基于人工智能的根龋预测和分类(使用放射影像)。

IF 1.1 Q3 DENTISTRY, ORAL SURGERY & MEDICINE Minerva dental and oral science Pub Date : 2024-11-20 DOI:10.23736/S2724-6329.24.04967-2
Pradeep K Yadalam, Jeevitha Manickavasagam, Trisha Sasikumar, Maria M Marrapodi, Vincenzo Ronsivalle, Marco Cicciù, Giuseppe Minervini
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引用次数: 0

摘要

背景:根面龋,俗称蛀牙,是一种影响牙根的常见牙科疾病。与基于珐琅质的蛀牙一样,根面龋也会攻击因牙龈萎缩或牙周病而暴露的牙根表面。牙龈萎缩、牙齿脱落或口腔卫生不良的老年人可能更容易患上这种疾病。牙根龋必须及早诊断,以改善治疗和预防。本研究将研究基于放射影像的人工智能根龋预测算法:方法:Saveetha牙科学院提供了200张牙根表面X光片。牙科专家和牙科放射科医生确认 100 颗牙齿有龋齿,100 颗没有。对放射影像进行编辑和分割。Orange 是一种机器学习挤压网嵌入模型,采用 Naive Bayes、逻辑回归和神经网络来评估预测准确性。训练数据和测试数据各占 80/20。交叉验证、混淆矩阵和 ROC 分析评估了模型的性能。本研究考察了精确度和召回率:结果:奈夫贝叶斯和逻辑回归的准确率分别为 96% 和 100%,但龋齿图像分类的类准确率分别为-94% 和 100%:结论:基于人工智能的根龋预测利用放射影像将通过早期、准确和个性化的诊断和治疗改善牙科护理。通过适当的部署、研究和道德规范,人工智能与牙科的结合将使从业人员和患者受益。牙科专业人员和人工智能专家必须通力合作,最大限度地利用这项新技术。将人工智能整合到牙科中,通过使用放射影像预测根龋,可以显著改善根龋的诊断和治疗。这种早期检测可减少治疗需求和时间。牙科专业人员和人工智能专家之间的合作对于实现效益最大化至关重要。
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AI-based prediction and classification of root caries using radiographic images.

Background: Root surface caries, commonly known as root decay, is a common dental disorder that affects tooth roots. Like enamel-based tooth decay, root caries attack exposed root surfaces caused by gum recession or periodontal disease. Older persons with gum recession, tooth loss, or poor oral hygiene may be more likely to develop this disorder. Dental root caries must be diagnosed early to improve treatment and prevention. This research will examine radiographic image-based AI-based root caries prediction algorithms.

Methods: Saveetha Dental College supplied 200 root surface radiographs. An expert dentist and dental radiologist confirmed one hundred teeth with root caries and 100 without. Edited and segmented radiographic images. Orange, a machine learning squeeze net embedding model with Naive Bayes, Logistic Regression, and neural networks, was used to assess prediction accuracy. Training and test data were split 80/20. Cross-validation, confusion matrix, and ROC analysis assessed model performance. This study examined precision and recall.

Results: Naïve bayes and logistic regression have 96% and 100% accuracy, but class accuracy is -94% and 100% in image classification of root caries was seen.

Conclusions: AI-based root caries prediction utilizing radiographic images would improve dental care by diagnosing and treating early, accurately, and personalized. With appropriate deployment, research, and ethics, AI integration in dentistry could benefit practitioners and patients. Dental professionals and AI experts must work together to maximize this new technology.AI integration in dentistry can significantly improve root caries diagnosis and treatment by predicting root caries using radiographic images. This early detection reduces treatment need and time. Collaboration between dental professionals and AI experts is crucial for maximizing benefits.

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来源期刊
Minerva dental and oral science
Minerva dental and oral science DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
2.50
自引率
5.00%
发文量
61
期刊最新文献
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