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Visualizing microcalcifications in lumpectomy specimens: An exploration into the clinical potential of carbon nanotube-enabled stationary digital breast tomosynthesis
- Publication Year :
- 2019
- Publisher :
- Institute of Physics Publishing, 2019.
-
Abstract
- Purpose: To assess the visibility of microcalcifications in images generated by a first-generation carbon-nanotube (CNT)-enabled stationary digital breast tomosynthesis (sDBT) device, using magnified 2D mammography and conventional, moving-source DBT as references for comparison. Methods: Lumpectomy specimens were imaged by magnified mammography and two 3D mammography approaches, including sDBT and moving-source DBT. The planar size of individual microcalcifications was measured in the reconstructed image stacks of sDBT and moving-source DBT and compared to the magnified mammography image. An artifact spread function (ASF) was used to assess the depth dimensions of the microcalcifications displayed through the reconstructed image stacks. Breast-imaging specialists rated their preference for one imaging modality over another when interpreting microcalcifications in the magnified mammography image and synthetic slab images from sDBT and moving-source DBT. Results: The planar size of individual microcalcifications was similar in images generated by sDBT and moving-source DBT when the sDBT projections were binned to match the pixel size used by the moving-source DBT system. However, the unique structure of sDBT allowed for a wider-angle span of projection views and operation of the detector in full-resolution mode without significantly compromising the scan time. In this configuration, the planar sizes of individual microcalcifications displayed by sDBT was more similar to magnified mammography than moving-source DBT, and the microcalcifications had a narrower ASF through depth. Readers preferred sDBT over moving-source DBT when assessing microcalcifications in synthetic slab images, although magnified mammography was rated highest overall. Conclusions: The sDBT system displayed microcalcifications as well as conventional, moving-source DBT when the effective pixel size of the detector was matched. However, with the detector in its full-resolution mode, sDBT displayed microcalcifications with greater clarity. Readers still preferred images generated by magnified mammography over both 3D mammography approaches. This finding is guiding continued hardware and software development to optimize the sDBT technology.
- Subjects :
- Artifact (error)
3D-Mammography
Pixel
medicine.diagnostic_test
Computer science
business.industry
medicine.medical_treatment
0206 medical engineering
Lumpectomy
Detector
02 engineering and technology
Digital Breast Tomosynthesis
020601 biomedical engineering
030218 nuclear medicine & medical imaging
03 medical and health sciences
0302 clinical medicine
medicine
Mammography
Computer vision
Artificial intelligence
Projection (set theory)
business
General Nursing
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....2200a06b03b7c2fef44fa7a6acdb3cb9
- Full Text :
- https://doi.org/10.17615/q4r7-h246