Angiography-derived radial wall strain as a predictor of myocardial ischemia, high-risk plaque, and outcomes

Abstract Background Angiography-derived radial wall strain (RWS) is a novel method to assess the biomechanical characteristics of the underlying plaque. There is limited data regarding how the biomechanical attributes of atherosclerotic lesions relate to their physiologic and morphological attributes. Purpose This study aimed to investigate the association of RWS with myocardial ischemia and high-risk plaque, and their prognostic implication. Methods From the international CCTA-FFR registry, 484 deferred vessels underwent RWS analysis. Angiography-derived RWS was defined as relative changes of lumen diameter within the cardiac cycle, expressed as a percentage of the largest lumen diameter. Plaque characteristics were assessed in a coronary CT angiography core laboratory and high-risk plaque was defined as 3 or more high-risk plaque characteristics (HRPC) including minimum lumen area