Abstract
BACKGROUND: Advancements in artificial intelligence (AI) have paved the way for ultra-customized aesthetic solutions in dentistry, particularly in smile design. Conventional smile design methods often fall short in providing a fully personalized outcome, necessitating the development of AI-enhanced software to optimize results by considering facial features, dental parameters, and patient preferences. MATERIALS AND METHODS: A prototype AI-enhanced smile design software was developed using a combination of convolutional neural networks for facial analysis and generative adversarial networks for creating customized smile designs. The study involved 50 participants, each undergoing facial feature scanning, digital dental impressions, and patient-specific aesthetic input collection. The software's performance was evaluated based on user satisfaction, aesthetic quality, and procedural efficiency. A comparison was made with conventional smile design methods to assess improvements in outcomes. RESULTS: The AI-enhanced software demonstrated significant improvements in aesthetic outcomes and efficiency. The mean patient satisfaction score was 9.2/10 compared to 7.5/10 with conventional methods. Aesthetic quality was rated higher by experts (mean score: 8.8/10 vs. 7.3/10), and the time required for smile design reduced by 40%. The integration of AI allowed for more precise customization, aligning with patient preferences and anatomical considerations. CONCLUSION: The development of AI-enhanced smile design software represents a significant step toward achieving ultra-customized aesthetic outcomes in dentistry. By integrating advanced facial analysis and design algorithms, the software offers a superior alternative to conventional methods, promising enhanced satisfaction, efficiency, and aesthetic precision.