医学
光学相干层析成像
罪魁祸首
纤维帽
血流动力学
亚临床感染
易损斑块
心脏病学
内科学
冠状动脉疾病
急性冠脉综合征
放射科
心肌梗塞
作者
Tom Adriaenssens,Marc Allard‐Ratick,Vikas Thondapu,Tomoyo Sugiyama,O. Raffel,Peter Barlis,Eric Poon,Makoto Araki,Akihiro Nakajima,Yoshiyasu Minami,Masamichi Takano,Osamu Kurihara,Valentı́n Fuster,Tsunekazu Kakuta,Ik–Kyung Jang
标识
DOI:10.1016/j.jacc.2021.07.032
摘要
The development of optical coherence tomography (OCT) has revolutionized our understanding of coronary artery disease. In vivo OCT research has paralleled with advances in computational fluid dynamics, providing additional insights in the various hemodynamic factors influencing plaque growth and stability. Recent OCT studies introduced a new concept of plaque healing in relation to clinical presentation. In addition to known mechanisms of acute coronary syndromes such as plaque rupture and plaque erosion, a new classification of calcified plaque was recently reported. This review will focus on important new insights that OCT has provided in recent years into coronary plaque development, progression, and destabilization, with a focus on the role of local hemodynamics and endothelial shear stress, the layered plaque (signature of previous subclinical plaque destabilization and healing), and the calcified culprit plaque.
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