Dental implants have revolutionized oral rehabilitation by offering reliable and functional solutions for tooth replacement. However, traditional implant designs often fail to fully address individual anatomical variations, leading to suboptimal outcomes in certain patients. The integration of additive manufacturing (AM) technologies—commonly known as 3D printing—has opened new horizons for the development of personalized oral implants tailored to each patient’s unique anatomical and functional needs. Additive manufacturing enables precise, patient-specific implant geometries, improved osseointegration, and enhanced esthetic and biomechanical performance. This personalized approach not only improves implant stability and longevity but also promotes better patient satisfaction and clinical success rates. This abstract explores the current advances in additive manufacturing for oral implantology, emphasizing its potential to transform personalized dental care and set new standards in precision medicine within dentistry.

Objectives:

1.To introduce the concept and significance of personalized oral implants in modern dentistry.
2.To explain the role of additive manufacturing technologies in designing and fabricating customized implants tailored to individual patient needs.
3.To highlight the clinical advantages of personalized implants, including improved fit, enhanced osseointegration, and superior aesthetic and functional outcomes.
4.To discuss current developments, challenges, and future perspectives in the integration of additive manufacturing for oral implantology.
5.To inspire dental professionals and researchers to adopt and further explore personalized solutions using advanced manufacturing techniques.