Cancer detection in excised breast tumors using terahertz imaging and spectroscopy.

IF 0.3 Q4 SPECTROSCOPY

Biomedical Spectroscopy and Imaging Pub Date : 2019-01-01 Epub Date: 2019-07-09 DOI:10.3233/bsi-190187

Magda El-Shenawee, Nagma Vohra, Tyler Bowman, Keith Bailey

引用次数: 0

Abstract

Terahertz imaging and spectroscopy has demonstrated a potential for differentiating tissue types of excised breast cancer tumors. Pulsed terahertz technology provides a broadband frequency range from 0.1 THz to 4 THz for detecting cancerous tissue. Tumor tissue types of interest include cancer typically manifested as infiltrating ductal or lobular carcinomas, fibro-glandular (healthy connective tissues) and fat. In this work, images of breast tumors excised from human and animal models are reviewed. In addition to alternate fresh tissues, breast cancer tissue phantoms are developed to further evaluate terahertz imaging and the potential use of contrast agents. Terahertz results are successfully validated with pathology images, showing strong differentiation between cancerous and healthy tissues for all freshly excised tissues and types. The advantages, challenges and limitations of THz imaging of breast cancer are discussed.

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利用太赫兹成像和光谱学检测切除乳腺肿瘤中的癌症。

太赫兹成像和光谱学已证明具有区分切除乳腺癌肿瘤组织类型的潜力。脉冲太赫兹技术可提供从 0.1 太赫兹到 4 太赫兹的宽带频率范围，用于检测癌组织。感兴趣的肿瘤组织类型包括通常表现为浸润性导管癌或小叶癌的癌症、纤维腺体（健康结缔组织）和脂肪。本研究对从人体和动物模型中切除的乳腺肿瘤图像进行了回顾。除了备用的新鲜组织外，还开发了乳腺癌组织模型，以进一步评估太赫兹成像和造影剂的潜在用途。太赫兹成像结果成功地与病理图像进行了验证，显示所有新鲜切除组织和类型的癌组织与健康组织之间都有很强的区分度。本文讨论了乳腺癌太赫兹成像的优势、挑战和局限性。

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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Biomedical Spectroscopy and Imaging SPECTROSCOPY-

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期刊介绍： Biomedical Spectroscopy and Imaging (BSI) is a multidisciplinary journal devoted to the timely publication of basic and applied research that uses spectroscopic and imaging techniques in different areas of life science including biology, biochemistry, biotechnology, bionanotechnology, environmental science, food science, pharmaceutical science, physiology and medicine. Scientists are encouraged to submit their work for publication in the form of original articles, brief communications, rapid communications, reviews and mini-reviews. Techniques covered include, but are not limited, to the following: • Vibrational Spectroscopy (Infrared, Raman, Teraherz) • Circular Dichroism Spectroscopy • Magnetic Resonance Spectroscopy (NMR, ESR) • UV-vis Spectroscopy • Mössbauer Spectroscopy • X-ray Spectroscopy (Absorption, Emission, Photoelectron, Fluorescence) • Neutron Spectroscopy • Mass Spectroscopy • Fluorescence Spectroscopy • X-ray and Neutron Scattering • Differential Scanning Calorimetry • Atomic Force Microscopy • Surface Plasmon Resonance • Magnetic Resonance Imaging • X-ray Imaging • Electron Imaging • Neutron Imaging • Raman Imaging • Infrared Imaging • Terahertz Imaging • Fluorescence Imaging • Near-infrared spectroscopy.