Eliana Canicattì, N. Fontana, S. Barmada, A. Monorchio
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引用次数: 4
摘要
在本工作中,我们通过开放式同轴探针研究了圆柱形组织的介电特性。只要生物组织不僵硬,在这个贡献中,我们寻找最小的圆柱体直径和相关的插入深度在我们的探针可以检测到的组织中。通过数值模拟,推导出探测孔径平面的反射系数,并将其作为基于虚拟传输线模型(Virtual Transmission Line Model, VTLM)的介电特性重构算法的输入数据。此外,我们数值分析了介质涂层的存在,介质涂层承载被测组织并包裹同轴探头本身。目的是利用从核心针活检过程中获得的样品形状,从而避免样品操作。相同的介电涂层允许减少探针到组织区域的边缘场效应,从而增强探针介电重建性能。该系统可作为病理前恶性组织识别的决策支持,应用于医学领域。
Dielectric Characterization Improvement of Biopsy Samples Via a Coated Open-Ended Coaxial Probe
In the present work, we investigated the dielectric characterization of cylindrical shaped tissues via an open-ended coaxial probe. So long as biological tissues are not stiff, in this contribution we look for the minimum cylinder diameter and the related insertion depth in the tissue detectable by our probe. From numerical simulations, we derived the reflection coefficient probe aperture plane, and then we used it as input data in our Virtual Transmission Line Model (VTLM) based algorithm for dielectric properties reconstruction. Furthermore, we numerically analyzed the presence of a dielectric coating which hosts the tissue under test and wraps the coaxial probe itself. The aim is exploiting the sample shape derived from a core needle biopsy procedure which allows avoiding sample manipulation. The same dielectric coating allows reducing fringing field effect at the probe-to-tissue region thus enhancing probe dielectric reconstruction properties. The proposed system can be used in medical field as a decisional support in pre-pathological malignant tissue recognition purposes.
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