Next-Generation Strategies for Enamel Repair and Regeneration: Advances in Biomaterials and Translational Challenges
Eman M. Sedek, Ahmed A. Holiel
Abstract
BACKGROUND: Enamel regeneration and remineralization are critical for restoring enamel integrity, as natural enamel lacks the ability to regenerate due to the absence of ameloblasts. The increasing prevalence of dental caries and the irreversible nature of enamel damage highlight the need for advanced repair strategies. METHODS: This review examines the latest advancements in enamel regeneration and remineralization, focusing on biomaterials, nanotechnology-based approaches, and bioengineering strategies. Google Scholar, Scopus (Elsevier), and PubMed databases were used for the selection of literature. The search included key terms such as "enamel regeneration," "biomimetic enamel repair," "stem cell-based enamel regeneration," "nanotechnology in enamel repair," "hydroxyapatite enamel remineralization," and "biomaterials for enamel remineralization." RESULTS: Various strategies have been explored for enamel remineralization, including self-assembling peptides, dendrimers, hydrogels, and electrospun mats, each demonstrating varying success in laboratory and preclinical studies. While casein-phosphopeptide-stabilized amorphous calcium phosphate (CPP-ACP) combined with fluoride remains a widely used clinical remineralization agent, integrating CPP-ACP with nanotechnology is an emerging area requiring further research. Enamel bioengineering approaches utilizing stem/progenitor cells offer potential, though challenges remain in achieving clinical translation. CONCLUSION: Despite advancements, replicating the hierarchical structure and mechanical properties of natural enamel remains challenging. Nanotechnology-driven approaches, bioengineered scaffolds, and interdisciplinary collaboration hold promise for optimizing enamel regeneration techniques. Further research is necessary to enhance clinical applicability and develop scalable, effective treatments for enamel restoration.