Automatic Vertical Root Fracture Detection on Intraoral Periapical Radiographs With Artificial Intelligence-Based Image Enhancement.

IF 2.3 3区医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

Dental Traumatology Pub Date : 2025-01-19 DOI:10.1111/edt.13027

Sifa Ozsari, Kıvanç Kamburoğlu, Aviad Tamse, Suna Elçin Yener, Igor Tsesis, Funda Yılmaz, Eyal Rosen

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引用次数: 0

Abstract

Background/aim: To explore transfer learning (TL) techniques for enhancing vertical root fracture (VRF) diagnosis accuracy and to assess the impact of artificial intelligence (AI) on image enhancement for VRF detection on both extracted teeth images and intraoral images taken from patients.

Materials and methods: A dataset of 378 intraoral periapical radiographs comprising 195 teeth with fractures and 183 teeth without fractures serving as controls was included. DenseNet, ConvNext, Inception121, and MobileNetV2 were employed with model fusion. Prior to evaluation, Particle Swarm Optimization (PSO) and Deep Learning (DL) image enhancement were applied. Performance assessment included accuracy rate, precision, recall, F1-score, AUC, and kappa values. Intra- and inter-observer agreement, according to the Gold Standard (GS), were assessed using ICC and t-tests. Statistical significance was set at p < 0.05.

Results: The DenseNet + Inception fusion model achieved the highest accuracy rate of 0.80, with commendable recall, F1-score, and AUC values, supported by precision (0.81) and kappa (0.60) values. Molar tooth examination yielded an accuracy rate, precision, recall, and F1-score of 0.80, with an AUC of 0.84 and kappa of 0.60. For premolar teeth, the fusion network showed an accuracy rate of 0.78, an AUC of 0.78, and notable metrics, including F1-score (0.80), recall (0.85), precision (0.71), and kappa (0.55). ICC results demonstrated acceptable agreement (≥ 0.57 for molars, ≥ 0.52 for premolars).

Conclusion: TL methods have demonstrated significant potential in enhancing diagnostic accuracy for VRFs in radiographic imaging. TL is emerging as a valuable tool in the development of robust, automated diagnostic systems for VRF identification, ultimately supporting clinicians in delivering more accurate diagnoses.

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基于人工智能图像增强的口腔内根尖周x线片牙根垂直骨折自动检测。

背景/目的：探讨迁移学习（TL）技术在提高垂直牙根骨折（VRF）诊断准确性方面的应用，并评估人工智能（AI）对患者拔牙图像和口腔内图像进行垂直牙根骨折检测图像增强的影响。材料和方法：378张口腔内根尖周x线片，包括195颗骨折牙齿和183颗无骨折牙齿作为对照。采用DenseNet、ConvNext、Inception121和MobileNetV2进行模型融合。在评估之前，使用粒子群优化（PSO）和深度学习（DL）图像增强。绩效评估包括准确率、准确率、召回率、f1评分、AUC和kappa值。根据金标准（GS），使用ICC和t检验评估观察员内部和观察员之间的协议。结果：DenseNet + Inception融合模型的准确率最高，为0.80，召回率、f1评分和AUC值都很好，精度（0.81）和kappa（0.60）值也很好。磨牙检查的准确率、精密度、召回率和f1评分为0.80，AUC为0.84，kappa为0.60。对于前磨牙，融合网络的准确率为0.78，AUC为0.78，并且有显著的指标，包括f1评分（0.80）、召回率（0.85）、精度（0.71）和kappa（0.55）。ICC结果显示出可接受的一致性（磨牙≥0.57，前磨牙≥0.52）。结论：TL方法在提高vrf的放射成像诊断准确性方面具有显著的潜力。TL正在成为开发用于VRF识别的强大、自动化诊断系统的宝贵工具，最终支持临床医生提供更准确的诊断。

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来源期刊

Dental Traumatology 医学-牙科与口腔外科

CiteScore

6.40

自引率

32.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Dental Traumatology is an international journal that aims to convey scientific and clinical progress in all areas related to adult and pediatric dental traumatology. This includes the following topics: - Epidemiology, Social Aspects, Education, Diagnostics - Esthetics / Prosthetics/ Restorative - Evidence Based Traumatology & Study Design - Oral & Maxillofacial Surgery/Transplant/Implant - Pediatrics and Orthodontics - Prevention and Sports Dentistry - Endodontics and Periodontal Aspects The journal"s aim is to promote communication among clinicians, educators, researchers, and others interested in the field of dental traumatology.