Litcius/Paper detail

Correction for X-Ray Scatter and Detector Crosstalk in Dark-Field Radiography

Theresa Urban, Wolfgang Noichl, Klaus Juergen Engel, Thomas Koehler, Franz Pfeiffer

2024IEEE Transactions on Medical Imaging10 citationsDOIOpen Access PDF

Abstract

Dark-field radiography, a new X-ray imaging method, has recently been applied to human chest imaging for the first time. It employs conventional X-ray devices in combination with a Talbot-Lau interferometer with a large field of view, providing both attenuation and dark-field radiographs. It is well known that sample scatter creates artifacts in both modalities. Here, we demonstrate that also X-ray scatter generated by the interferometer as well as detector crosstalk create artifacts in the dark-field radiographs, in addition to the expected loss of spatial resolution. We propose deconvolution-based correction methods for the induced artifacts. The kernel for detector crosstalk is measured and fitted to a model, while the kernel for scatter from the analyzer grating is calculated by a Monte-Carlo simulation. To correct for scatter from the sample, we adapt an algorithm used for scatter correction in conventional radiography. We validate the obtained corrections with a water phantom. Finally, we show the impact of detector crosstalk, scatter from the analyzer grating and scatter from the sample and their successful correction on dark-field images of a human thorax.

Topics & Concepts

OpticsDetectorImaging phantomPhysicsMonte Carlo methodRadiographyField of viewGratingAttenuationImage resolutionDeconvolutionMathematicsStatisticsNuclear physicsAdvanced X-ray Imaging TechniquesAdvanced X-ray and CT ImagingMedical Imaging Techniques and Applications