切除乳腺组织切片的x射线衍射CT: Elettra的第一次结果

2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515) Pub Date : 2003-12-01 DOI:10.1109/NSSMIC.2003.1352363

J. Griffiths, R. Speller, G. Royle, A. Horrocks, A. Olivo, S. Pani, R. Longo, D. Dreossi, S. Spencer, M. Robbins, D.P. Clifford, A. Hanby

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引用次数: 8

摘要

乳腺组织的散射特性已被建议作为乳腺癌早期检测的诊断工具。为了帮助开发基于这些特性的临床成像系统，在意大利Elettra使用symep光束线对一系列乳腺组织样本进行了衍射微ct。使用18 keV光子，使用专门设计的微CT系统收集透射和衍射CT数据集。该系统是基于一个精细准直，x射线敏感的L3Vision CCD相机和一个简单的旋转平台，使用Lab View软件控制。使用IDL中开发的例程重建图像。本文给出了三个样品的透射和衍射CT图像。样本是切除的乳腺组织切片，已知含有肿瘤，肿瘤附近的正常组织或两者的混合物。结果表明，衍射微ct可用于乳腺组织肿瘤的结构评价。透射和衍射CT图像的配准表明，两种技术在样品中显示出相同的原理特征，并允许识别主要成分。然而，衍射图像显示了平均增加的图像对比度比透射图像。如果要看到详细的结构，则需要进一步改进实验中使用的准直器设计。

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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X-ray diffraction CT of excised breast tissue sections: first results from Elettra

The scattering properties of breast tissue have been suggested as a diagnostic tool in the early detection of breast cancer. To aid in the development of a clinical imaging system based upon these properties, a series of breast tissue samples have been subjected to diffraction microCT using the SYRMEP beamline at Elettra, Italy. Using 18 keV photons, both transmission and diffraction CT data sets were collected using a specially designed microCT system. This system was based around a finely collimated, X-ray sensitive L3Vision CCD camera and a simple rotary stage controlled using Lab View software. The images were reconstructed using routines developed in IDL. This paper presents both transmission and diffraction CT images of three samples. The samples were excised breast tissue sections known to contain either tumour, normal tissue adjacent to the tumour or a mixture of each. The results demonstrate that diffraction microCT can be used to evaluate the structure of breast tissue tumours. Registration of the transmission and diffraction CT images demonstrated that both techniques showed the same principle features in the sample and allowed the main components to be identified. However, the diffraction images demonstrated an average increase in image contrast over the transmission images. Further improvements in the collimator design used in the experiments will need to be made if detailed structure is to be seen.

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来源期刊

2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515)

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