PURPOSE: X-ray dark-field imaging promises information on the small angle scattering properties even of large samples. However, the dark-field image is correlated with the object's attenuation and phase-shift if a polychromatic x-ray spectrum is used. A method to remove part of these correlations is proposed. METHODS: The experimental setup for image acquisition was modeled in a wave-field simulation to quantify the dark-field signals originating solely from a material's attenuation and phase-shift. A calibration matrix was simulated for ICRU46 breast tissue. Using the simulated data, a dark-field image of a human mastectomy sample was corrected for the finger print of attenuation- and phase-image. RESULTS: Comparing the simulated, attenuation-based dark-field values to a phantom measurement, a good agreement was found. Applying the proposed method to mammographic dark-field data, a reduction of the dark-field background and anatomical noise was achieved. The contrast between microcalcifications and their surrounding background was increased. CONCLUSIONS: The authors show that the influence of and dispersion can be quantified by simulation and, thus, measured image data can be corrected. The simulation allows to determine the corresponding dark-field artifacts for a wide range of setup parameters, like tube-voltage and filtration. The application of the proposed method to mammographic dark-field data shows an increase in contrast compared to the original image, which might simplify a further image-based diagnosis.
PURPOSE: X-ray dark-field imaging promises information on the small angle scattering properties even of large samples. However, the dark-field image is correlated with the object's attenuation and phase-shift if a polychromatic x-ray spectrum is used. A method to remove part of these correlations is proposed. METHODS: The experimental setup for image acquisition was modeled in a wave-field simulation to quantify the dark-field signals originating solely from a material's attenuation and phase-shift. A calibration matrix was simulated for ICRU46 breast tissue. Using the simulated data, a dark-field image of a human mastectomy sample was corrected for the finger print of attenuation- and phase-image. RESULTS: Comparing the simulated, attenuation-based dark-field values to a phantom measurement, a good agreement was found. Applying the proposed method to mammographic dark-field data, a reduction of the dark-field background and anatomical noise was achieved. The contrast between microcalcifications and their surrounding background was increased. CONCLUSIONS: The authors show that the influence of and dispersion can be quantified by simulation and, thus, measured image data can be corrected. The simulation allows to determine the corresponding dark-field artifacts for a wide range of setup parameters, like tube-voltage and filtration. The application of the proposed method to mammographic dark-field data shows an increase in contrast compared to the original image, which might simplify a further image-based diagnosis.
Authors: Lukas B Gromann; Fabio De Marco; Konstantin Willer; Peter B Noël; Kai Scherer; Bernhard Renger; Bernhard Gleich; Klaus Achterhold; Alexander A Fingerle; Daniela Muenzel; Sigrid Auweter; Katharina Hellbach; Maximilian Reiser; Andrea Baehr; Michaela Dmochewitz; Tobias J Schroeter; Frieder J Koch; Pascal Meyer; Danays Kunka; Juergen Mohr; Andre Yaroshenko; Hanns-Ingo Maack; Thomas Pralow; Hendrik van der Heijden; Roland Proksa; Thomas Koehler; Nataly Wieberneit; Karsten Rindt; Ernst J Rummeny; Franz Pfeiffer; Julia Herzen Journal: Sci Rep Date: 2017-07-06 Impact factor: 4.379
Authors: Andreas P Sauter; Jana Andrejewski; Fabio De Marco; Konstantin Willer; Lukas B Gromann; Wolfgang Noichl; Fabian Kriner; Florian Fischer; Christian Braun; Thomas Koehler; Felix Meurer; Alexander A Fingerle; Daniela Pfeiffer; Ernst Rummeny; Julia Herzen; Franz Pfeiffer Journal: Sci Rep Date: 2019-06-18 Impact factor: 4.379
Authors: Alexander A Fingerle; Fabio De Marco; Jana Andrejewski; Konstantin Willer; Lukas B Gromann; Wolfgang Noichl; Fabian Kriner; Florian Fischer; Christian Braun; Hanns-Ingo Maack; Thomas Pralow; Thomas Koehler; Peter B Noël; Felix Meurer; Dominik Deniffel; Andreas P Sauter; Bernhard Haller; Daniela Pfeiffer; Ernst J Rummeny; Julia Herzen; Franz Pfeiffer Journal: Eur Radiol Exp Date: 2019-07-11
Authors: Jana Andrejewski; Fabio De Marco; Konstantin Willer; Wolfgang Noichl; Alex Gustschin; Thomas Koehler; Pascal Meyer; Fabian Kriner; Florian Fischer; Christian Braun; Alexander A Fingerle; Julia Herzen; Franz Pfeiffer; Daniela Pfeiffer Journal: Eur Radiol Exp Date: 2021-01-26
Authors: Andreas P Sauter; Jana Andrejewski; Manuela Frank; Konstantin Willer; Julia Herzen; Felix Meurer; Alexander A Fingerle; Markus R Makowski; Franz Pfeiffer; Daniela Pfeiffer Journal: Sci Rep Date: 2021-07-08 Impact factor: 4.379