Abstract
In this study, we evaluated the improvement of image quality in digital breast tomosynthesis under low-radiation dose conditions of pre-reconstruction processing using conditional generative adversarial networks [cGAN (pix2pix)]. Pix2pix pre-reconstruction processing with filtered back projection (FBP) was compared with and without multiscale bilateral filtering (MSBF) during pre-reconstruction processing. Noise reduction and preserve contrast rates were compared using full width at half-maximum (FWHM), contrast-to-noise ratio (CNR), peak signal-to-noise ratio (PSNR), and structural similarity (SSIM) in the in-focus plane using a BR3D phantom at various radiation doses [reference-dose (automatic exposure control reference dose: AECrd), 50% and 75% reduction of AECrd] and phantom thicknesses (40 mm, 50 mm, and 60 mm). The overall performance of pix2pix pre-reconstruction processing was effective in terms of FWHM, PSNR, and SSIM. At ~50% radiation-dose reduction, FWHM yielded good results independently of the microcalcification size used in the BR3D phantom, and good noise reduction and preserved contrast. PSNR results showed that pix2pix pre-reconstruction processing represented the minimum in the error with reference FBP images at an approximately 50% reduction in radiation-dose. SSIM analysis indicated that pix2pix pre-reconstruction processing yielded superior similarity when compared with and without MSBF pre-reconstruction processing at ~50% radiation-dose reduction, with features most similar to the reference FBP images. Thus, pix2pix pre-reconstruction processing is promising for reducing noise with preserve contrast and radiation-dose reduction in clinical practice.
Highlights
Digital tomosynthesis provides limited three-dimensional (3D) structural information about body structures by combining the advantages of digital imaging [1,2] and computed tomography
We report our experience using the application of pix2pix pre-reconstruction processing (FBP reconstruction after preprocessing pix2pix) to improve image quality with dose reduction and amend processing
After measuring the mean square error (MSE) and structural similarity (SSIM) of each training network at different phantom thicknesses (40, 50, and 60 mm) and radiation doses, the optimal epoch was selected at the lowest MSE and highest SSIM
Summary
Digital tomosynthesis provides limited three-dimensional (3D) structural information about body structures by combining the advantages of digital imaging [1,2] and computed tomography. Digital breast tomosynthesis (DBT) reconstructs an entire image volume from a sequence of projection-view mammograms acquired within a small number of projection angles over a limited angular range to yield limited 3D structural information. Effects from the superposition of tissues are reduced with DBT, but in many situations, such as in dense breasts, such effects can persist. DBT decreases the camouflaging effects of the overlapping fibroglandular breast tissues, improves the conspicuity of subtle lesions, and could be used to improve the early detection of breast cancer [1,3,4].
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
