不同深度学习架构在基于磁共振图像的合成 CT 生成中的比较。

Comparison of different deep learning architectures for synthetic CT generation from MR images.

机构信息

Faculty of Physics, University of Isfahan, Isfahan, Iran.

Department of Biomedical Engineering, Faculty of Engineering, University of Isfahan, Isfahan, Iran.

出版信息

Phys Med. 2021 Oct;90:99-107. doi: 10.1016/j.ejmp.2021.09.006. Epub 2021 Sep 29.

DOI:10.1016/j.ejmp.2021.09.006

PMID:34597891

Abstract

PURPOSE

Among the different available methods for synthetic CT generation from MR images for the task of MR-guided radiation planning, the deep learning algorithms have and do outperform their conventional counterparts. In this study, we investigated the performance of some most popular deep learning architectures including eCNN, U-Net, GAN, V-Net, and Res-Net for the task of sCT generation. As a baseline, an atlas-based method is implemented to which the results of the deep learning-based model are compared.

METHODS

A dataset consisting of 20 co-registered MR-CT pairs of the male pelvis is applied to assess the different sCT production methods' performance. The mean error (ME), mean absolute error (MAE), Pearson correlation coefficient (PCC), structural similarity index (SSIM), and peak signal-to-noise ratio (PSNR) metrics were computed between the estimated sCT and the ground truth (reference) CT images.

RESULTS

The visual inspection revealed that the sCTs produced by eCNN, V-Net, and ResNet, unlike the other methods, were less noisy and greatly resemble the ground truth CT image. In the whole pelvis region, the eCNN yielded the lowest MAE (26.03 ± 8.85 HU) and ME (0.82 ± 7.06 HU), and the highest PCC metrics were yielded by the eCNN (0.93 ± 0.05) and ResNet (0.91 ± 0.02) methods. The ResNet model had the highest PSNR of 29.38 ± 1.75 among all models. In terms of the Dice similarity coefficient, the eCNN method revealed superior performance in major tissue identification (air, bone, and soft tissue).

CONCLUSIONS

All in all, the eCNN and ResNet deep learning methods revealed acceptable performance with clinically tolerable quantification errors.

摘要

目的

在用于磁共振引导放射治疗计划的从磁共振图像生成合成 CT 的各种可用方法中，深度学习算法的表现优于传统方法。在这项研究中，我们研究了一些最流行的深度学习架构的性能，包括 eCNN、U-Net、GAN、V-Net 和 Res-Net，用于生成 sCT。作为基线，实现了一种基于图谱的方法，并将深度学习模型的结果与之进行比较。

方法

应用一个包含 20 对男性骨盆配准的磁共振-CT 对的数据集来评估不同 sCT 生成方法的性能。计算估计的 sCT 与地面真值（参考）CT 图像之间的平均误差（ME）、平均绝对误差（MAE）、Pearson 相关系数（PCC）、结构相似性指数（SSIM）和峰值信噪比（PSNR）指标。

结果

视觉检查表明，与其他方法不同，eCNN、V-Net 和 ResNet 生成的 sCT 噪声较小，与地面真值 CT 图像非常相似。在整个骨盆区域，eCNN 产生的 MAE（26.03 ± 8.85 HU）和 ME（0.82 ± 7.06 HU）最低，eCNN（0.93 ± 0.05）和 ResNet（0.91 ± 0.02）方法产生的 PCC 最高。所有模型中，ResNet 模型的 PSNR 最高，为 29.38 ± 1.75。就 Dice 相似系数而言，eCNN 方法在主要组织识别（空气、骨骼和软组织）方面表现出优异的性能。

结论

总的来说，eCNN 和 ResNet 深度学习方法的表现可以接受，具有临床可接受的量化误差。

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不同深度学习架构在基于磁共振图像的合成 CT 生成中的比较。

Comparison of different deep learning architectures for synthetic CT generation from MR images.

机构信息

出版信息

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METHODS

RESULTS

CONCLUSIONS

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结果

结论

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