Contrast-enhanced spectral mammography with a compact synchrotron source

For early breast cancer detection, mammography is nowadays the commonly used standard imaging approach, offering a valuable clinical tool for visualization of suspicious findings like microcalcifications and tumors within the breast. However, due to the superposition of anatomical structures, the se...

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Bibliographic Details
Published in:PloS one 2019-10, Vol.14 (10), p.e0222816
Main Authors: Heck, Lisa, Dierolf, Martin, Jud, Christoph, Eggl, Elena, Sellerer, Thorsten, Mechlem, Korbinian, Günther, Benedikt, Achterhold, Klaus, Gleich, Bernhard, Metz, Stephan, Pfeiffer, Daniela, Kröninger, Kevin, Herzen, Julia
Format: Article
Language:English
Subjects:
Bioengineering
Biology and Life Sciences
Breast - diagnostic imaging
Breast - pathology
Breast cancer
Breast Neoplasms - diagnosis
Breast Neoplasms - diagnostic imaging
Breast Neoplasms - pathology
Breasts
Calcinosis
Cancer
Cancer diagnosis
Contrast Media - therapeutic use
Decomposition
Diagnosis
Drug dosages
Early Detection of Cancer
Energy
Engineering and Technology
Female
Humans
Image contrast
Image quality
Iodine
Light sources
Mammography
Mammography - methods
Medical imaging
Medicine
Medicine and Health Sciences
Methods
Monochromatic radiation
Phantoms, Imaging
Physical Sciences
Physics
Radiation
Radiation (Physics)
Radiographic Image Enhancement
Research and Analysis Methods
Spatial discrimination
Spatial resolution
Spectrum analysis
Subtraction
Synchrotrons - instrumentation
Tumors
X-rays
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Summary:For early breast cancer detection, mammography is nowadays the commonly used standard imaging approach, offering a valuable clinical tool for visualization of suspicious findings like microcalcifications and tumors within the breast. However, due to the superposition of anatomical structures, the sensitivity of mammography screening is limited. Within the last couple of years, the implementation of contrast-enhanced spectral mammography (CESM) based on K-edge subtraction (KES) imaging helped to improve the identification and classification of uncertain findings. In this study, we introduce another approach for CESM based on a two-material decomposition, with which we expect fundamental improvements compared to the clinical procedure. We demonstrate the potential of our proposed method using the quasi-monochromatic radiation of a compact synchrotron source-the Munich Compact Light Source (MuCLS)-and a modified mammographic accreditation phantom. For direct comparison with the clinical CESM approach, we also performed a standard dual-energy KES at the MuCLS, which outperformed the clinical CESM images in terms of contrast-to-noise ratio (CNR) and spatial resolution. However, the dual-energy-based two-material decomposition approach achieved even higher CNR values. Our experimental results with quasi-monochromatic radiation show a significant improvement of the image quality at lower mean glandular dose (MGD) than the clinical CESM. At the same time, our study indicates the great potential for the material-decomposition instead of clinically used KES to improve the quantitative outcome of CESM.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0222816