Validation of DM-Scan, a computer-assisted tool to assess mammographic density in full-field digital mammograms

Marina Pollán; Rafael Llobet; Josefa Miranda-García; Joaquín Antón; María Casals; Inmaculada Martínez; Carmen Palop; Francisco Ruiz-Perales; Carmen Sánchez-Contador; Carmen Vidal; Beatriz Pérez-Gómez; Dolores Salas-Trejo

doi:10.1186/2193-1801-2-242

Validation of DM-Scan, a computer-assisted tool to assess mammographic density in full-field digital mammograms

Springerplus. 2013 May 24;2(1):242. doi: 10.1186/2193-1801-2-242. Print 2013 Dec.

Authors

Marina Pollán¹, Rafael Llobet, Josefa Miranda-García, Joaquín Antón, María Casals, Inmaculada Martínez, Carmen Palop, Francisco Ruiz-Perales, Carmen Sánchez-Contador, Carmen Vidal, Beatriz Pérez-Gómez, Dolores Salas-Trejo

Affiliation

¹ National Center for Epidemiology, Carlos III Institute of Health, Monforte de Lemos 5, Madrid, 28029 Spain ; Consortium for Biomedical Research in Epidemiology and Public Health (CIBER en Epidemiología y Salud Pública - CIBERESP), Carlos III Institute of Health, Monforte de Lemos 5, Madrid, 28029 Spain ; Centro Nacional de Epidemiología, Instituto de Salud Carlos III, Monforte de Lemos 5, Madrid, 28029 Spain.

Abstract

We developed a semi-automated tool to assess mammographic density (MD), a phenotype risk marker for breast cancer (BC), in full-field digital images and evaluated its performance testing its reproducibility, comparing our MD estimates with those obtained by visual inspection and using Cumulus, verifying their association with factors that influence MD, and studying the association between MD measures and subsequent BC risk. Three radiologists assessed MD using DM-Scan, the new tool, on 655 processed images (craniocaudal view) obtained in two screening centers. Reproducibility was explored computing pair-wise concordance correlation coefficients (CCC). The agreement between DM-Scan estimates and visual assessment (semi-quantitative scale, 6 categories) was quantified computing weighted kappa statistics (quadratic weights). DM-Scan and Cumulus readings were compared using CCC. Variation of DM-Scan measures by age, body mass index (BMI) and other MD modifiers was tested in regression mixed models with mammographic device as a random-effect term. The association between DM-Scan measures and subsequent BC was estimated in a case-control study. All BC cases in screening attendants (2007-2010) at a center with full-field digital mammography were matched by age and screening year with healthy controls (127 pairs). DM-Scan was used to blindly assess MD in available mammograms (112 cases/119 controls). Unconditional logistic models were fitted, including age, menopausal status and BMI as confounders. DM-Scan estimates were very reliable (pairwise CCC: 0.921, 0.928 and 0.916). They showed a reasonable agreement with visual MD assessment (weighted kappa ranging 0.79-0.81). DM-Scan and Cumulus measures were highly concordant (CCC ranging 0.80-0.84), but ours tended to be higher (4%-5% on average). As expected, DM-Scan estimates varied with age, BMI, parity and family history of BC. Finally, DM-Scan measures were significantly associated with BC (p-trend=0.005). Taking MD<7% as reference, OR per categories of MD were: OR7%-17%=1.32 (95% CI=0.59-2.99), OR17%-28%=2.28 (95% CI=1.03-5.04) and OR>=29%=3.10 (95% CI=1.35-7.14). Our results confirm that DM-Scan is a reliable tool to assess MD in full-field digital mammograms.

Keywords: Breast density; Computer-assisted tool; Density assessment; Mammographic density; Reliability.