Deep learning architectures in dental diagnostics: a systematic comparison of techniques for accurate prediction of dental disease through x-ray imaging

IF 2.2 Q3 COMPUTER SCIENCE, CYBERNETICS International Journal of Intelligent Computing and Cybernetics Pub Date : 2023-10-30 DOI:10.1108/ijicc-08-2023-0230
Muhammad Adnan Hasnain, Hassaan Malik, Muhammad Mujtaba Asad, Fahad Sherwani
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Abstract

Purpose The purpose of the study is to classify the radiographic images into three categories such as fillings, cavity and implant to identify dental diseases because dental disease is a very common dental health problem for all people. The detection of dental issues and the selection of the most suitable method of treatment are both determined by the results of a radiological examination. Dental x-rays provide important information about the insides of teeth and their surrounding cells, which helps dentists detect dental issues that are not immediately visible. The analysis of dental x-rays, which is typically done by dentists, is a time-consuming process that can become an error-prone technique due to the wide variations in the structure of teeth and the dentist's lack of expertise. The workload of a dental professional and the chance of misinterpretation can be decreased by the availability of such a system, which can interpret the result of an x-ray automatically. Design/methodology/approach This study uses deep learning (DL) models to identify dental diseases in order to tackle this issue. Four different DL models, such as ResNet-101, Xception, DenseNet-201 and EfficientNet-B0, were evaluated in order to determine which one would be the most useful for the detection of dental diseases (such as fillings, cavity and implant). Findings Loss and accuracy curves have been used to analyze the model. However, the EfficientNet-B0 model performed better compared to Xception, DenseNet-201 and ResNet-101. The accuracy, recall, F1-score and AUC values for this model were 98.91, 98.91, 98.74 and 99.98%, respectively. The accuracy rates for the Xception, ResNet-101 and DenseNet-201 are 96.74, 93.48 and 95.65%, respectively. Practical implications The present study can benefit dentists from using the DL model to more accurately diagnose dental problems. Originality/value This study is conducted to evaluate dental diseases using Convolutional neural network (CNN) techniques to assist dentists in selecting the most effective technique for a particular clinical condition.
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牙科诊断中的深度学习架构:通过x射线成像准确预测牙科疾病的技术的系统比较
本研究的目的是将x线摄影图像分为填充物,腔体和种植体三类,以识别牙齿疾病,因为牙齿疾病是所有人非常常见的牙齿健康问题。牙齿问题的发现和选择最合适的治疗方法都是由放射检查的结果决定的。牙科x光提供了关于牙齿内部和周围细胞的重要信息,这有助于牙医发现不能立即看到的牙齿问题。牙科x光片的分析通常由牙医完成,这是一个耗时的过程,由于牙齿结构的巨大差异和牙医缺乏专业知识,这一过程容易出错。这种可以自动解释x光结果的系统的可用性可以减少牙科专业人员的工作量和误解的机会。设计/方法/方法本研究使用深度学习(DL)模型来识别牙齿疾病,以解决这一问题。我们对ResNet-101、Xception、DenseNet-201和EfficientNet-B0四种不同的深度学习模型进行了评估,以确定哪一种模型对牙齿疾病(如填充物、空腔和种植体)的检测最有用。损失曲线和准确度曲线对模型进行了分析。然而,与Xception、DenseNet-201和ResNet-101相比,EfficientNet-B0模型表现更好。该模型的准确率为98.91,召回率为98.91,f1得分为98.74,AUC为99.98%。Xception、ResNet-101和DenseNet-201的准确率分别为96.74、93.48和95.65%。实际意义本研究可以帮助牙医使用DL模型更准确地诊断牙齿问题。原创性/价值本研究使用卷积神经网络(CNN)技术来评估牙病,以帮助牙医针对特定的临床情况选择最有效的技术。
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来源期刊
CiteScore
6.80
自引率
4.70%
发文量
26
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