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Journal of Electronic Imaging

Breast tomosynthesis imaging configuration optimization based on computer simulation
Author(s): Shiyu Xu; Linlin Cong; Jianping Lu; Otto Zhou; Yueh Z. Lee; Ying Chen
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Paper Abstract

Digital tomosynthesis is an innovative imaging technology for early breast cancer detection by providing three-dimensional anatomical information with fast image acquisition and low-dose radiation. Most of current breast tomosynthesis systems utilize a design where a single x-ray tube moves along an arc above objects over a certain angular range. The mechanical movement and patient motion during the scan may degrade image quality. With a carbon nanotube–based multibeam x-ray source, a new breast tomosynthesis modality is innovated, which will potentially produce better image quality with stationary beam sources and faster scan and it enables a variety of beam distributions. In this study, several beam distributions, such as beam sources spanning along a one-dimensional (1-D) parallel configuration and sources over a two-dimensional (2-D) rectangle shape are investigated based on computer simulations. Preliminary results show that 2-D rectangle shapes outperform 1-D parallel shapes by providing better Z-resolution, enhanced image contrast, reduced out-of-plane blur and artifacts and lower reconstruction noise. These benefits may expand tomosynthesis applications to diagnostic and interventional procedures.

Paper Details

Date Published: 6 February 2014
PDF: 14 pages
J. Electron. Imaging. 23(1) 013017 doi: 10.1117/1.JEI.23.1.013017
Published in: Journal of Electronic Imaging Volume 23, Issue 1
Show Author Affiliations
Shiyu Xu, Southern Illinois Univ. Carbondale (United States)
Linlin Cong, Southern Illinois Univ. Carbondale (United States)
Jianping Lu, The Univ. of North Carolina at Chapel Hill (United States)
Otto Zhou, The Univ. of North Carolina at Chapel Hill (United States)
Yueh Z. Lee, The Univ. of North Carolina School of Medicine (United States)
Ying Chen, Southern Illinois Univ. Carbondale (United States)


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