Litcius/Paper detail

Automated chart filing on panoramic radiographs using deep learning

Shankeeth Vinayahalingam, Ru‐shan Goey, Steven Kempers, Julian Schoep, Teo Cherici, David Anssari Moin, Marcel Hanisch

2021Journal of Dentistry71 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: The aim of this study is to automatically detect, segment and label teeth, crowns, fillings, root canal fillings, implants and root remnants on panoramic radiographs (PR(s)). MATERIAL AND METHODS: As a reference, 2000 PR(s) were manually annotated and labeled. A deep-learning approach based on mask R-CNN with Resnet-50 in combination with a rule-based heuristic algorithm and a combinatorial search algorithm was trained and validated on 1800 PR(s). Subsquently, the trained algorithm was applied onto a test set consisting of 200 PR(s). F1 scores, as a measure of accuracy, were calculated to quantify the degree of similarity between the annotated ground-truth and the model predictions. The F1-score considers the harmonic mean of precison (positive predictive value) and recall (specificity). RESULTS: The proposes method achieved F1 scores up to 0.993, 0.952 and 0.97 for detection, segmentation and labeling, respectivley. CONCLUSION: The proposed method forms a promising foundation for the further development of automatic chart filing on PR(s). CLINICAL SIGNIFICANCE: Deep learning may assist clinicians in summarizing the radiological findings on panoramic radiographs. The impact of using such models in clinical practice should be explored.

Topics & Concepts

Artificial intelligenceGround truthChartComputer scienceSegmentationRadiographySimilarity (geometry)Deep learningPrecision and recallF1 scoreTest setSet (abstract data type)Pattern recognition (psychology)MedicineMathematicsImage (mathematics)RadiologyStatisticsProgramming languageDental Radiography and ImagingEndodontics and Root Canal TreatmentsDental Research and COVID-19