恶性与正常乳腺组织:利用高光谱成像系统的光学鉴别

Tumor discovery Pub Date : 2023-03-21 DOI:10.36922/td.258
M. Aref, Ibrahim H. Aboughaleb, Abdallah Abdelkader Hussein, Ayman Mohammed Farag, Sara Abd El-Ghaffar, Yasser H. El-Sharkawy
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引用次数: 2

摘要

乳腺恶性肿瘤是严重影响全球妇女健康的一个严重问题,发病率高,需要快速、有效和早期的诊断方法。本研究旨在通过捕获恶性和正常乳腺组织的光谱特征来测量乳腺组织的光学特性,以用于治疗和诊断。该光学成像系统采用高光谱(HS)相机,可在400 ~ 1000 nm范围内捕获乳腺恶性组织和正常组织的光谱特征。该系统被细分为两个探索性(反射/透射),分别测量组织的漫反射(Rd)和光透射(Tr)。本研究涉及30例年龄在46 ~ 72岁的女性乳腺组织(正常/肿瘤)样本,在可见光和近红外光谱(VIS-NIR)下进行光学检查。然后,利用逆加倍法(IAD)对乳腺组织进行表征和描述性分析(t检验),验证不同类型乳腺组织之间的显著性差异,选择最佳波长。最后,将研究结果与组织病理学检查进行比较,通过计算(敏感性、特异性和准确性)来评估系统的有效性。平均结果表明,在可见光光谱和近红外光谱上,区分正常组织和肿瘤组织的最佳光谱波段分别为600 ~ 680 nm和750 ~ 960 nm。在可见光波段560 ~ 590 nm和近红外波段760 ~ 810 nm为最佳透射光谱。随后,t检验和IAD验证了分辨的最高Rd值分别为600 ~ 640 nm和800 ~ 840 nm的可见光和近红外光谱。另一方面,可见光和近红外光谱的最高Tr值分别为600 ~ 640 nm和760 ~ 800 nm。该调查的平均读取准确率、灵敏度和特异性分别为85%、81.88%和88.8%。实验表明,该系统可以通过乳房组织光学特性的光相互作用行为来识别治疗和诊断应用的最佳波长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Malignant versus normal breast tissue: Optical differentiation exploiting hyperspectral imaging system
Breast malignancy is a critical problem that severely affects women’s health globally with a high-frequency rate, necessitating fast, effective, and early diagnostic methods. The present study aims to measure the breast tissue’s optical properties by capturing the spectral signatures from malignant and normal breast tissue for therapeutic and diagnostic applications. The optical imaging system incorporates a hyperspectral (HS) camera to capture the spectral signatures for both the malignant and normal breast tissues within 400 ~ 1000 nm. The system was subdivided into two exploratory (reflection/transmission) to measure the tissue’s diffuse reflectance (Rd) and light transmission (Tr), respectively. The study involved 30 breast tissue (normal/tumor) samples from 30 females in the age range of 46 ~ 72 years, who were optically inspected in the visible and near-infrared (VIS-NIR) spectra. Then, the inverse adding doubling (IAD) method for breast tissue characterization and descriptive analysis (T-test) was exploited to verify the significant difference between the various types of breast tissues and select the optimum wavelength. Finally, comparing the study outcome with the histopathological examination to evaluate the system’s effectiveness by calculation (sensitivity, specificity, and accuracy). The average outcome values demonstrated that the optimal spectral bands distinguishing between the normal and the tumor tissues regarding the reflectance approach were 600 ~ 680 nm and 750 ~ 960 nm at the VIS and NIR spectrum, respectively. Then, for the transmission technique, the optimal spectral bands were 560 ~ 590 nm and 760 ~ 810 nm at the VIS and NIR spectra, respectively. Later, the T-test and the IAD verified that the highest Rd values for discrimination were 600 ~ 640 nm and 800 ~ 840 nm at the VIS and NIR spectra, respectively. On the other side, the highest Tr values were 600 ~ 640 nm and 760 ~ 800 nm at the VIS and NIR spectra, respectively. The investigation’s average reading accuracy, sensitivity, and specificity were 85%, 81.88%, and 88.8%, respectively. The experimental trials revealed that the system could identify the optimal wavelength for therapeutic and diagnostic applications through the light interaction behavior of the breast tissue’s optical properties.
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