使用神经网络生成的合成 CT 图像在仅磁共振脑放疗中的剂量学评估。

Dosimetric evaluation of synthetic CT image generated using a neural network for MR-only brain radiotherapy.

机构信息

Key Laboratory of Radiation Physics and Technology of the Ministry of Education, Institute of Nuclear Science and Technology, Sichuan University, Chengdu, Sichuan, China.

Department of Radiation Oncology, Radiation Oncology Key Laboratory Of Sichuan Province, Sichuan Cancer Hospital & Institute, Chengdu, Sichuan, China.

出版信息

J Appl Clin Med Phys. 2021 Mar;22(3):55-62. doi: 10.1002/acm2.13176. Epub 2021 Feb 1.

DOI:10.1002/acm2.13176

PMID:33527712

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7984468/

Abstract

PURPOSE AND BACKGROUND

The magnetic resonance (MR)-only radiotherapy workflow is urged by the increasing use of MR image for the identification and delineation of tumors, while a fast generation of synthetic computer tomography (sCT) image from MR image for dose calculation remains one of the key challenges to the workflow. This study aimed to develop a neural network to generate the sCT in brain site and evaluate the dosimetry accuracy.

MATERIALS AND METHODS

A generative adversarial network (GAN) was developed to translate T1-weighted MRI to sCT. First, the "U-net" shaped encoder-decoder network with some image translation-specific modifications was trained to generate sCT, then the discriminator network was adversarially trained to distinguish between synthetic and real CT images. We enrolled 37 brain cancer patients acquiring both CT and MRI for treatment position simulation. Twenty-seven pairs of 2D T1-weighted MR images and rigidly registered CT image were used to train the GAN model, and the remaining 10 pairs were used to evaluate the model performance through the metric of mean absolute error. Furthermore, the clinical Volume Modulated Arc Therapy plan was calculated on both sCT and real CT, followed by gamma analysis and comparison of dose-volume histogram.

RESULTS

On average, only 15 s were needed to generate one sCT from one T1-weighted MRI. The mean absolute error between synthetic and real CT was 60.52 ± 13.32 Housefield Unit over 5-fold cross validation. For dose distribution on sCT and CT, the average pass rates of gamma analysis using the 3%/3 mm and 2%/2 mm criteria were 99.76% and 97.25% over testing patients, respectively. For parameters of dose-volume histogram for both target and organs at risk, no significant differences were found between both plans.

CONCLUSION

The GAN model can generate synthetic CT from one single MRI sequence within seconds, and a state-of-art accuracy of CT number and dosimetry was achieved.

摘要

目的和背景

随着磁共振（MR）图像在肿瘤识别和勾画中的应用越来越多，仅使用磁共振图像的放射治疗工作流程受到推动，而从磁共振图像快速生成用于剂量计算的合成计算机断层扫描（sCT）图像仍然是该工作流程的关键挑战之一。本研究旨在开发一种神经网络来生成脑部的 sCT 并评估剂量学准确性。

材料和方法

开发了一个生成对抗网络（GAN）将 T1 加权 MRI 转换为 sCT。首先，训练具有一些图像翻译特定修改的“U-net”形状编码器-解码器网络来生成 sCT，然后对抗性地训练鉴别器网络来区分合成和真实 CT 图像。我们招募了 37 名接受治疗位置模拟的脑癌患者，他们同时采集 CT 和 MRI。使用 27 对 2D T1 加权 MR 图像和刚性配准的 CT 图像来训练 GAN 模型，其余 10 对用于通过均方根误差度量评估模型性能。此外，在 sCT 和真实 CT 上计算临床容积调制弧形治疗计划，然后进行伽马分析和剂量-体积直方图比较。

结果

平均而言，从一个 T1 加权 MRI 生成一个 sCT 仅需 15 秒。在 5 倍交叉验证中，合成和真实 CT 之间的平均绝对误差为 60.52 ± 13.32 豪斯菲尔德单位。对于 sCT 和 CT 上的剂量分布，使用 3%/3mm 和 2%/2mm 标准的伽马分析的平均通过率分别为 99.76%和 97.25%，测试患者。对于靶区和危及器官的剂量-体积直方图参数，两种计划之间没有发现显著差异。

结论

GAN 模型可以在几秒钟内从单个 MRI 序列生成合成 CT，并且达到了 CT 数和剂量学的最先进精度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/43cb/7984468/e48badc54ef7/ACM2-22-55-g004.jpg

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使用神经网络生成的合成 CT 图像在仅磁共振脑放疗中的剂量学评估。

Dosimetric evaluation of synthetic CT image generated using a neural network for MR-only brain radiotherapy.

机构信息

出版信息

PURPOSE AND BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的和背景

材料和方法

结果

结论

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