Journal
MEDICAL PHYSICS
Volume 48, Issue 3, Pages 1026-1038Publisher
WILEY
DOI: 10.1002/mp.14568
Keywords
digital breast tomosynthesis; iodine; mass; microcalcification; synthetic mammography
Funding
- Critical Path grant from the Center for Devices and Radiological Health
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This study evaluated five commercial DBT systems using an inkjet-printed anthropomorphic phantom and a four alternative forced choice (4AFC) study scheme. The results showed that DBT had the highest overall detection for masses and microcalcifications, with significant differences between DBT and synthetic mammography in most systems. The study also found a relationship between increasing detection performance and greater gantry span.
Purpose Digital breast tomosynthesis (DBT) is a limited-angle tomographic breast imaging modality that can be used for breast cancer screening in conjunction with full-field digital mammography (FFDM) or synthetic mammography (SM). Currently, there are five commercial DBT systems that have been approved by the U.S. FDA for breast cancer screening, all varying greatly in design and imaging protocol. Because the systems are different in technical specifications, there is a need for a quantitative approach for assessing them. In this study, the DBT systems are assessed using a novel methodology with an inkjet-printed anthropomorphic phantom and four alternative forced choice (4AFC) study scheme. Method A breast phantom was fabricated using inkjet printing and parchment paper. The phantom contained 5-mm spiculated masses fabricated with potassium iodide (KI)-doped ink and microcalcifications (MCs) made with calcium hydroxyapatite. Images of the phantom were acquired on all five systems with DBT, FFDM, and SM modalities where available using beam settings under automatic exposure control. A 4AFC study was conducted to assess reader performance with each signal under each modality. Statistical analysis was performed on the data to determine proportion correct (PC), standard deviations, and levels of significance. Results For masses, overall detection was highest with DBT. The difference in PC was statistically significant between DBT and SM for most systems. A relationship was observed between increasing PC and greater gantry span. For MCs, performance was highest with DBT and FFDM compared to SM. The difference between PC of DBT and PC of SM was statistically significant for all manufacturers. Conclusions This methodology represents a novel approach for evaluating systems. This study is the first of its kind to use an inkjet-printed anthropomorphic phantom with realistic signals to assess performance of clinical DBT imaging systems.
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