X-Ray Phase-Contrast Tomography Underlying Physics and Developments for Breast Imaging
Título:
X-Ray Phase-Contrast Tomography Underlying Physics and Developments for Breast Imaging
ISBN:
9783030604332
Autor personal:
Edición:
1st ed. 2020.
PRODUCTION_INFO:
Cham : Springer International Publishing : Imprint: Springer, 2020.
Descripción física:
XIII, 140 p. 68 illus., 53 illus. in color. online resource.
Serie:
Springer Theses, Recognizing Outstanding Ph.D. Research,
Contenido:
Introduction -- Physics of Propagation-based X-ray Tomography -- Propagation-based Breast CT and SYRMA-3D Project -- Detector and Pre-processing -- Experimental Optimization of Propagation-based BCT -- Three-Dimensional Imaging: A Clinically Oriented Focus -- Do We Need Clinical Applications in Synchrotrons? -- Conclusions.
Síntesis:
X-ray imaging is a corner stone of breast cancer diagnosis. By exploiting the phase shift of X-rays rather than their attenuation, phase-contrast tomography has the potential to dramatically increase the visibility of small and low contrast features, thus leading to better diagnosis. This thesis presents research on the first synchrotron-based project developing a clinical phase-contrast breast computed tomography (CT) setup at Elettra, the Italian Syncrotron Radiation Facility. This book includes a comprehensive theoretical background on propagation-based phase-contrast imaging, exploring and extending the most recent image formation models. Along with theory, many practical implementation and optimization issues, ranging from detector-specific processing to setup geometry, are tackled on the basis of a large number of experimental evidences. Most of the modelling results and data analysis have general validity, being a valuable framework for optimization of phase-contrast setups. Results obtained at synchrotron are also compared with "real world" laboratory sources: both a first-of-its-kind comparison with one of the few hospital breast CT systems and a state-of-the-art implementation of monochromatic phase-contrast micro-tomography with a conventional rotating anode source are presented. On a more general level, this work sheds a light on the importance of synchrotron-based clinical programs, which are key to trigger the long-anticipated transition of phase-contrast imaging from synchrotrons to hospitals. .
Autor corporativo añadido:
Acceso electrónico:
Full Text Available From Springer Nature Physics and Astronomy 2020 Packages
Idioma:
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