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On the Benefit of Dual-Domain Denoising in a Self-Supervised Low-Dose CT Setting

Fabian Wagner, Mareike Thies, Laura Pfaff, Oliver Aust, Sabrina Pechmann, Daniela Weidner, Noah Maul, Maximilian Rohleder, Mingxuan Gu, Jonas Utz, Felix Denzinger, Andreas Maier

202321 citationsDOI

Abstract

Computed tomography (CT) is routinely used for three-dimensional non-invasive imaging. Numerous data-driven image denoising algorithms were proposed to restore image quality in low-dose acquisitions. However, considerably less research investigates methods already intervening in the raw detector data due to limited access to suitable projection data or correct reconstruction algorithms. In this work, we present an end-to-end trainable CT reconstruction pipeline that contains denoising operators in both the projection and the image domain and that are optimized simultaneously without requiring ground-truth high-dose CT data. Our experiments demonstrate that including an additional projection denoising operator improved the overall denoising performance by 82.4–94.1 %/12.5–41.7 % (PSNR/SSIM) on abdomen CT and 1.5–2.9 %/0.4–0.5 % (PSNR/SSIM) on XRM data relative to the low-dose baseline. We make our entire helical CT reconstruction framework publicly available that contains a raw projection rebinning step to render helical projection data suitable for differentiable fan-beam reconstruction operators and end-to-end learning.

Topics & Concepts

Noise reductionProjection (relational algebra)Artificial intelligenceIterative reconstructionComputer sciencePipeline (software)Computer visionImage qualityImage (mathematics)AlgorithmProgramming languageMedical Imaging Techniques and ApplicationsAdvanced MRI Techniques and ApplicationsAdvanced X-ray and CT Imaging
On the Benefit of Dual-Domain Denoising in a Self-Supervised Low-Dose CT Setting | Litcius