A Tuned Microwave Resonant Sensor for Skin Cancerous Tumor Diagnosis

IF 3 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Sen Bing;Khengdauliu Chawang;J.-C. Chiao
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Abstract

In this work, a planar microwave sensor based on a flexible polyimide substrate has been developed to distinguish if a skin lesion is malignant or benign. The sensor is a tuned loop resonator operating in the industrial, scientific, and medical (ISM) band at 2.465 GHz, providing a localized high-intensity electric field that penetrates into tissues with sufficient spatial and spectral resolutions. The loop resonator with a radius of 5.4 mm was tuned by a concentric metal pad to the desired resonant frequency with a sufficiently high quality factor of 98.7 and a reflection coefficient of $-$ 63.98 dB. The sensor is based on the detection of electromagnetic resonance change and sequential frequency shift that is susceptible to the dielectric property difference between cancerous and benign tissues. Basal Cell Carcinoma (BCC) and Seborrheic Keratosis (SK), the most commonly found malignant and benign skin lesions with close visual similarities, were selected to demonstrate the sensing concept. Tissue-mimicking materials were fabricated to have similar dielectric properties to those of healthy skin, SK, and BCC tissues in the literature. Simulations and measurements were conducted. Significant frequency shifts of 759 MHz and 415 MHz were observed between BCC and SK phantoms in simulations and measurements, respectively, when the size of the tumor phantom was a cuboid of 12 mm × 12 mm × 4 mm underneath and among healthy skin. Simulations were conducted for different cuboid side lengths from 2 to 16 mm while the thickness remained at 4 mm. Malignant lesions could be distinguished with a cuboid side length as small as 2 mm. Corresponding measurements for cuboid side lengths of 6, 8, 10, and 12 mm were conducted and matched the trend well with the simulation results. The promising results in simulations and measurements validate the sensing principle, showing great potential for skin cancer detection in a noninvasive, efficient, and lower-cost way.
一种用于皮肤癌诊断的调谐微波共振传感器
在这项工作中,基于柔性聚酰亚胺衬底的平面微波传感器已经开发出来,以区分皮肤病变是恶性还是良性。该传感器是一个调谐环路谐振器,工作在2.465 GHz的工业、科学和医疗(ISM)频段,提供局部高强度电场,穿透组织,具有足够的空间和光谱分辨率。环形谐振器的半径为5.4 mm,通过同心金属衬垫调谐到所需的谐振频率,质量因子为98.7,反射系数为$-$63.98 dB。该传感器是基于检测易受癌组织和良性组织介电特性差异影响的电磁共振变化和顺序频移。基底细胞癌(BCC)和脂溢性角化病(SK)是最常见的恶性和良性皮肤病变,具有密切的视觉相似性,被选择来证明感知概念。在文献中,组织模拟材料被制造成具有与健康皮肤、SK和BCC组织相似的介电特性。进行了模拟和测量。在模拟和测量中,当肿瘤幻影在健康皮肤下为12 mm × 12 mm × 4 mm的长方体时,在BCC和SK幻影之间分别观察到759 MHz和415 MHz的显著频移。在厚度保持在4 mm的情况下,对2 ~ 16 mm的不同长方体边长进行了模拟。恶性病变可以通过长至2mm的长方体边长来区分。对长方体边长6、8、10和12 mm进行了相应的测量,结果与仿真结果吻合较好。仿真和测量结果验证了传感原理,显示出以无创、高效和低成本的方式进行皮肤癌检测的巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.80
自引率
9.40%
发文量
58
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