利用深度学习对膝关节核磁共振成像进行异常检测的脂肪抑制图像抽取方法的可行性。

Polish journal of radiology Pub Date : 2023-12-08 eCollection Date: 2023-01-01 DOI:10.5114/pjr.2023.133660
Shusuke Kasuya, Tsutomu Inaoka, Akihiko Wada, Tomoya Nakatsuka, Koichi Nakagawa, Hitoshi Terada
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引用次数: 0

摘要

目的:评估使用深度学习(DL)模型生成脂肪抑制图像并通过脂肪抑制图像抽取法检测膝关节磁共振成像(MRI)异常的可行性:共对 45 名膝关节疾病患者和 12 名健康志愿者进行了膝关节磁共振成像研究。利用二维卷积神经网络开发了 DL 模型,用于生成脂肪抑制图像,并将生成的无异常发现的脂肪抑制图像与正常/异常发现的图像相减,从而检测/分类膝关节 MRI 异常。对生成的脂肪抑制图像和减影图像的图像质量进行了评估。结果:共创建了 2472 个图像数据集,每个数据集由一个切片的原始 T1WI、原始中间加权图像、无任何异常发现的生成脂肪抑制(FS)-中间加权图像、有正常/异常发现的生成 FS-中间加权图像以及同一截面上生成的 FS-中间加权图像之间的减影图像组成。生成的脂肪抑制图像具有足够的图像质量。在 2472 张减影图像中,有 2203 张(89.1%)被判定为图像质量合格。整体异常、前十字韧带、骨髓、软骨、半月板和其他方面的准确率为 89.5%-95.1%。平均精确度、平均召回率和 F-measure 分别为 73.4-90.6%、77.5-89.4% 和 78.4-89.4%。灵敏度为 57.4-90.5%。AUROCs为0.910-0.979.结论:DL模型能够生成质量足够高的脂肪抑制图像,通过脂肪抑制图像抽取法检测膝关节磁共振成像的异常。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Feasibility of the fat-suppression image-subtraction method using deep learning for abnormality detection on knee MRI.

Purpose: To evaluate the feasibility of using a deep learning (DL) model to generate fat-suppression images and detect abnormalities on knee magnetic resonance imaging (MRI) through the fat-suppression image-subtraction method.

Material and methods: A total of 45 knee MRI studies in patients with knee disorders and 12 knee MRI studies in healthy volunteers were enrolled. The DL model was developed using 2-dimensional convolutional neural networks for generating fat-suppression images and subtracting generated fat-suppression images without any abnormal findings from those with normal/abnormal findings and detecting/classifying abnormalities on knee MRI. The image qualities of the generated fat-suppression images and subtraction-images were assessed. The accuracy, average precision, average recall, F-measure, sensitivity, and area under the receiver operator characteristic curve (AUROC) of DL for each abnormality were calculated.

Results: A total of 2472 image datasets, each consisting of one slice of original T1WI, original intermediate-weighted images, generated fat-suppression (FS)-intermediate-weighted images without any abnormal findings, generated FS-intermediate-weighted images with normal/abnormal findings, and subtraction images between the generated FS-intermediate-weighted images at the same cross-section, were created. The generated fat-suppression images were of adequate image quality. Of the 2472 subtraction-images, 2203 (89.1%) were judged to be of adequate image quality. The accuracies for overall abnormalities, anterior cruciate ligament, bone marrow, cartilage, meniscus, and others were 89.5-95.1%. The average precision, average recall, and F-measure were 73.4-90.6%, 77.5-89.4%, and 78.4-89.4%, respectively. The sensitivity was 57.4-90.5%. The AUROCs were 0.910-0.979.

Conclusions: The DL model was able to generate fat-suppression images of sufficient quality to detect abnormalities on knee MRI through the fat-suppression image-subtraction method.

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