Aim: Accurately identifying primary lesions in oral medicine, particularly elementary white lesions, is a significant challenge, especially for trainee dentists. This study aimed to develop and evaluate a deep learning (DL) model for the detection and classification of elementary white mucosal lesions (EWMLs) using clinical images. Materials and Methods: A dataset was created by collecting photographs of various oral lesions, including oral leukoplakia, OLP plaque-like and reticular forms, OLL, oral candidiasis, and hyperkeratotic lesions from the Unit of Oral Medicine. The SentiSight.AI (Neurotechnology Co.®, Vilnius, Lithuania) AI platform was used for image labeling and model training. The dataset comprised 221 photos, divided into training (n = 179) and validation (n = 42) sets. Results: The model achieved an overall precision of 77.2%, sensitivity of 76.0%, F1 score of 74.4%, and mAP of 82.3%. Specific classes, such as condyloma and papilloma, demonstrated high performance, while others like leucoplakia showed room for improvement. Conclusions: The DL model showed promising results in detecting and classifying EWMLs, with significant potential for educational tools and clinical applications. Expanding the dataset and incorporating diverse image sources are essential for improving model accuracy and generalizability.

La Mantia, G., Kiswarday, F., Pizzo, G., Giuliana, G., Oteri, G., Cimino, M.G.C.A., et al. (2024). Detection of Elementary White Mucosal Lesions by an AI System: A Pilot Study. ORAL, 4(4), 557-566 [10.3390/oral4040043].

Detection of Elementary White Mucosal Lesions by an AI System: A Pilot Study

La Mantia, Gaetano
;
Pizzo, Giuseppe;Giuliana, Giovanna;Di Fede, Olga;Campisi, Giuseppina
2024-11-14

Abstract

Aim: Accurately identifying primary lesions in oral medicine, particularly elementary white lesions, is a significant challenge, especially for trainee dentists. This study aimed to develop and evaluate a deep learning (DL) model for the detection and classification of elementary white mucosal lesions (EWMLs) using clinical images. Materials and Methods: A dataset was created by collecting photographs of various oral lesions, including oral leukoplakia, OLP plaque-like and reticular forms, OLL, oral candidiasis, and hyperkeratotic lesions from the Unit of Oral Medicine. The SentiSight.AI (Neurotechnology Co.®, Vilnius, Lithuania) AI platform was used for image labeling and model training. The dataset comprised 221 photos, divided into training (n = 179) and validation (n = 42) sets. Results: The model achieved an overall precision of 77.2%, sensitivity of 76.0%, F1 score of 74.4%, and mAP of 82.3%. Specific classes, such as condyloma and papilloma, demonstrated high performance, while others like leucoplakia showed room for improvement. Conclusions: The DL model showed promising results in detecting and classifying EWMLs, with significant potential for educational tools and clinical applications. Expanding the dataset and incorporating diverse image sources are essential for improving model accuracy and generalizability.
14-nov-2024
Settore MEDS-16/A - Malattie odontostomatologiche
La Mantia, G., Kiswarday, F., Pizzo, G., Giuliana, G., Oteri, G., Cimino, M.G.C.A., et al. (2024). Detection of Elementary White Mucosal Lesions by an AI System: A Pilot Study. ORAL, 4(4), 557-566 [10.3390/oral4040043].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/663433
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