Scatter correction algorithm without extra exposure for dual-energy digital mammography

Abstract: X-ray scatter leads to erroneous calculations of dual-energy digital mammography (DEDM). The existing methods for scatter correction in DEDM are using anti-scatter grids or the pinhole-array interpolation method which is complicated and impractical. In this paper, a scatter correction algorithm for DEDM is developed based on the knowledge that scatter radiation in mammograms varies slowly and most pixels in mammograms are non-microcalcification pixels. The proposed algorithm only uses the information of low-en… Show more

“…We proposed a scatter correction algorithm which was verified by Monte Carlo simulation 29 and a simple breast phantom experiment. 30 This algorithm calculates the scatter components by the LE and HE images themselves exploiting the characteristic that scatter in mammograms is a quantity of low-frequency and the fact that most pixels in mammograms are noncalcification pixels.…”

Algorithmic scatter correction in dual‐energy digital mammography

“…We proposed a scatter correction algorithm which was verified by Monte Carlo simulation 29 and a simple breast phantom experiment. 30 This algorithm calculates the scatter components by the LE and HE images themselves exploiting the characteristic that scatter in mammograms is a quantity of low-frequency and the fact that most pixels in mammograms are noncalcification pixels.…”

Algorithmic scatter correction in dual‐energy digital mammography