Ya-Chi Chen, Ling Chen, Yu-Lin Lai, Wei-Ting Chang, Shyh-Yuan Lee
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引用次数: 0
Abstract
Aim: To evaluate a deep learning (DL) model for detecting keratinized gingiva (KG) in dental photographs and validate its clinical applicability using reference retainers for calibration.
Materials and methods: A total of 576 sextant photographs were selected from 32 subjects, each with three sets of photographs: iodine-stained, unstained and line-marked retainers. Relative keratinized gingiva width (rKGW) was measured using visual, functional and histochemical staining methods with reference retainers. A pre-trained DeepLabv3 model with ResNet50 backbone was fine-tuned to predict KG areas, which were then applied to the photographs with line-marked retainers for subsequent rKGW measurement.
Results: The AI model achieved a Dice coefficient of 93.30% and an accuracy of 93.32%. Using histochemical measurements as gold standards, the absolute differences in rKGW of AI measurements were statistically insignificant with visual (p = 0.935) and functional (p = 0.979) measurements. The adjusted difference between AI and histochemical measurements was 0.377 mm. AI closely matched histochemical measurements in the maxillary anterior region (0.011 mm, p = 0.903) but was significantly higher in the maxillary posterior region (0.327 mm, p < 0.05).
Conclusions: The proposed AI model is the first to reliably identify full-mouth KG, validated thoroughly using reference retainers. However, predictions for posterior teeth warrant further improvement.
目的:评价一种深度学习(DL)模型用于检测牙齿照片中的角化牙龈(KG),并使用参考固位器进行校准验证其临床适用性。材料与方法:选取32名受试者共576张六分仪照片,每张照片分为碘染色、未染色和有线标记的固位体三组。相对角化牙龈宽度(rKGW)采用视觉、功能和组织化学染色方法与参考固位体测定。使用ResNet50骨干网对预训练的DeepLabv3模型进行微调,以预测KG区域,然后将其应用于带有线标记固位器的照片,以进行后续的rKGW测量。结果:该模型的Dice系数为93.30%,准确率为93.32%。以组织化学测量为金标准,人工智能测量的rKGW的绝对差异在视觉(p = 0.935)和功能(p = 0.979)测量中无统计学意义。人工智能与组织化学测量的校正差为0.377 mm。AI与上颌前区(0.011 mm, p = 0.903)的组织化学测量结果非常吻合,但上颌后区(0.327 mm, p)的组织化学测量结果明显高于上颌后区(0.327 mm, p)。结论:本文提出的AI模型是第一个可靠识别全口KG的模型,并通过参考固位器进行了彻底验证。然而,对后牙的预测需要进一步的改进。
期刊介绍:
Journal of Clinical Periodontology was founded by the British, Dutch, French, German, Scandinavian, and Swiss Societies of Periodontology.
The aim of the Journal of Clinical Periodontology is to provide the platform for exchange of scientific and clinical progress in the field of Periodontology and allied disciplines, and to do so at the highest possible level. The Journal also aims to facilitate the application of new scientific knowledge to the daily practice of the concerned disciplines and addresses both practicing clinicians and academics. The Journal is the official publication of the European Federation of Periodontology but wishes to retain its international scope.
The Journal publishes original contributions of high scientific merit in the fields of periodontology and implant dentistry. Its scope encompasses the physiology and pathology of the periodontium, the tissue integration of dental implants, the biology and the modulation of periodontal and alveolar bone healing and regeneration, diagnosis, epidemiology, prevention and therapy of periodontal disease, the clinical aspects of tooth replacement with dental implants, and the comprehensive rehabilitation of the periodontal patient. Review articles by experts on new developments in basic and applied periodontal science and associated dental disciplines, advances in periodontal or implant techniques and procedures, and case reports which illustrate important new information are also welcome.
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