Abstract
Artificial intelligence (AI) applications have significantly improved our everyday quality of life. The last decade has witnessed the emergence of up-and-coming applications in the field of dentistry. It is hopeful that AI, especially machine learning (ML), due to its powerful capacity for image processing and decision support systems, will find extensive application in orthodontics in the future. We performed a comprehensive literature review of the latest studies on the application of ML in orthodontic procedures, including diagnosis, decision-making and treatment. Machine learning models have been found to perform similar to or with even higher accuracy than humans in landmark identification, skeletal classification, bone age prediction, and tooth segmentation. Meanwhile, compared to human experts, ML algorithms allow for high agreement and stability in orthodontic decision-making procedures and treatment effect evaluation. However, current research on ML raises important questions regarding its interpretability and dataset sample reliability. Therefore, more collaboration between orthodontic professionals and technicians is urged to achieve a positive symbiosis between AI and the clinic.
Highlights
The goal of orthodontic treatment is to restore individual normal occlusion and improve facial attractiveness in patients with malocclusion
It is hopeful that Artificial intelligence (AI), especially machine learning (ML), due to its powerful capacity for image processing and decision support systems, will find extensive application in orthodontics in the future
The diagnosis of malocclusion is made with an accurate measurement of distance, planes and angles according to landmarks of soft and hard tissues using lateral cephalogram and cone-beam computed tomography (CBCT)
Summary
The goal of orthodontic treatment is to restore individual normal occlusion and improve facial attractiveness in patients with malocclusion. Multiple factors including tooth health, arch width and smile esthetics need to be taken into consideration to achieve an optimal clinical effect.[3] due to higher risk, the choice of orthodontic-orthognathic combined treatment calls for caution, especially in patients with severe skeletal malocclusion and asymmetric jaw deformity.[4] Overall, orthodontic decision-making greatly influences the long-term prognosis, but, due to a lack of consensus on complicated cases, plans can vary among different orthodontists and even different cases treated by the same orthodontists. Tooth segmentation based on artificial intelligence (AI) has become a promising method to acquire high precision
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
