A preliminary study on the application of deep learning methods based on convolutional network to the pathological diagnosis of PJI.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-10-14 DOI:10.1186/s42836-022-00145-4
Ye Tao, Hanwen Hu, Jie Li, Mengting Li, Qingyuan Zheng, Guoqiang Zhang, Ming Ni
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Abstract

Objective: This study aimed to establish a deep learning method based on convolutional networks for the preliminary study of the pathological diagnosis of prosthetic joint infections (PJI).

Methods: We enrolled 20 revision patients after joint replacement from the Department of Orthopedics, the First Medical Center, General Hospital of the People's Liberation Army, from January 2021 to January 2022 (10 of whom were confirmed to be infected against 2018 ICM criteria, and the remaining 10 were verified to be non-infected), and classified high-power field images according to 2018 ICM criteria. Then, we inputted 576 positive images and 576 negative images into a neural network by employing a resNET model, used to select 461 positive images and 461 negative images as training sets, 57 positive images and 31 negative images as internal verification sets, 115 positive images and 115 negative images as external test sets.

Results: The resNET model classification was used to analyze the pathological sections of PJI patients under high magnification fields. The results of internal validation set showed a positive accuracy of 96.49%, a negative accuracy of 87.09%, an average accuracy of 93.22%, an average recall rate 96.49%, and an F1 of 0.9482. The accuracy of external test results was 97.39% positive, 93.04% negative, the average accuracy of external test set was 93.33%, the average recall rate was 97.39%, with an F1 of 0.9482. The AUC area of the intelligent image-reading diagnosis system was 0.8136.

Conclusions: This study used the convolutional neural network deep learning to identify high-magnification images from pathological sections of soft tissues around joints, against the diagnostic criteria for acute infection, and a high precision and a high recall rate were accomplished. The results of this technique confirmed that better results could be achieved by comparing the new method with the standard strategies in terms of diagnostic accuracy. Continuous upgrading of extended training sets is needed to improve the diagnostic accuracy of the convolutional network deep learning before it is applied to clinical practice.

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将基于卷积网络的深度学习方法应用于 PJI 病理诊断的初步研究。
研究目的本研究旨在建立一种基于卷积网络的深度学习方法,用于人工关节感染(PJI)病理诊断的初步研究:我们入选了 2021 年 1 月至 2022 年 1 月中国人民解放军总医院第一医学中心骨科的 20 例关节置换术后翻修患者(其中 10 例根据 2018 年 ICM 标准确诊为感染,其余 10 例验证为非感染),并根据 2018 年 ICM 标准对高倍野图像进行分类。然后,我们通过采用 resNET 模型将 576 张阳性图像和 576 张阴性图像输入神经网络,用于选择 461 张阳性图像和 461 张阴性图像作为训练集,57 张阳性图像和 31 张阴性图像作为内部验证集,115 张阳性图像和 115 张阴性图像作为外部测试集:结果:使用 resNET 模型对高倍视野下的 PJI 患者病理切片进行了分类分析。内部验证集的结果显示,阳性准确率为 96.49%,阴性准确率为 87.09%,平均准确率为 93.22%,平均召回率为 96.49%,F1 为 0.9482。外部测试结果的正向准确率为 97.39%,负向准确率为 93.04%,外部测试集的平均准确率为 93.33%,平均召回率为 97.39%,F1 为 0.9482。智能图像阅读诊断系统的 AUC 值为 0.8136:本研究利用卷积神经网络深度学习,对照急性感染的诊断标准,对关节周围软组织病理切片的高倍率图像进行识别,取得了较高的精确度和召回率。该技术的结果证实,在诊断准确性方面,新方法与标准策略相比可以取得更好的效果。在将卷积网络深度学习应用于临床实践之前,需要不断升级扩展训练集,以提高诊断准确率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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