The performance of full-field digital mammography (FFDM) compared with film-screen mammography for microcalcifications was something of a mixed bag in a new study. FFDM had better detection of high-grade ductal carcinoma in situ (DCIS) but also a higher recall rate, according to research published on January 28 in Radiology.
The new study looked at two decades of mammography screening results from hundreds of thousands of women in the Netherlands who participated in the country's breast screening program, which switched from film to full-field digital mammography between 2009 and 2010. The findings demonstrate that newer imaging technologies can have a big impact on early breast cancer detection.
"More than half of DCIS related to suspicious microcalcifications in our study showed high-grade histopathologic characteristics," wrote the authors, led by Dr. Jacky Luiten from the Elisabeth-Tweesteden Hospital in the Netherlands. "As the detection and subsequent treatment of high-grade DCIS may reduce further development of high-grade invasive carcinoma, histologic analysis of screening-detected microcalcifications carries substantial clinical value."
The researchers used data from more than 810,000 women who participated in the Dutch biennial mammography screening program between 1997 and 2017. The number of women with breast screening increased from 48,721 in the first studied year to 131,757 in the last.
The switch to full-field digital mammography between 2009 and 2010 resulted in the detection of more high-risk DCIS lesions and more cancer diagnoses. Detection of DCIS increased from 0.9 identified cancers per 1,000 screening examinations in the 2D film era to 1.7 identified cancers in the digital era. The rise in DCIS detection was significant in multiple statistical analyses.
But recalls for suspicious microcalcifications rose substantially after the switch to full-field digital mammography. Clinicians recalled 51 women for suspicious microcalcifications in the first studied screening year but 680 women in the last one.
Analog vs. digital mammography in the Netherlands breast screening program | ||
Film-screen mammography | FFDM | |
Detection of DCIS per 1,000 exams | 0.9 lesions | 1.7 lesions |
Recall rate | 0.1% | 0.5% |
DCIS recalls per 1,000 exams | 0.3 recalls | 1.1 recalls |
Positive predictive value for recall of microcalcifications | 51% | 33% |
The researchers hypothesized the rise in recall rates and identification of DCIS could signal that full-field digital mammography is better than film for finding suspicious microcalcifications. However, it could also result in more women getting tested and treated for low-risk lesions.
"Characterizing radiologic features of suspicious microcalcifications to search for patterns that correlate with more aggressive underlying disease might be a desirable next step toward a more selective use of [stereotactic core needle biopsy] in case of screening-detected calcifications," the authors wrote. "Because it is not yet clear to what extent histologic features of DCIS can be estimated by the patterns of microcalcifications alone, [biopsy] is still considered mandatory in the workup of these lesions to date."