R. Shahbaz, C. Hannachi, F. Deshours, G. Alquié, H. Kokabi, I. Brocheriou, G. Lenaour, F. Koskas, J. Davaine
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引用次数: 0
Abstract
This paper presents a Complementary Split-Ring Resonator (CSRR) model for the non-destructive characterisation of carotid plaques. The proposed sensor model is corroborated through histopathological examination of the carotid plaques of three different patients, in addition to their ex-vivo S-parameter measurements and system co-simulation using Advanced Design System (ADS) software. The performance of the implemented model is then investigated to identify the conversion loss level of each studied carotid-plaque sample. The results demonstrate that a stable plaque with mainly fibrotic and calcified tissue has a higher conversion loss level. In contrast, a lower level of conversion loss characterises a plaque that has mostly necrotic tissue.
本文提出了一种用于颈动脉斑块非破坏性表征的互补裂环谐振器(CSRR)模型。通过对三名不同患者的颈动脉斑块进行组织病理学检查,以及他们的离体s参数测量和使用Advanced Design system (ADS)软件进行系统联合模拟,证实了所提出的传感器模型。然后研究实现模型的性能,以确定每个研究的颈动脉斑块样本的转换损失水平。结果表明,以纤维化和钙化组织为主的稳定斑块具有较高的转化损失水平。相反,低水平的转化损失表明斑块主要是坏死组织。
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