment of Coronary Atherosclerosis

Ákos Varga‐Szemes, Pál Maurovich‐Horvat, U. Joseph Schoepf, Emese Zsarnóczay, Robert Pelberg, Gregg W. Stone, Matthew J. Budoff

2023Journal of Thoracic Imaging17 citationsDOIOpen Access PDF

Abstract

Arterial plaque rupture and thrombosis is the primary cause of major cardiovascular and neurovascular events. The identification of atherosclerosis, especially high-risk plaques, is therefore crucial to identify high-risk patients and to implement preventive therapies. Computed tomography angiography has the ability to visualize and characterize vascular plaques. The standard methods for plaque evaluation rely on the assessment of plaque burden, stenosis severity, the presence of positive remodeling, napkin ring sign, and spotty calcification, as well as Hounsfield Unit (HU)-based thresholding for plaque quantification; the latter with multiple shortcomings. Semiautomated threshold-based segmentation techniques with predefined HU ranges identify and quantify limited plaque characteristics, such as low attenuation, non-calcified, and calcified plaque components. Contrary to HU-based thresholds, histologically validated plaque characterization, and quantification, an emerging Artificial intelligence-based approach has the ability to differentiate specific tissue types based on a biological correlate, such as lipid-rich necrotic core and intraplaque hemorrhage that determine plaque vulnerability. In this article, we review the relevance of plaque characterization and quantification and discuss the benefits and limitations of the currently available plaque assessment and classification techniques.

Topics & Concepts

MedicineHounsfield scaleRadiologyVulnerable plaqueCalcificationFibrous capComputed tomography angiographyAngiographyComputed tomographyPathologyCardiac Imaging and DiagnosticsCoronary Interventions and DiagnosticsCerebrovascular and Carotid Artery Diseases
Computed Tomography Assessment of Coronary Atherosclerosis | Litcius