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Proceedings Paper

Error In Adipose/Glandular Tissue Cancellation In Dual-Energy Mammography Due To Non-Isotropic Spectra From Tungsten Anodes
Author(s): Leon Piotrowski
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Paper Abstract

Computer simulation of double-exposure, dual-energy mammography is used to quantify (1) the accuracy of adipose/glandular tissue cancellation, and (2) microcalcification SNR across the tissue-cancelled mammogramme, under conditions of non-isotropic photon emission from tungsten anodes. The results show that a non-isotropic property in the dual-energy spectra, combined with aluminium/lucite calibration at the central-axis of x-ray emisssion, introduces tissue-cancellation errors of 2-3% into a mammogramme that covers a 16 degree emission angle. These errors are sufficient to mask or obscure the presence of small calcifications. The tissue-cancelled image also contains variations in SNR (of a 200 micron calcification) ranging from 0% to 15% for thick breasts and from 0% to 25% for thin breasts. These values depend on the spatial location of the calcification within the breast. The results are relevant to the design/choice of tungsten-anode x-ray tubes for dual-energy mammography and also stress the importance of breast positioning.

Paper Details

Date Published: 27 June 1988
PDF: 8 pages
Proc. SPIE 0914, Medical Imaging II, (27 June 1988); doi: 10.1117/12.968629
Show Author Affiliations
Leon Piotrowski, CGR (France)


Published in SPIE Proceedings Vol. 0914:
Medical Imaging II
Samuel J. Dwyer; Roger H. Schneider; Roger H. Schneider; Samuel J. Dwyer; Samuel J. Dwyer; Roger H. Schneider, Editor(s)

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