Improving accuracy of early dental carious lesions detection using deep learning-based automated method

• Published in: Clinical oral investigations Vol. 27; no. 12; pp. 7663 - 7670
• Main Authors: Portella, Paula Dresch, de Oliveira, Lucas Ferrari, Ferreira, Mateus Felipe de Cássio, Dias, Bruna Cristine, de Souza, Juliana Feltrin, Assunção, Luciana Reichert da Silva
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2023; Springer Nature B.V
• Subjects: Accuracy; Algorithms; Automation; Child; Decision making; Deep Learning; Dental caries; Dental Caries - diagnostic imaging; Dental Caries - pathology; Dentistry; Humans; Lesions; Medicine; Neural networks; Neural Networks, Computer; Pediatrics; Students; Teeth; United States > US; Deep learning; Dental caries; Convolutional neural networks; Clinical decision-making
• ISSN: 1436-3771; 1432-6981; 1436-3771
• DOI: 10.1007/s00784-023-05355-x

Objective To investigate the effectiveness of a convolutional neural network (CNN) in detecting healthy teeth and early carious lesions on occlusal surfaces and to assess the applicability of this deep learning algorithm as an auxiliary aid. Materials and methods A total of 2,481 posterior teeth (2,459 permanent and 22 deciduous teeth) with varying stages of carious lesions were classified according to the International Caries Detection and Assessment System (ICDAS). After clinical evaluation, ICDAS 0 and 2 occlusal surfaces were photographed with a professional digital camera. VGG-19 was chosen as the CNN and the findings were compared with those of a reference examiner to evaluate its detection efficiency. To verify the effectiveness of the CNN as an auxiliary detection aid, three examiners (an undergraduate student (US), a newly graduated dental surgeon (ND), and a specialist in pediatric dentistry (SP) assessed the acquired images (Phase I). In Phase II, the examiners reassessed the same images using the CNN-generated algorithms. Results The training dataset consisted of 8,749 images, whereas the test dataset included 140 images. VGG-19 achieved an accuracy of 0.879, positive agreement of 0.827, precision of 0.949, negative agreement 0.800, and an F1-score of 0.887. In Phase I, the accuracy rates for examiners US, ND, and SP were 0.543, 0.771, and 0.807, respectively. In Phase II, the accuracy rates improved to 0.679, 0.886, and 0.857 for the respective examiners. The number of correct answers was significantly higher in Phase II than in Phase I for all examiners (McNemar test;P<0.05). Conclusions VGG-19 demonstrated satisfactory performance in the detection of early carious lesions, as well as an auxiliary detection aid. Clinical relevance Automated detection using deep learning algorithms is an important aid in detecting early caries lesions and improves the accuracy of the disease detection, enabling quicker and more reliable clinical decision-making.