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Optimization-Based Image Reconstruction Regularized with Inter-Spectral Structural Similarity for Limited-Angle Dual-Energy Cone-Beam CT. | LitMetric
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Optimization-Based Image Reconstruction Regularized with Inter-Spectral Structural Similarity for Limited-Angle Dual-Energy Cone-Beam CT.

Junbo Peng Tonghe Wang Huiqiao Xie Richard L J Qiu Chih-Wei Chang Justin Roper David S Yu Xiangyang Tang Xiaofeng Yang

ArXiv

Published: December 2024

AI Article Synopsis

  • Limited-angle dual-energy cone-beam CT (LA-DECBCT) is a promising method for achieving fast, low-dose imaging, but its clinical use is challenged by difficulties in image reconstruction.
  • A new image reconstruction technique using inter-spectral structural similarity was developed to reduce artifacts, improving the quality of DECBCT images without needing extra data for training.
  • This method shows significant potential for practical clinical applications in LA-DECBCT, enabling accurate imaging without relying on X-ray spectra or paired datasets.

Article Abstract

Background: Limited-angle (LA) dual-energy (DE) cone-beam CT (CBCT) is considered as a potential solution to achieve fast and low-dose DE imaging on current CBCT scanners without hardware modification. However, its clinical implementations are hindered by the challenging image reconstruction from LA projections. While optimization-based and deep learning-based methods have been proposed for image reconstruction, their utilization is limited by the requirement for X-ray spectra measurement or paired datasets for model training.

Purpose: This work aims to facilitate the clinical applications of fast and low-dose DECBCT by developing a practical solution for image reconstruction in LA-DECBCT.

Methods: An inter-spectral structural similarity-based regularization was integrated into the iterative image reconstruction in LA-DECBCT. By enforcing the similarity between the DE images, LA artifacts were efficiently reduced in the reconstructed DECBCT images. The proposed method was evaluated using four physical phantoms and three digital phantoms, demonstrating its efficacy in quantitative DECBCT imaging.

Conclusions: The proposed method achieves accurate image reconstruction without the need for X-ray spectra measurement for optimization or paired datasets for model training, showing great practical value in clinical implementations of LA-DECBCT.

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 Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11702809PMC

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