Segmentation-guided Denoising Network for Low-dose CT Imaging

计算机科学 分割 人工智能 降噪 噪音(视频) 模式识别(心理学) 特征(语言学) 水准点(测量) 金标准(测试) 计算机视觉 图像(数学) 放射科 医学 哲学 语言学 地理 大地测量学
作者
Zhenxing Huang,Zhou Liu,Pin He,Ya Ren,Shuluan Li,Yuanyuan Lei,Dehong Luo,Dong Liang,Dan Shao,Zhanli Hu,Na Zhang
出处
期刊:Computer Methods and Programs in Biomedicine [Elsevier BV]
卷期号:227: 107199-107199 被引量:23
标识
DOI:10.1016/j.cmpb.2022.107199
摘要

Background: To reduce radiation exposure and improve diagnosis in low-dose computed tomography, several deep learning (DL)-based image denoising methods have been proposed to suppress noise and artifacts over the past few years. However, most of them seek an objective data distribution approximating the gold standard and neglect structural semantic preservation. Moreover, the numerical response in CT images presents substantial regional anatomical differences among tissues in terms of X-ray absorbency. Methods: In this paper, we introduce structural semantic information for low-dose CT imaging. First, the regional segmentation prior to low-dose CT can guide the denoising process. Second the structural semantical results can be considered as evaluation metrics on the estimated normal-dose CT images. Then, a semantic feature transform is engaged to combine the semantic and image features on a semantic fusion module. In addition, the structural semantic loss function is introduced to measure the segmentation difference. Results: Experiments are conducted on clinical abdomen data obtained from a clinical hospital, and the semantic labels consist of subcutaneous fat, muscle and visceral fat associated with body physical evaluation. Compared with other DL-based methods, the proposed method achieves better performance on quantitative metrics and better semantic evaluation. Conclusions: The quantitative experimental results demonstrate the promising performance of the proposed methods in noise reduction and structural semantic preservation. While, the proposed method may suffer from several limitations on abnormalities, unknown noise and different manufacturers. In the future, the proposed method will be further explored, and wider applications in PET/CT and PET/MR will be sought.
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