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Scattered radiation in DBT geometries with flexible breast compression paddles: A Monte Carlo simulation study

Scattered radiation is an undesired signal largely present in most digital breast tomosynthesis (DBT) projection images as no physically rejection methods, i.e. anti-scatter grids, are regularly employed, in contrast to full- field digital mammography. This scatter signal might reduce the visibility of small objects in the image, and potentially affect the detection of small breast lesions. Thus accurate scatter models are needed to minimise the scattered radiation signal via post-processing algorithms. All prior work on scattered radiation estimation has assumed a rigid breast compression paddle (RP) and reported large contribution of scatter signal from RP in the detector. However, in this work, flexible paddles (FPs) tilting from 0° to 10° will be studied using Monte Carlo simulations to analyse if the scatter distribution differs from RP geometries. After reproducing the Hologic Selenia Dimensions geometry (narrow angle) with two (homogeneous and heterogeneous) compressed breast phantoms, results illustrate that the scatter distribution recorded at the detector varies up to 22% between RP and FP geometries (depending on the location), mainly due to the decrease in thickness of the breast observed for FP. However, the relative contribution from the paddle itself (3-12% of the total scatter) remains approximately unchanged for both setups and their magnitude depends on the distance to the breast edge

This work is part of the SCARtool project (H2020-MSCA-IF-2014, reference 657875), a research funded by the European Union within the Marie Sklodowska-Curie Innovative Training Networks. Also, some of the authors have been partially supported from the Ministry of Economy and Competitiveness of Spain, under project reference DPI2015-68442-R, University of Girona under project reference MPCUdG2016/022, and the FPI grant BES-2013-065314

© Flohr, Thomas G.; Lo, Joseph Y.; Schmidt, Taly Gilat (Eds.). (2017). SPIE Medical Imaging 2017: Physics of Medical Imaging: 11-16 February 2017, Orlando, FLA, USA. (SPIE Proceedings: , vol. 10132)

SPIE Proceedings

Manager: Ministerio de Economía y Competitividad (Espanya)
Author: Diaz Montesdeoca, Oliver
García Marcos, Eloy
Oliver i Malagelada, Arnau
Martí Bonmatí, Joan
Martí Marly, Robert
Date: 2017 March 9
Abstract: Scattered radiation is an undesired signal largely present in most digital breast tomosynthesis (DBT) projection images as no physically rejection methods, i.e. anti-scatter grids, are regularly employed, in contrast to full- field digital mammography. This scatter signal might reduce the visibility of small objects in the image, and potentially affect the detection of small breast lesions. Thus accurate scatter models are needed to minimise the scattered radiation signal via post-processing algorithms. All prior work on scattered radiation estimation has assumed a rigid breast compression paddle (RP) and reported large contribution of scatter signal from RP in the detector. However, in this work, flexible paddles (FPs) tilting from 0° to 10° will be studied using Monte Carlo simulations to analyse if the scatter distribution differs from RP geometries. After reproducing the Hologic Selenia Dimensions geometry (narrow angle) with two (homogeneous and heterogeneous) compressed breast phantoms, results illustrate that the scatter distribution recorded at the detector varies up to 22% between RP and FP geometries (depending on the location), mainly due to the decrease in thickness of the breast observed for FP. However, the relative contribution from the paddle itself (3-12% of the total scatter) remains approximately unchanged for both setups and their magnitude depends on the distance to the breast edge
This work is part of the SCARtool project (H2020-MSCA-IF-2014, reference 657875), a research funded by the European Union within the Marie Sklodowska-Curie Innovative Training Networks. Also, some of the authors have been partially supported from the Ministry of Economy and Competitiveness of Spain, under project reference DPI2015-68442-R, University of Girona under project reference MPCUdG2016/022, and the FPI grant BES-2013-065314
Format: application/pdf
Citation: https://doi.org/10.1117/12.2255722
ISSN: 1605-7422
Document access: http://hdl.handle.net/10256/14468
Language: eng
Publisher: SPIE Proceedings
Collection: MINECO/PE 2016-2018/DPI2015-68442-R
Versió postprint del document publicat a: https://doi.org/10.1117/12.2255722
Articles publicats (D-ATC)
info:eu-repo/grantAgreement/EC/H2020/657875
Is part of: © Flohr, Thomas G.; Lo, Joseph Y.; Schmidt, Taly Gilat (Eds.). (2017). SPIE Medical Imaging 2017: Physics of Medical Imaging: 11-16 February 2017, Orlando, FLA, USA. (SPIE Proceedings: , vol. 10132)
Rights: Tots els drets reservats
Subject: Mama – Radiografia
Breast – Radiography
Imatges digitals
Digital images
Imatgeria mèdica
Imaging systems in medicine
Monte Carlo method
Montecarlo, Mètode de
Mama -- Imatgeria
Breast -- Imaging
Title: Scattered radiation in DBT geometries with flexible breast compression paddles: A Monte Carlo simulation study
Type: info:eu-repo/semantics/article
Repository: DUGiDocs

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