{"title":"利用卷积神经网络对X光片上的肩胛骨骨折进行检测和分类","authors":"Tai-Hua Yang, Yung-Nien Sun, Rong-Shiang Li, Ming-Huwi Horng","doi":"10.3390/diagnostics14212425","DOIUrl":null,"url":null,"abstract":"<p><strong>Objective: </strong>Scaphoid fractures, particularly occult and non-displaced fractures, are difficult to detect using traditional X-ray methods because of their subtle appearance and variability in bone density. This study proposes a two-stage CNN approach to detect and classify scaphoid fractures using anterior-posterior (AP) and lateral (LA) X-ray views for more accurate diagnosis.</p><p><strong>Methods: </strong>This study emphasizes the use of multi-view X-ray images (AP and LA views) to improve fracture detection and classification. The multi-view fusion module helps integrate information from both views to enhance detection accuracy, particularly for occult fractures that may not be visible in a single view. The proposed method includes two stages, which are stage 1: detect the scaphoid bone using Faster RCNN and a Feature Pyramid Network (FPN) for region proposal and small object detection. The detection accuracy for scaphoid localization is 100%, with Intersection over Union (IoU) scores of 0.8662 for AP views and 0.8478 for LA views. And stage 2: perform fracture classification using a ResNet backbone and FPN combined with a multi-view fusion module to combine features from both AP and LA views. This stage achieves a classification accuracy of 89.94%, recall of 87.33%, and precision of 90.36%.</p><p><strong>Results: </strong>The proposed model performs well in both scaphoid bone detection and fracture classification. The multi-view fusion approach significantly improves recall and accuracy in detecting fractures compared to single-view approaches. In scaphoid detection, both AP and LA views achieved 100% detection accuracy. In fracture detection, using multi-view fusion, the accuracy for AP views reached 87.16%, and for LA views, it reached 83.83%.</p><p><strong>Conclusions: </strong>The multi-view fusion model effectively improves the detection of scaphoid fractures, particularly in cases of occult and non-displaced fractures. The model provides a reliable, automated approach to assist clinicians in detecting and diagnosing scaphoid fractures more efficiently.</p>","PeriodicalId":11225,"journal":{"name":"Diagnostics","volume":"14 21","pages":""},"PeriodicalIF":3.0000,"publicationDate":"2024-10-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11545356/pdf/","citationCount":"0","resultStr":"{\"title\":\"The Detection and Classification of Scaphoid Fractures in Radiograph by Using a Convolutional Neural Network.\",\"authors\":\"Tai-Hua Yang, Yung-Nien Sun, Rong-Shiang Li, Ming-Huwi Horng\",\"doi\":\"10.3390/diagnostics14212425\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Objective: </strong>Scaphoid fractures, particularly occult and non-displaced fractures, are difficult to detect using traditional X-ray methods because of their subtle appearance and variability in bone density. This study proposes a two-stage CNN approach to detect and classify scaphoid fractures using anterior-posterior (AP) and lateral (LA) X-ray views for more accurate diagnosis.</p><p><strong>Methods: </strong>This study emphasizes the use of multi-view X-ray images (AP and LA views) to improve fracture detection and classification. The multi-view fusion module helps integrate information from both views to enhance detection accuracy, particularly for occult fractures that may not be visible in a single view. The proposed method includes two stages, which are stage 1: detect the scaphoid bone using Faster RCNN and a Feature Pyramid Network (FPN) for region proposal and small object detection. The detection accuracy for scaphoid localization is 100%, with Intersection over Union (IoU) scores of 0.8662 for AP views and 0.8478 for LA views. And stage 2: perform fracture classification using a ResNet backbone and FPN combined with a multi-view fusion module to combine features from both AP and LA views. This stage achieves a classification accuracy of 89.94%, recall of 87.33%, and precision of 90.36%.</p><p><strong>Results: </strong>The proposed model performs well in both scaphoid bone detection and fracture classification. The multi-view fusion approach significantly improves recall and accuracy in detecting fractures compared to single-view approaches. In scaphoid detection, both AP and LA views achieved 100% detection accuracy. In fracture detection, using multi-view fusion, the accuracy for AP views reached 87.16%, and for LA views, it reached 83.83%.</p><p><strong>Conclusions: </strong>The multi-view fusion model effectively improves the detection of scaphoid fractures, particularly in cases of occult and non-displaced fractures. 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引用次数: 0
摘要
目的:肩胛骨骨折,尤其是隐匿性骨折和非移位骨折,由于其外观细微且骨密度多变,很难通过传统的 X 光方法检测出来。本研究提出了一种两阶段 CNN 方法,利用前后(AP)和侧(LA)X 光视图检测肩胛骨骨折并对其进行分类,以获得更准确的诊断:本研究强调使用多视角 X 光图像(AP 和 LA 视图)来改进骨折检测和分类。多视角融合模块有助于整合两个视角的信息,提高检测的准确性,尤其是对于单个视角可能无法看到的隐性骨折。所提出的方法包括两个阶段,即第一阶段:使用 Faster RCNN 和特征金字塔网络(FPN)检测肩胛骨,以进行区域建议和小物体检测。肩胛骨定位的检测准确率为 100%,AP 视图和 LA 视图的联合交叉(IoU)得分分别为 0.8662 和 0.8478。第二阶段:使用 ResNet 骨干和 FPN,结合多视图融合模块,结合 AP 和 LA 视图的特征,进行骨折分类。该阶段的分类准确率为 89.94%,召回率为 87.33%,精确率为 90.36%:结果:所提出的模型在肩胛骨检测和骨折分类方面都表现良好。与单视角方法相比,多视角融合方法大大提高了检测骨折的召回率和准确率。在肩胛骨检测中,AP 和 LA 视图的检测准确率均达到 100%。在骨折检测中,使用多视图融合方法,AP 视图的准确率达到 87.16%,LA 视图的准确率达到 83.83%:结论:多视角融合模型能有效提高肩胛骨骨折的检测率,尤其是对隐匿性骨折和非移位骨折的检测率。该模型提供了一种可靠的自动化方法,可帮助临床医生更有效地检测和诊断肩胛骨骨折。
The Detection and Classification of Scaphoid Fractures in Radiograph by Using a Convolutional Neural Network.
Objective: Scaphoid fractures, particularly occult and non-displaced fractures, are difficult to detect using traditional X-ray methods because of their subtle appearance and variability in bone density. This study proposes a two-stage CNN approach to detect and classify scaphoid fractures using anterior-posterior (AP) and lateral (LA) X-ray views for more accurate diagnosis.
Methods: This study emphasizes the use of multi-view X-ray images (AP and LA views) to improve fracture detection and classification. The multi-view fusion module helps integrate information from both views to enhance detection accuracy, particularly for occult fractures that may not be visible in a single view. The proposed method includes two stages, which are stage 1: detect the scaphoid bone using Faster RCNN and a Feature Pyramid Network (FPN) for region proposal and small object detection. The detection accuracy for scaphoid localization is 100%, with Intersection over Union (IoU) scores of 0.8662 for AP views and 0.8478 for LA views. And stage 2: perform fracture classification using a ResNet backbone and FPN combined with a multi-view fusion module to combine features from both AP and LA views. This stage achieves a classification accuracy of 89.94%, recall of 87.33%, and precision of 90.36%.
Results: The proposed model performs well in both scaphoid bone detection and fracture classification. The multi-view fusion approach significantly improves recall and accuracy in detecting fractures compared to single-view approaches. In scaphoid detection, both AP and LA views achieved 100% detection accuracy. In fracture detection, using multi-view fusion, the accuracy for AP views reached 87.16%, and for LA views, it reached 83.83%.
Conclusions: The multi-view fusion model effectively improves the detection of scaphoid fractures, particularly in cases of occult and non-displaced fractures. The model provides a reliable, automated approach to assist clinicians in detecting and diagnosing scaphoid fractures more efficiently.
DiagnosticsBiochemistry, Genetics and Molecular Biology-Clinical Biochemistry
CiteScore
4.70
自引率
8.30%
发文量
2699
审稿时长
19.64 days
期刊介绍:
Diagnostics (ISSN 2075-4418) is an international scholarly open access journal on medical diagnostics. It publishes original research articles, reviews, communications and short notes on the research and development of medical diagnostics. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodological details must be provided for research articles.
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