Huaxi MR Research Center (HMRRC), Department of Radiology, West China Hospital of Sichuan University, Chengdu, China.
Department of Radiology, West China Hospital of Sichuan University, Chengdu, China.
Comput Biol Med. 2023 Mar;154:106610. doi: 10.1016/j.compbiomed.2023.106610. Epub 2023 Jan 25.
To develop a general unsupervised anomaly detection method based only on MR images of normal brains to automatically detect various brain abnormalities.
In this study, a novel method based on three-dimensional deep autoencoder network is proposed to automatically detect and segment various brain abnormalities without being trained on any abnormal samples. A total of 578 normal T2w MR volumes without obvious abnormalities were used for model training and validation. The proposed 3D autoencoder was evaluated on two different datasets (BraTs dataset and in-house dataset) containing T2w volumes from patients with glioblastoma, multiple sclerosis and cerebral infarction. Lesions detection and segmentation performance were reported as AUC, precision-recall curve, sensitivity, and Dice score.
In anomaly detection, AUCs for three typical lesions were as follows: glioblastoma, 0.844; multiple sclerosis, 0.858; cerebral infarction, 0.807. In anomaly segmentation, the mean Dice for glioblastomas was 0.462. The proposed network also has the ability to generate an anomaly heatmap for visualization purpose.
Our proposed method was able to automatically detect various brain anomalies such as glioblastoma, multiple sclerosis, and cerebral infarction. This work suggests that unsupervised anomaly detection is a powerful approach to detect arbitrary brain abnormalities without labeled samples. It has the potential to support diagnostic workflow in radiology as an automated tool for computer-aided image analysis.
开发一种仅基于正常大脑的磁共振图像的通用无监督异常检测方法,以自动检测各种大脑异常。
本研究提出了一种基于三维深度自动编码器网络的新方法,无需在任何异常样本上进行训练,即可自动检测和分割各种大脑异常。共使用 578 个无明显异常的 T2w MR 容积进行模型训练和验证。所提出的 3D 自动编码器在包含脑胶质瘤、多发性硬化症和脑梗死患者 T2w 容积的两个不同数据集(BraTs 数据集和内部数据集)上进行了评估。报告了病变检测和分割性能的 AUC、精度-召回曲线、敏感性和 Dice 评分。
在异常检测中,三种典型病变的 AUC 如下:脑胶质瘤,0.844;多发性硬化症,0.858;脑梗死,0.807。在异常分割中,脑胶质瘤的平均 Dice 为 0.462。该网络还具有生成异常热图以进行可视化的功能。
我们提出的方法能够自动检测各种大脑异常,如脑胶质瘤、多发性硬化症和脑梗死。这项工作表明,无监督异常检测是一种强大的方法,可以在没有标记样本的情况下检测任意大脑异常。它有可能作为一种自动化的计算机辅助图像分析工具,支持放射科的诊断工作流程。
