Title :
Experimental study of Compton scattering reduction in digital mammographic imaging
Author :
Amendolia, S.R. ; Bisogni, M.G. ; Delogu, P. ; Fantacci, M.E. ; Novelli, M. ; Oliva, P. ; Quattrocchi, M. ; Rosso, V. ; Stefanini, A. ; Zucca, Sergio
Author_Institution :
Ist. di Matematica a Fisica, Univ. of Sassari, Pisa, Italy
fDate :
10/1/2002 12:00:00 AM
Abstract :
In mammography, the first cause of image contrast reduction arises from the photons scattered inside the examined organ. The amount of Compton scattering strongly depends on the irradiation area and on the distance between the organ and the X-ray detector. We have experimentally evaluated how these geometrical conditions affect the scattering fraction. Our experimental setup includes a single photon counting device based on a silicon pixel detector as X-ray sensor; a lucite cylinder to simulate the breast tissue, and a lead collimator to define the irradiation area. We have evaluated the contrast and the signal-to-noise ratio for images acquired in different conditions.
Keywords :
Compton effect; X-ray detection; biomedical electronics; diagnostic radiography; mammography; medical image processing; readout electronics; silicon radiation detectors; single photon emission computed tomography; Compton scattering reduction; Si; X-ray detector; breast tissue; counting chip; digital mammographic imaging; geometrical conditions; image contrast reduction; irradiation area; lead collimator; lucite cylinder; organ; photon scattering; scattering fraction; signal-to-noise ratio; silicon pixel detector; single photon counting device; Electromagnetic scattering; Mammography; Optical imaging; Optoelectronic and photonic sensors; Particle scattering; Silicon; X-ray detection; X-ray detectors; X-ray imaging; X-ray scattering;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2002.803816
