1. Power Spectrum Analysis of Breast Parenchyma with Digital Breast Tomosynthesis Images in a Longitudinal Screening Cohort from Two Vendors
- Author
-
Xinhua Li, Constance D. Lehman, Kai Yang, Brian N. Dontchos, Craig K. Abbey, Shinn-Huey Shirley Chou, and Bob Liu
- Subjects
Male ,medicine.diagnostic_test ,business.industry ,Breast imaging ,Spectrum Analysis ,Breast Neoplasms ,Retrospective cohort study ,Digital Breast Tomosynthesis ,Cancer detection ,Breast parenchyma ,Article ,Breast cancer screening ,Cohort ,Humans ,Mass Screening ,Medicine ,Female ,Radiology, Nuclear Medicine and imaging ,Breast ,Breast density ,business ,Nuclear medicine ,Mammography ,Retrospective Studies - Abstract
Rationale and Objectives To quantitatively compare breast parenchymal texture between two Digital Breast Tomosynthesis (DBT) vendors using images from the same patients. Materials and Methods This retrospective study included consecutive patients who had normal screening DBT exams performed in January 2018 from GE and normal screening DBT exams in adjacent years from Hologic. Power spectrum analysis was performed within the breast tissue region. The slope of a linear function between log-frequency and log-power, β, was derived as a quantitative measure of breast texture and compared within and across vendors along with secondary parameters (laterality, view, year, image format, and breast density) with correlation tests and t-tests. Results A total of 24,339 DBT slices or synthetic 2D images from 85 exams in 25 women were analyzed. Strong power-law behavior was verified from all images. Values of β d did not differ significantly for laterality, view, or year. Significant differences of β were observed across vendors for DBT images (Hologic: 3.4±0.2 vs GE: 3.1±0.2, 95% CI on difference: 0.27 to 0.30) and synthetic 2D images (Hologic: 2.7±0.3 vs GE: 3.0±0.2, 95% CI on difference: -0.36 to -0.27), and density groups with each vendor: scattered (GE: 3.0±0.3, Hologic: 3.3±0.3) vs. heterogeneous (GE: 3.2±0.2, Hologic: 3.4±0.1), 95% CI (-0.27, -0.08) and (-0.21, -0.05), respectively. Conclusion There are quantitative differences in the presentation of breast imaging texture between DBT vendors and across breast density categories. Our findings have relevance and importance for development and optimization of AI algorithms related to breast density assessment and cancer detection.
- Published
- 2022