Purpose To compare the performance of volumetric radiomic parenchymal pattern analysis from three-dimensional (3D) digital breast tomosynthesis (DBT) images with that of two-dimensional (2D) digital mammography (DM) and 2D sections from DBT in assessing breast cancer risk relative to breast density measurements. Materials and Methods This was a retrospective matched case-control study among individuals who underwent concurrent DM and DBT screening from March 2011 through December 2014. The Cancer Phenomics Toolkit was used to calculate radiomic features from craniocaudal and mediolateral oblique views in all study patients, matched on race and age, for various experimental settings, including image resolution and window size. For each image type, conditional logistic regression evaluated the association of radiomic features, along with age, body mass index (BMI), and area percent density (PD) (from the Laboratory for Individualized Breast Radiodensity Assessment software), with breast cancer, using the C statistic as the measure of model predictive ability. Model fit was compared via likelihood ratio tests. Results The study included 924 female patients (median age, 61 years [IQR: 51-69 years]), with 187 cases and 737 controls. Volumetric features from 3D reconstructed DBT scans had, on average, higher C statistics across all experimental conditions. Among models using only radiomic features, C statistics were highest for models using features from 3D images (mean C statistic: 0.68, P < .001); models using features from 2D image types resulted in lower mean C statistics (0.60 to 0.65). A baseline model using age, BMI, and area PD had a C statistic of 0.60. The effect of higher image resolution and smaller window size were not substantial, supporting the use of less computationally intensive processing. Conclusion Fully automated 3D parenchymal analysis from DBT improved breast cancer risk estimation beyond markers derived from area breast density and 2D images. Keywords: Mammography, Tomosynthesis, Breast, Volume Analysis Supplemental material is available for this article. © RSNA, 2025.
Keywords: Breast; Mammography; Tomosynthesis; Volume Analysis.