A generalized image quality improvement strategy of cone-beam CT using multiple spectral CT labels in Pix2pix GAN

成像体模 鉴别器 锥束ct 投影(关系代数) 像素 相似性(几何) 图像质量 计算机科学 物理 能量(信号处理) 光学 人工智能 图像(数学) 探测器 计算机断层摄影术 算法 医学 放射科 量子力学
作者
Yangkang Jiang,Yibao Zhang,Chen Luo,Pengfei Yang,Jing Wang,Xiaokun Liang,Wei Zhao,Ren‐Cang Li,Tianye Niu
出处
期刊:Physics in Medicine and Biology [IOP Publishing]
卷期号:67 (11): 115003-115003 被引量:12
标识
DOI:10.1088/1361-6560/ac6bda
摘要

Objective.The quantitative and routine imaging capabilities of cone-beam CT (CBCT) are hindered from clinical applications due to the severe shading artifacts of scatter contamination. The scatter correction methods proposed in the literature only consider the anatomy of the scanned objects while disregarding the impact of incident x-ray energy spectra. The multiple-spectral model is in urgent need for CBCT scatter estimation.Approach.In this work, we incorporate the multiple spectral diagnostic multidetector CT labels into the pixel-to-pixel (Pix2pix) GAN to estimate accurate scatter distributions from CBCT projections acquired at various imaging volume sizes and x-ray energy spectra. The Pix2pix GAN combines the residual network as the generator and the PatchGAN as the discriminator to construct the correspondence between the scatter-contaminated projection and scatter distribution. The network architectures and loss function of Pix2pix GAN are optimized to achieve the best performance on projection-to-scatter transition.Results.The CBCT data of a head phantom and abdominal patients are applied to test the performance of the proposed method. The error of the corrected CBCT image using the proposed method is reduced from over 200 HU to be around 20 HU in both phantom and patient studies. The mean structural similarity index of the CT image is improved from 0.2 to around 0.9 after scatter correction using the proposed method compared with the MC-simulation method, which indicates a high similarity of the anatomy in the images before and after the proposed correction. The proposed method achieves higher accuracy of scatter estimation than using the Pix2pix GAN with the U-net generator.Significance.The proposed scheme is an effective solution to the multiple spectral CBCT scatter correction. The scatter-correction software using the proposed model will be available at:https://github.com/YangkangJiang/Cone-beam-CT-scatter-correction-tool.
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