This research introduces a transformative breakthrough in dental medicine through the development of an integrated system that combines artificial intelligence, 3D printing, and sustainable nanotechnology. The system is built on three key pillars: first, high-precision digital scanning, which captures highly detailed and accurate images of oral and dental structures; second, AI-driven algorithms, which analyze and process these data to design fully customized prosthetics, implants, and orthodontic devices tailored to the unique needs of each patient; and third, 3D printing with eco-friendly nano-enhanced materials, ensuring superior quality, durability, and biocompatibility.

The proposed system stands out by significantly reducing diagnostic and manufacturing time compared to conventional methods, while also lowering costs and promoting environmental sustainability through the use of advanced materials that minimize medical waste and ecological impact. Furthermore, this innovation enhances the patient experience by offering highly personalized and rapid treatment solutions, ultimately improving clinical outcomes and patient satisfaction.

This study aspires to redefine the future of dental prosthetics and digital dentistry by providing a comprehensive scientific model aligned with the Fourth Industrial Revolution and the Sustainable Development Vision 2030. By bridging advanced technology and medicine, the research contributes not only to advancing oral healthcare but also to supporting global sustainability efforts, thereby creating a positive impact on both human health and the environment.