Limited Angle Dual Modality Breast Imaging

We are developing a dual modality breast scanner that can obtain x-ray transmission and gamma ray emission images in succession at multiple viewing angles with the breast held under mild compression. These views are reconstructed and fused to obtain three-dimensional images that combine structural a...

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Bibliographic Details
Published in:IEEE transactions on nuclear science 2007-06, Vol.54 (3), p.504-513
Main Authors: More, M.J., Heng Li, Goodale, P.J., Yibin Zheng, Majewski, S., Popov, V., Welch, B., Williams, M.B.
Format: Article
Language:English
Subjects:
Breast
Compressing
Counting
Digital mammography
Geometry
Image coding
Image reconstruction
Imaging
Imaging phantoms
Lesions
Medical imaging
Optical imaging
Optimization
scintimammography
Spreads
System testing
Tomography
X-ray imaging
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Description
Summary:We are developing a dual modality breast scanner that can obtain x-ray transmission and gamma ray emission images in succession at multiple viewing angles with the breast held under mild compression. These views are reconstructed and fused to obtain three-dimensional images that combine structural and functional information. Here, we describe the dual modality system and present results of phantom experiments designed to test the system's ability to obtain fused volumetric dual modality data sets from a limited number of projections, acquired over a limited (less than 180 degrees) angular range. We also present initial results from phantom experiments conducted to optimize the acquisition geometry for gamma imaging. The optimization parameters include the total number of views and the angular range over which these views should be spread, while keeping the total number of detected counts fixed. We have found that in general, for a fixed number of views centered around the direction perpendicular to the direction of compression, in-plane contrast and SNR are improved as the angular range of the views is decreased. The improvement in contrast and SNR with decreasing angular range is much greater for deeper lesions and for a smaller number of views. However, the z-resolution of the lesion is significantly reduced with decreasing angular range. Finally, we present results from limited angle tomography scans using a system with dual, opposing heads.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2007.897828