基于冠状动脉CT造影的生物机械应力在斑块评估及不良心血管事件预测中的应用
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国家重点研发计划项目(2021YFA1000204)


Application of Biomechanical Stress from Coronary Computed Tomography Angiography in Coronary Plaque Assessment and Prediction of Adverse Cardiovascular Events
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    摘要:

    冠状动脉长期暴露于危险因素会引起粥样硬化,进而导致斑块形成与进展。通过早期识别高危斑块特征将有助于预防斑块破裂或糜烂,从而避免急性心血管事件的发生。而生物机械应力(biomechanical stress)在动脉粥样硬化斑块进展及破裂中发挥重要的作用。近些年,已经可以通过无创冠脉CT 血管造影(coronary computed tomography angiography, CCTA)利用计算流体力学(computational fluid dynamic, CFD)进行建模,从而得到相应的生物机械应力参数,尤其是壁面剪切应力(wall shear stress, WSS)将有助于更好地构建临床模型从而预测斑块进展及主要不良心血管事件(major adverse cardiac events, MACE)。本文重点介绍生物机械应力以及CCTA所计算得出的WSS在动脉粥样硬化中的作用,并讨论有关CCTA生物机械应力与冠心病相关的研究。

    Abstract:

    Long-term exposure to risk factors will lead to coronary atherosclerosis, which will lead to the formation and progression of coronary plaque. Early identification of high-risk plaque characteristics will help prevent plaque rupture or erosion, thus avoiding the occurrence of acute cardiovascular events. Biomechanical stress plays an important role in progression and rupture of atherosclerotic plaques. In recent years, non-invasive coronary computed tomography angiography (CCTA) computational fluid dynamics (CFD) modeling has made it possible to acquire the corresponding biomechanical stress parameters. These coronary biomechanical stress parameters, especially wall shear stress (WSS), will aid in the development of a more accurate clinical model for predicting plaque progression and major adverse cardiovascular events ( MACE ). In this review, the biomechanical stress and the role of WSS from CCTA in atherosclerosis were introduced, and the researches on the relationship between biomechanical stress from CCTA and coronary artery diseases were discussed.

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谢昊泰,张岩,龚艳君.基于冠状动脉CT造影的生物机械应力在斑块评估及不良心血管事件预测中的应用[J].医用生物力学,2023,38(3):627-634

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  • 收稿日期:2022-11-15
  • 最后修改日期:2022-12-03
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  • 在线发布日期: 2023-06-27
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