1. Multiscale X-ray phase-contrast tomography: From breast CT to micro-CT for virtual histology.
- Author
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Arana Peña, L.M., Donato, S., Bonazza, D., Brombal, L., Martellani, F., Arfelli, F., Tromba, G., and Longo, R.
- Abstract
• Phase-contrast CT addresses poor soft-tissue contrast in X-ray breast imaging. • Interactive 3D breast virtual visualizations available at different resolutions. • Spatial resolution bridging from radiological level to virtual histology level. • 2D and 3D images may be combinedly used in a multidisciplinary clinical context. • Discernibility of breast structures and microcalcifications is enhanced. Phase-contrast imaging techniques address the issue of poor soft-tissue contrast encountered in traditional X-ray imaging. This can be accomplished with the propagation-based phase-contrast technique by employing a coherent photon beam, which is available at synchrotron facilities, as well as long sample-to-detector distances. This study demonstrates the optimization of propagation-based phase-contrast computed tomography (CT) techniques for multiscale X-ray imaging of the breast at the Elettra synchrotron facility (Trieste, Italy). Two whole breast mastectomy samples were acquired with propagation-based breast-CT using a monochromatic synchrotron beam at a pixel size of 60 µm. Paraffin-embedded blocks sampled from the same tissues were scanned with propagation-based micro-CT imaging using a polychromatic synchrotron beam at a pixel size of 4 µm. Images of both methodologies and of the same sample were spatially registered. The resulting images showed the transition from whole breast imaging with propagation-based breast-CT methodology to virtual histology with propagation-based micro-CT imaging of the same sample. Additionally, conventional histological images were matched to virtual histology images. Phase-contrast images offer a high resolution with low noise, which allows for a highly precise match between virtual and conventional histology. Furthermore, those techniques allow a clear discernment of breast structures, lesions, and microcalcifications, being a promising clinically-compatible tool for breast imaging in a multiscale approach, to either assist in the detection of cancer in full volume breast samples or to complement structure identification in paraffin-embedded breast tissue samples. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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