Abstract
Background/Objectives: Tooth autotransplantation is a natural tooth replacement method that preserves the periodontal ligament, supporting root development and alveolar bone remodeling. Unlike dental implants, autotransplanted teeth maintain sensory function and adapt better to the mouth. Although once overlooked, new surgical, imaging, and regenerative advances have revived interest in this technique. This narrative review explores the renewed interest in tooth autotransplantation by assessing its benefits, success rates, technological advancements, and role in modern dentistry while evaluating its advantages, limitations, and potential impact on dental care. Methods: A narrative approach was used to provide a comprehensive and descriptive overview of current knowledge on tooth autotransplantation. A literature search was conducted in PubMed, Scopus, and Google Scholar using keywords such as "tooth autotransplantation", "biological tooth replacement", "periodontal ligament", and "dental implants alternative". English-language articles published between 2000 and 2025 were included, covering clinical trials, reviews, and relevant case reports. Selection focused on studies discussing biological mechanisms, clinical techniques, technological advances, and treatment outcomes. Results: Success rates range from 80% to 95%, with better predictability in younger patients with immature donor teeth. Long-term viability depends on preserving the PDL and performing atraumatic extractions. However, challenges such as root resorption, ankylosis, and appropriate case selection remain significant considerations. Technological advancements, including CBCT, 3D-printed surgical guides, and biomimetic storage media, have improved surgical precision and clinical outcomes. Conclusions: Tooth autotransplantation is an effective and cost-effective alternative to dental implants, particularly for growing patients or when implants are not suitable. While success depends on surgical skill and proper case selection, improvements in imaging and regenerative techniques have made outcomes more predictable. Future advances in bioengineering, AI-based planning, and regenerative therapies are likely to expand their use in modern dentistry.