Monte Carlo calculation of monoenergetic and polyenergetic DgN coefficients for mean glandular dose estimates in mammography using a homogeneous breast model.

Monte Carlo calculation of monoenergetic and polyenergetic DgN coefficients for mean glandular dose estimates in mammography using a homogeneous breast model. Phys Med Biol. 2019 May 29;: Authors: Sarno A, Tucciariello RM, Mettivier G, di Franco F, Russo P Abstract We computed normalized glandular dose (DgN) coefficients for mean glandular dose estimates in contemporary 2D mammography units, taking into account a realistic homogeneous model for the breast. We developed a Monte Carlo code based on the simulation toolkit GEANT4 ver. 10.00. The breast was modelled as a cylinder with a semi-cylindrical section with a radius of 10 cm, enveloped in a 1.45-mm thick skin layer, as found out in recent reports from the University of California Davis team in the analysis of breast computed tomography clinical scans. The compressed breast thickness was between 3 cm and 8 cm. The DgN coefficients were calculated for monoenergetic X-ray beams between 4.25 keV and 49.25 keV and were fitted with polynomial curves. Polyenergetic DgN coefficients were then computed for spectra obtained for various anode/filter combinations as adopted in routine clinical practice: Mo/Mo 30 μm (2540 kV), Mo/Rh 25 μm (2540 kV), Rh/Rh 25 μm (2540 kV), W/Ag 50 μm (2634 kV), W/Al 500 μm (2638 kV), W/Al 700 μm (2840 kV) and W/Rh 50 μm (2435 kV). Monoenergetic DgN curve fit coefficients and polyenergetic DgNp coefficients were released for research...
Source: Physics in Medicine and Biology - Category: Physics Authors: Tags: Phys Med Biol Source Type: research