Cone-beam micro computed tomography dedicated to the breast
Copyright policy )Cone-beam micro computed tomography dedicated to the breast
We developed a scanner for micro computed tomography dedicated to the breast (BµCT) with a high resolution flat-panel detector and a microfocus X-ray tube. We evaluated the system spatial resolution via the 3D modulation transfer function (MTF). In addition to conventional absorption-based X-ray imaging, such a prototype showed capabilities for propagation-based phase-contrast and related edge enhancement effects in 3D imaging. The system limiting spatial resolution is 6.2mm-1 (MTF at 10%) in the vertical direction and 3.8mm-1 in the radial direction, values which compare favorably with the spatial resolution reached by mini focus breast CT scanners of other groups. The BµCT scanner was able to detect both microcalcification clusters and masses in an anthropomorphic breast phantom at a dose comparable to that of two-view mammography. The use of a breast holder is proposed in order to have 1-2min long scan times without breast motion artifacts.
Phantoms, Imaging, Breast cancer; Diagnosis; Micro computed tomography; MTF; Phase contrast, Micro computed tomography, Biophysics, Biomedical Engineering, Calcinosis, X-Ray Microtomography, Cone-Beam Computed Tomography, Breast cancer; Diagnosis; Micro computed tomography; MTF; Phase contrast; Biophysics; Biomedical Engineering, Breast cancer, MTF, Imaging, Three-Dimensional, Phase contrast, Diagnosis, Humans, Breast
Phantoms, Imaging, Breast cancer; Diagnosis; Micro computed tomography; MTF; Phase contrast, Micro computed tomography, Biophysics, Biomedical Engineering, Calcinosis, X-Ray Microtomography, Cone-Beam Computed Tomography, Breast cancer; Diagnosis; Micro computed tomography; MTF; Phase contrast; Biophysics; Biomedical Engineering, Breast cancer, MTF, Imaging, Three-Dimensional, Phase contrast, Diagnosis, Humans, Breast
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