YOLO-V5 based deep learning approach for tooth detection and segmentation on pediatric panoramic radiographs in mixed dentition

YOLO-V5 based deep learning approach for tooth detection and segmentation on pediatric panoramic radiographs in mixed dentition

Blog Article

Abstract Objectives In the interpretation of panoramic radiographs (PRs), the altitude sunscreen identification and numbering of teeth is an important part of the correct diagnosis.This study evaluates the effectiveness of YOLO-v5 in the automatic detection, segmentation, and numbering of deciduous and permanent teeth in mixed dentition pediatric patients based on PRs.Methods A total of 3854 mixed pediatric patients PRs were labelled for deciduous and permanent teeth using the CranioCatch labeling program.The dataset was divided into three subsets: training (n = 3093, 80% of the total), validation (n = 387, 10% of the total) and test (n = 385, 10% of the total).

An artificial intelligence (AI) algorithm using YOLO-v5 models were developed.Results The sensitivity, precision, F-1 score, and mean average precision-0.5 simply southern cat shirt (mAP-0.5) values were 0.

99, 0.99, 0.99, and 0.98 respectively, to teeth detection.

The sensitivity, precision, F-1 score, and mAP-0.5 values were 0.98, 0.98, 0.

98, and 0.98, respectively, to teeth segmentation.Conclusions YOLO-v5 based models can have the potential to detect and enable the accurate segmentation of deciduous and permanent teeth using PRs of pediatric patients with mixed dentition.