Publication Type:Journal Article
Source:Am J Epidemiol, Volume 188, Number 6, p.1144-1154 (2019)
ISBN:1476-6256 (Electronic)<br/>0002-9262 (Linking)
Keywords:*breast cancer, *mammographic density, *mammography, *Reproductive History, *risk factors, Adult, Aged, Breast Density/*physiology, Breast Neoplasms/diagnostic imaging/*epidemiology, European Continental Ancestry Group, Female, Humans, Mammography/*methods, Menarche/physiology, Menopause/physiology, Middle Aged, Parity
Breast density is a modifiable factor that is strongly associated with breast cancer risk. We sought to understand the influence of newer technologies of full-field digital mammography (FFDM) on breast density research and to determine whether results are comparable across studies using FFDM and previous studies using traditional film-screen mammography. We studied 24,840 screening-age (40-74 years) non-Hispanic white women who were participants in the Research Program on Genes, Environment and Health of Kaiser Permanente Northern California and underwent screening mammography with either Hologic (Hologic, Inc., Marlborough, Massachusetts) or General Electric (General Electric Company, Boston, Massachusetts) FFDM machines between 2003 and 2013. We estimated the associations of parity, age at first birth, age at menarche, and menopausal status with percent density and dense area as measured by a single radiological technologist using Cumulus software (Canto Software, Inc., San Francisco, California). We found that associations between reproductive factors and mammographic density measured using processed FFDM images were generally similar in magnitude and direction to those from prior studies using film mammography. Estimated associations for both types of FFDM machines were in the same direction. There was some evidence of heterogeneity in the magnitude of the effect sizes by machine type, which we accounted for using random-effects meta-analysis when combining results. Our findings demonstrate the robustness of quantitative mammographic density measurements across FFDM and film mammography platforms.