Pediatric dentistry is undergoing a paradigm shift toward biologically driven therapies that aim to preserve natural tissues, modulate the oral microbiome, and enhance host responses rather than relying solely on mechanical or restorative interventions. These approaches align with modern concepts of minimally invasive dentistry, emphasizing prevention, regeneration, and long-term oral health in children.
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✅ Definition of Biological Therapies in Pediatric Dentistry
Biological therapies in pediatric dentistry refer to treatment strategies that leverage natural biological processes—such as remineralization, microbial modulation, immune regulation, and tissue regeneration—to prevent or manage oral diseases in children.
These therapies seek to control disease progression rather than simply remove diseased tissue, offering a child-centered and conservative approach.
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Caries as a Biofilm-Mediated Disease
Dental caries is currently understood as a dysbiosis-driven process, characterized by an imbalance in the oral microbiome rather than a purely infectious condition. This understanding supports therapies that restore microbial balance and enhance enamel resistance.
Key Biological Strategies
▪️ Topical fluorides and silver diamine fluoride (SDF) to arrest caries and enhance remineralization
▪️ Calcium-phosphate-based agents (CPP-ACP, bioactive glass) to promote enamel repair
▪️ Probiotics and prebiotics to modulate cariogenic biofilms
▪️ pH modulation therapies to reduce acidogenic challenges
These interventions have demonstrated effectiveness in reducing caries progression, particularly in high-risk pediatric populations.
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The integration of biological therapies represents a fundamental change in pediatric dental care. Instead of emphasizing operative treatment, clinicians can prioritize risk-based prevention, disease control, and tissue preservation. However, variability in clinical protocols, limited long-term pediatric data, and cost considerations remain challenges for widespread adoption.
Nevertheless, current evidence supports the use of biological therapies as adjuncts or alternatives to conventional methods, particularly in young or anxious children.
🎯 Clinical Recommendations
Incorporate biological therapies as part of individualized caries risk management
Use non-invasive and child-friendly treatments whenever possible
Combine biological approaches with behavioral guidance and oral hygiene education
Stay updated with evidence-based protocols and emerging research
Educate parents about the preventive and regenerative goals of these therapies
✍️ Conclusion
Biological therapies represent the future of pediatric dentistry, offering effective, minimally invasive solutions for managing caries and gingival conditions in children. By focusing on disease modulation and tissue preservation, these approaches support sustainable oral health outcomes and improved patient experiences.
📊 Comparative Table: Preventive Caries Measures in the Dental Office
| Preventive Strategy | Biological Benefit | Clinical Considerations |
|---|---|---|
| Topical fluoride application | Enhances enamel remineralization and acid resistance | Requires periodic professional application |
| Silver diamine fluoride (SDF) | Arrests active caries and reduces bacterial activity | May cause tooth discoloration |
| Calcium-phosphate agents | Promote enamel repair and mineral balance | Effectiveness depends on patient compliance |
| Probiotic therapy | Modulates oral microbiome toward health-associated species | Limited long-term pediatric evidence |
✔ American Academy of Pediatric Dentistry. (2023). Guideline on caries-risk assessment and management for infants, children, and adolescents. Pediatric Dentistry, 45(6), 289–301.
✔ Frencken, J. E., Innes, N. P. T., & Schwendicke, F. (2019). Managing carious lesions: Consensus recommendations on minimally invasive dentistry. Journal of Dental Research, 98(3), 249–256. https://doi.org/10.1177/0022034518820434
✔ Gao, S. S., Zhang, S., Mei, M. L., Lo, E. C. M., & Chu, C. H. (2016). Caries remineralisation and arresting effect in children by professionally applied fluoride treatment: A systematic review. BMC Oral Health, 16, 12. https://doi.org/10.1186/s12903-016-0171-6
✔ Marsh, P. D., Zaura, E. (2017). Dental biofilm: Ecological interactions in health and disease. Journal of Clinical Periodontology, 44(Suppl 18), S12–S22. https://doi.org/10.1111/jcpe.12679
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