Toward iterative reconstruction in clinical CT: increased sharpness-to-noise and significant dose reduction owing to a new class of regularization priors

H. Bruder; R. Raupach; M. Sedlmair; F. Würsching; K. Schwarz; K. Stierstorfer; T. Flohr

doi:10.1117/12.844101

22 March 2010 Toward iterative reconstruction in clinical CT: increased sharpness-to-noise and significant dose reduction owing to a new class of regularization priors

H. Bruder, R. Raupach, M. Sedlmair, F. Würsching, K. Schwarz, K. Stierstorfer, T. Flohr

Author Affiliations +

Proceedings Volume 7622, Medical Imaging 2010: Physics of Medical Imaging; 76222V (2010) https://doi.org/10.1117/12.844101
Event: SPIE Medical Imaging, 2010, San Diego, California, United States

Abstract

In this paper, a novel regularization approach for (non-statistical) iterative reconstruction is developed. In our implementation, the update equation of iterative reconstruction is based on Filtered Backprojection (FBP) and the solution is stabilized using nonlinear regularization priors. It is well known that the usage of nonlinear regularization priors can reduce image noise at the same time preserving image sharpness [1]. The final noise level can be adjusted by dedicated choice of regularization priors, regularization strength and the total number of iterations. In contrast to conventional CT using convolution kernels, image characteristics can not be further manipulated. This might cause artificial image texture. We present a new class of (non-local) 3D-regularization priors, which gives us control over image characteristics similar to that obtained with conventional CT convolution kernels. In addition, efficient noise reduction at constant sharpness is obtained. Due to the manipulation of the low-frequency components of the regularization filter, the filter is non-local. The regularization strength becomes a 3D-matrix with contrast-dependent entries, which gives us control over contrastdependent sharpness. The contrast edges are estimated using a 3D Laplacian kernel. High contrast edges get a low regularization weight and vice versa. We demonstrate the potential of noise reduction on basis of clinical CT data. Also, it is shown, that radiation exposure to the patient can be reduced by 60% in general purpose radiological CT applications and cardiac CT at the same time maintaining image quality. Moreover, for a 128-slice detector with 0.6 mm collimation, it is shown, that cone-beam and spiral artifacts caused by non-exact image reconstruction can be fairly removed. Putting all together our iterative reconstruction approach substantially improves image quality in cone-beam CT, and thus has the potential to enter routine clinical CT.

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H. Bruder, R. Raupach, M. Sedlmair, F. Würsching, K. Schwarz, K. Stierstorfer, and T. Flohr "Toward iterative reconstruction in clinical CT: increased sharpness-to-noise and significant dose reduction owing to a new class of regularization priors", Proc. SPIE 7622, Medical Imaging 2010: Physics of Medical Imaging, 76222V (22 March 2010); https://doi.org/10.1117/12.844101

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