Low-dose spectral CT reconstruction based on image-gradient L0-norm and adaptive spectral PICCS.

Low-dose spectral CT reconstruction based on image-gradient L0-norm and adaptive spectral PICCS. Phys Med Biol. 2020 Jul 21;: Authors: Wang S, Wu W, Feng J, Liu F, Yu H Abstract The photon-counting detector based spectral computed tomography (CT) is promising for lesion detection, tissue characterization, and material decomposition. However, the lower signal-noise-ratio (SNR) within multi-energy projection dataset can result in poor reconstructed image quality. Recently, a high-quality spectral mean image as prior information was introduced into the prior image constrained compressed sensing (PICCS) framework to suppress noise, leading to spectral PICCS (SPICCS). In the original SPICCS model, the image gradient L1-norm is employed, and it can cause blurred edge structures in the reconstructed images. Encouraged by the advantages in edge preservation and finer structure recovering, the image gradient L0-norm was incorporated into the PICCS model. Furthermore, due to the difference of energy spectrum in different channels, a weighting factor is introduced and adaptively adjusted for different channel-wise images, leading to an L0-norm based adaptive spectral prior image constrained compressed sensing (L0-ASPICCS) algorithm for low-dose spectral CT reconstruction. The split-Bregman method is employed to minimize the objective function. Extensive numerical simulations and real mouse studies are performed to evaluate the proposed method. ...
Source: Physics in Medicine and Biology - Category: Physics Authors: Tags: Phys Med Biol Source Type: research
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