Moe Thu Zar Aung, Sang-Heon Lim, Jiyong Han, Su Yang, Ju-Hee Kang, Jo-Eun Kim, Kyung-Hoe Huh, Won-Jin Yi, Min-Suk Heo, Sam-Sun Lee
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These networks were then assessed using a hold-out test dataset.</p><p><strong>Results: </strong>Among the 7 networks evaluated, the network trained with all 3 available groups achieved an average precision of 90.6%, a recall of 87.4%, and a Dice similarity coefficient (DSC) of 88.9%. The 3 networks trained using each of the 3 possible 2-group combinations also demonstrated reliable performance for mandibular canal segmentation, as follows: 1) PAN A and B exhibited a mean DSC of 87.9%, 2) PAN A and C displayed a mean DSC of 87.8%, and 3) PAN B and C demonstrated a mean DSC of 88.4%.</p><p><strong>Conclusion: </strong>This multi-device study indicated that the examined CNN-based deep learning approach can achieve excellent canal segmentation performance, with a DSC exceeding 88%. 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引用次数: 0
摘要
目的:本研究旨在提出一种深度学习模型,用于检测牙科全景X光片上的下颌管:从 3 台不同的机器上共收集了 2100 张全景照片 (PAN):RAYSCAN Alpha (n=700, PAN A)、OP-100 (n=700, PAN B) 和 CS8100 (n=700, PAN C)。最初,口腔颌面放射科医生对下颌管进行粗略标注。在深度学习分析中,采用 U-Net 架构的卷积神经网络 (CNN) 进行自动下颌管分割。使用代表 3 组所有可能组合的训练集对 7 个独立网络进行了训练。然后使用一个保留测试数据集对这些网络进行评估:结果:在接受评估的 7 个网络中,使用所有 3 个可用组别训练的网络的平均精确度为 90.6%,召回率为 87.4%,骰子相似系数(DSC)为 88.9%。使用 3 种可能的 2 组组合训练的 3 个网络在下颌管分割方面也表现出可靠的性能,具体如下:1) PAN A 和 B 的平均 DSC 为 87.9%;2) PAN A 和 C 的平均 DSC 为 87.8%;3) PAN B 和 C 的平均 DSC 为 88.4%:这项多设备研究表明,所研究的基于 CNN 的深度学习方法可以实现出色的管腔分割性能,DSC 超过 88%。此外,该研究还强调了在开发强大的深度学习网络时考虑全景X光片特征的重要性,而不是仅仅依赖于数据集的大小。
Deep learning-based automatic segmentation of the mandibular canal on panoramic radiographs: A multi-device study.
Purpose: The objective of this study was to propose a deep-learning model for the detection of the mandibular canal on dental panoramic radiographs.
Materials and methods: A total of 2,100 panoramic radiographs (PANs) were collected from 3 different machines: RAYSCAN Alpha (n=700, PAN A), OP-100 (n=700, PAN B), and CS8100 (n=700, PAN C). Initially, an oral and maxillofacial radiologist coarsely annotated the mandibular canals. For deep learning analysis, convolutional neural networks (CNNs) utilizing U-Net architecture were employed for automated canal segmentation. Seven independent networks were trained using training sets representing all possible combinations of the 3 groups. These networks were then assessed using a hold-out test dataset.
Results: Among the 7 networks evaluated, the network trained with all 3 available groups achieved an average precision of 90.6%, a recall of 87.4%, and a Dice similarity coefficient (DSC) of 88.9%. The 3 networks trained using each of the 3 possible 2-group combinations also demonstrated reliable performance for mandibular canal segmentation, as follows: 1) PAN A and B exhibited a mean DSC of 87.9%, 2) PAN A and C displayed a mean DSC of 87.8%, and 3) PAN B and C demonstrated a mean DSC of 88.4%.
Conclusion: This multi-device study indicated that the examined CNN-based deep learning approach can achieve excellent canal segmentation performance, with a DSC exceeding 88%. Furthermore, the study highlighted the importance of considering the characteristics of panoramic radiographs when developing a robust deep-learning network, rather than depending solely on the size of the dataset.
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