An efficient dual-domain deep learning network for sparse-view CT reconstruction

IF 4.9 2区医学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computer methods and programs in biomedicine Pub Date : 2024-08-16 DOI:10.1016/j.cmpb.2024.108376

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Abstract

Background and Objective

We develop an efficient deep-learning based dual-domain reconstruction method for sparse-view CT reconstruction with small training parameters and comparable running time. We aim to investigate the model's capability and its clinical value by performing objective and subjective quality assessments using clinical CT projection data acquired on commercial scanners.

Methods

We designed two lightweight networks, namely Sino-Net and Img-Net, to restore the projection and image signal from the DD-Net reconstructed images in the projection and image domains, respectively. The proposed network has small training parameters and comparable running time among dual-domain based reconstruction networks and is easy to train (end-to-end). We prospectively collected clinical thoraco-abdominal CT projection data acquired on a Siemens Biograph 128 Edge CT scanner to train and validate the proposed network. Further, we quantitatively evaluated the CT Hounsfield unit (HU) values on 21 organs and anatomic structures, such as the liver, aorta, and ribcage. We also analyzed the noise properties and compared the signal-to-noise ratio (SNR) and the contrast-to-noise ratio (CNR) of the reconstructed images. Besides, two radiologists conducted the subjective qualitative evaluation including the confidence and conspicuity of anatomic structures, and the overall image quality using a 1–5 likert scoring system.

Results

Objective and subjective evaluation showed that the proposed algorithm achieves competitive results in eliminating noise and artifacts, restoring fine structure details, and recovering edges and contours of anatomic structures using 384 views (1/6 sparse rate). The proposed method exhibited good computational cost performance on clinical projection data.

Conclusion

This work presents an efficient dual-domain learning network for sparse-view CT reconstruction on raw projection data from a commercial scanner. The study also provides insights for designing an organ-based image quality assessment pipeline for sparse-view reconstruction tasks, potentially benefiting organ-specific dose reduction by sparse-view imaging.

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用于稀疏视图 CT 重建的高效双域深度学习网络

背景和目的我们开发了一种基于深度学习的高效双域重建方法，用于稀疏视图 CT 重建，训练参数小，运行时间相当。方法我们设计了两个轻量级网络，即 Sino-Net 和 Img-Net，分别在投影域和图像域还原 DD-Net 重建图像的投影和图像信号。所提出的网络训练参数小，运行时间与基于双域的重建网络相当，并且易于训练（端到端）。我们前瞻性地收集了在西门子 Biograph 128 Edge CT 扫描仪上获取的临床胸腹 CT 投影数据，以训练和验证所提出的网络。此外，我们还定量评估了 21 个器官和解剖结构（如肝脏、主动脉和肋骨）的 CT Hounsfield 单位（HU）值。我们还分析了噪声特性，比较了重建图像的信噪比（SNR）和对比度-噪声比（CNR）。结果客观和主观评价表明，所提出的算法在消除噪声和伪影、恢复精细结构细节、恢复解剖结构的边缘和轮廓（使用 384 个视图，1/6 的稀疏率）方面取得了有竞争力的结果。该方法在临床投影数据上表现出了良好的计算成本性能。结论本研究提出了一种高效的双域学习网络，用于在商用扫描仪的原始投影数据上进行稀疏视图 CT 重建。这项研究还为稀疏视图重建任务设计基于器官的图像质量评估管道提供了启示，稀疏视图成像可能有利于减少特定器官的剂量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Computer methods and programs in biomedicine 工程技术-工程：生物医学

CiteScore

12.30

自引率

6.60%

发文量

601

审稿时长

135 days

期刊介绍： To encourage the development of formal computing methods, and their application in biomedical research and medical practice, by illustration of fundamental principles in biomedical informatics research; to stimulate basic research into application software design; to report the state of research of biomedical information processing projects; to report new computer methodologies applied in biomedical areas; the eventual distribution of demonstrable software to avoid duplication of effort; to provide a forum for discussion and improvement of existing software; to optimize contact between national organizations and regional user groups by promoting an international exchange of information on formal methods, standards and software in biomedicine. Computer Methods and Programs in Biomedicine covers computing methodology and software systems derived from computing science for implementation in all aspects of biomedical research and medical practice. It is designed to serve: biochemists; biologists; geneticists; immunologists; neuroscientists; pharmacologists; toxicologists; clinicians; epidemiologists; psychiatrists; psychologists; cardiologists; chemists; (radio)physicists; computer scientists; programmers and systems analysts; biomedical, clinical, electrical and other engineers; teachers of medical informatics and users of educational software.