Evaluation of the mandibular canal and the third mandibular molar relationship by CBCT with a deep learning approach.

IF 1.6 3区医学 Q3 DENTISTRY, ORAL SURGERY & MEDICINE

Oral Radiology Pub Date : 2024-12-11 DOI:10.1007/s11282-024-00793-z

Suay Yağmur Ünal, Filiz Namdar Pekiner

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引用次数: 0

Abstract

Objective: The mandibular canal (MC) houses the inferior alveolar nerve. Extraction of the mandibular third molar (MM3) is a common dental surgery, often complicated by nerve damage. CBCT is the most effective imaging method to assess the relationship between MM3 and MC. With advancements in artificial intelligence, deep learning has shown promising results in dentistry. The aim of this study is to evaluate the MC-MM3 relationship using CBCT and a deep learning technique, as well as to automatically segment the mandibular impacted third molar, mandibular canal, mental and mandibular foramen.

Methods: This retrospective study analyzed CBCT data from 300 patients. Segmentation was used for labeling, dividing the data into training (n = 270) and test (n = 30) sets. The nnU-NetV2 architecture was employed to develop an optimal deep learning model. The model's success was validated using the test set, with metrics including accuracy, sensitivity, precision, Dice score, Jaccard index, and AUC.

Results: For the MM3 annotated on CBCT, the accuracy was 0.99, sensitivity 0.90, precision 0.85, Dice score 0.85, Jaccard index 0.78, AUC value 0.95. In MC evaluation, accuracy was 0.99, sensitivity 0.75, precision 0.78, Dice score 0.76, Jaccard index 0.62, AUC value 0.88. For the evaluation of mental foramen; accuracy 0.99, sensitivity 0.64, precision 0.66, Dice score 0.64, Jaccard index 0.57, AUC value 0.82. In the evaluation of mandibular foramen, accuracy was found to be 0.99, sensitivity 0.79, precision 0.68, Dice score 0.71, and AUC value 0.90. Evaluating the MM3-MC relationship, the model showed an 80% correlation with observer assessments.

Conclusion: The nnU-NetV2 deep learning architecture reliably identifies the MC-MM3 relationship in CBCT images, aiding in diagnosis, surgical planning, and complication prediction.

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基于深度学习方法的CBCT评价下颌管与下颌第三磨牙关系。

目的：下颌管（MC）容纳下牙槽神经。下颌第三磨牙（MM3）的拔除是一种常见的牙科手术，常伴有神经损伤。CBCT是评估MM3和MC之间关系最有效的成像方法。随着人工智能的进步，深度学习在牙科领域显示出了很好的效果。本研究的目的是利用CBCT和深度学习技术来评估MC-MM3的关系，并自动分割下颌阻生第三磨牙、下颌管、颏孔和下颌孔。方法：回顾性分析300例患者的CBCT数据。使用分割进行标记，将数据分为训练集（n = 270）和测试集（n = 30）。采用nnU-NetV2架构构建最优深度学习模型。使用测试集验证了模型的成功，包括准确性、灵敏度、精度、骰子分数、Jaccard指数和AUC。结果：CBCT上标注MM3的准确度为0.99，灵敏度为0.90，精密度为0.85，Dice评分为0.85，Jaccard指数为0.78，AUC值为0.95。MC评价的准确度为0.99，灵敏度为0.75，精密度为0.78，Dice评分为0.76，Jaccard指数为0.62，AUC值为0.88。用于评价精神孔；准确度0.99，灵敏度0.64，精密度0.66，Dice评分0.64，Jaccard指数0.57，AUC值0.82。评价下颌孔的准确度为0.99，灵敏度为0.79，精度为0.68，Dice评分为0.71，AUC值为0.90。评估MM3-MC关系，该模型显示与观察者评估的相关性为80%。结论：nnU-NetV2深度学习架构可靠地识别CBCT图像中的MC-MM3关系，有助于诊断、手术计划和并发症预测。

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

Oral Radiology DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

4.20

自引率

13.60%

发文量

审稿时长

>12 weeks

期刊介绍： As the official English-language journal of the Japanese Society for Oral and Maxillofacial Radiology and the Asian Academy of Oral and Maxillofacial Radiology, Oral Radiology is intended to be a forum for international collaboration in head and neck diagnostic imaging and all related fields. Oral Radiology features cutting-edge research papers, review articles, case reports, and technical notes from both the clinical and experimental fields. As membership in the Society is not a prerequisite, contributions are welcome from researchers and clinicians worldwide.