One-Sample Diffusion Modeling in Projection Domain for Low-Dose CT Imaging

IF 4.6 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Bin Huang;Shiyu Lu;Liu Zhang;Boyu Lin;Weiwen Wu;Qiegen Liu
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引用次数: 0

Abstract

Low-dose computed tomography (CT) is crucial in clinical applications for reducing radiation risks. However, lowering the radiation dose will significantly degrade the image quality. In the meanwhile, common deep learning methods require large data, which are short for privacy leaking, expensive, and time-consuming. Therefore, we propose a fully unsupervised one-sample diffusion modeling (OSDM) in projection domain for low-dose CT reconstruction. To extract sufficient prior information from a single sample, the Hankel matrix formulation is employed. Besides, the penalized weighted least-squares and total variation are introduced to achieve superior image quality. First, we train a score-based diffusion model on one sinogram to capture the prior distribution with input tensors extracted from the structural-Hankel matrix. Then, at inference, we perform iterative stochastic differential equation solver and data-consistency steps to obtain sinogram data, followed by the filtered back-projection algorithm for image reconstruction. The results approach normal-dose counterparts, validating OSDM as an effective and practical model to reduce artifacts while preserving image quality.
低剂量 CT 成像投影域中的单样本扩散建模
低剂量计算机断层扫描(CT)在临床应用中对于降低辐射风险至关重要。然而,降低辐射剂量会大大降低图像质量。与此同时,常见的深度学习方法需要大量数据,而这些数据对于隐私泄露来说是短板,且成本高、耗时长。因此,我们提出了一种投影域的完全无监督单样本扩散建模(OSDM),用于低剂量 CT 重建。为了从单个样本中提取足够的先验信息,我们采用了 Hankel 矩阵公式。此外,我们还引入了惩罚性加权最小二乘法和总变异,以获得更高的图像质量。首先,我们在一个正弦曲线上训练一个基于分数的扩散模型,利用从结构-汉克尔矩阵中提取的输入张量来捕捉先验分布。然后,在推理过程中,我们执行迭代随机微分方程求解器和数据一致性步骤来获取正弦曲线数据,接着使用滤波后投影算法进行图像重建。结果接近正常剂量对应模型,验证了 OSDM 是一种有效、实用的模型,可在保持图像质量的同时减少伪影。
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来源期刊
IEEE Transactions on Radiation and Plasma Medical Sciences
IEEE Transactions on Radiation and Plasma Medical Sciences RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
8.00
自引率
18.20%
发文量
109
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