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首页> 外文会议>ASME summer bioengineering conference;SBC2012 >A FRAMEWORK TO ASSESS HUMAN CORONARY PLAQUE VULNERABILITY USING INTRAVASCULAR ULTRASOUND, ON-SITE PRESSURE, ANGIOGRAPHY, AND ANISOTROPIC FSI MODELS
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A FRAMEWORK TO ASSESS HUMAN CORONARY PLAQUE VULNERABILITY USING INTRAVASCULAR ULTRASOUND, ON-SITE PRESSURE, ANGIOGRAPHY, AND ANISOTROPIC FSI MODELS

机译:利用血管内超声,现场压力,血管造影和各向异性FSI模型评估人冠状动脉斑块易损性的框架

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摘要

Atherosclerotic plaque rupture is believed to be associated with critical flow and stress/strain conditions. Image-based computational models have been developed to identify critical flow and stress/strain conditions in the plaque [1-3]. In vivo image-based coronary plaque modeling papers are relatively rare because clinical recognition of vulnerable coronary plaques has remained challenging [4]. In this paper, a framework adopting intravascular ultrasound (IVUS) imaging with on-site pressure and flow measurements, biaxial mechanical testing and computational modeling is proposed to construct 3D coronary plaque for more accurate stress/strain predictions.
机译:动脉粥样硬化斑块破裂被认为与临界血流和应力/应变状况有关。已经开发了基于图像的计算模型来识别斑块中的临界流动和应力/应变条件[1-3]。基于体内图像的冠状动脉斑块建模论文相对较少,因为对脆弱的冠状动脉斑块的临床识别仍然具有挑战性[4]。在本文中,提出了采用血管内超声(IVUS)成像并进行现场压力和流量测量,双轴力学测试和计算模型的框架,以构建3D冠状动脉斑块,以更准确地预测应力/应变。

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