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Predicting Mandibular Bone Growth Using Artificial Intelligence and Machine Learning: A Systematic Review Publisher



Dashti M1 ; Khosraviani F2 ; Azimi T3 ; Sehat MS4 ; Alekajbaf E5 ; Fahimipour A6 ; Zare N7
Authors
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Authors Affiliations
  1. 1. Dentofacial Deformities Research Center, Research Institute of Dental Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran
  2. 2. UCLA School of Dentistry, CA, United States
  3. 3. Orofacial Pain and Disfunction, UCLA School of Dentistry, CA, United States
  4. 4. Dental Implants Research Center, Dental Research Institute, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, Iran
  5. 5. Centro Escolar University, 9 Mendiola St, San Miguel, Metro Manila, Manila, 1008, Philippines
  6. 6. Discipline of Oral Surgery, Medicine and Diagnostics, Faculty of Medicine and Health, Westmead Hospital, The University of Sydney, 2145, NSW, Australia
  7. 7. Department of Operative Dentistry, University of Southern California, United States

Source: Advances in Artificial Intelligence and Machine Learning Published:2024


Abstract

Introduction. The accurate prediction of mandibular bone growth is crucial in orthodontics and maxillofacial surgery, impacting treatment planning and patient outcomes. Traditional methods often fall short due to their reliance on linear models and clinician expertise, which are prone to human error and variability. Artificial intelligence (AI) and machine learning (ML) offer advanced alternatives, capable of processing complex datasets to provide more accurate predictions. This systematic review examines the efficacy of AI and ML models in predicting mandibular growth compared to traditional methods. Method. A systematic review was conducted following the PRISMA guidelines, focusing on studies published up to July 2024. Databases searched included PubMed, Embase, Scopus, and Web of Science. Studies were selected based on their use of AI and ML algorithms for predicting mandibular growth. A total of 31 studies were identified, with 6 meeting the inclusion criteria. Data were extracted on study characteristics, AI models used, and prediction accuracy. The risk of bias was assessed using the QUADAS-2 tool. Results. The review found that AI and ML models generally provided high accuracy in predicting mandibular growth. For instance, the LASSO model achieved an average error of 1.41 mm for predicting skeletal landmarks. However, not all AI models outperformed traditional methods; in some cases, deep learning models were less accurate than conventional growth prediction models. Discussion. The variability in datasets and study designs across the included studies posed challenges for comparing AI models’ effectiveness. Additionally, the complexity of AI models may limit their clinical applicability. Despite these challenges, AI and ML show significant promise in enhancing predictive accuracy for mandibular growth. Conclusion. AI and ML models have the potential to revolutionize mandibular growth prediction, offering greater accuracy and reliability than traditional methods. However, further research is needed to standardize methodologies, expand datasets, and improve model interpretability for clinical integration. © 2024, Shimur Publications. All rights reserved.
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