抗菌牙科树脂的下一个前沿领域:20年的创新与期待之旅。
The next frontier in antibacterial dental resins: A 20-year journey of innovation and expectations.
作者信息
Melo Mary Anne S, Garcia Isadora Martini, Alluhaidan Tasneem, Qaw Masoumah, Montoya Carolina, Orrego Santiago, Balhaddad Abdulrahman A, Mokeem Lamia
机构信息
Dental Biomedical Sciences Ph.D. Program, University of Maryland School of Dentistry, Baltimore, MD 21201, USA; Division of Cariology & Operative Dentistry, Department of Comprehensive Dentistry, University of Maryland School of Dentistry, Baltimore, MD 21201, USA.
Dental Biomedical Sciences Ph.D. Program, University of Maryland School of Dentistry, Baltimore, MD 21201, USA; Division of Cariology & Operative Dentistry, Department of Comprehensive Dentistry, University of Maryland School of Dentistry, Baltimore, MD 21201, USA.
出版信息
Dent Mater. 2025 Sep;41(9):1045-1057. doi: 10.1016/j.dental.2025.06.013. Epub 2025 Jun 16.
OBJECTIVE
Dental resin composites remain fundamental in restorative dentistry, but premature failures often compromise their long-term success Secondary caries, driven by acidogenic bacteria, salivary enzymes, and mechanical stresses. These failures frequently require complete restoration replacement, leading to increased costs and further loss of healthy tooth structure.
DATA
This critical review examines two decades of relevant literature on innovation in antibacterial resin technologies, from early soluble additives (e.g., silver, fluoride, chlorhexidine) whose rapid leaching undermined mechanical performance to covalently bound quaternary ammonium monomers (QAMs) that provide durable, contact-active antimicrobial effects without significant filler loss. We further evaluate the integration of nanotechnology-metal-oxide nanoparticles, halloysite nanotubes, and graphene derivatives-to achieve sustained antimicrobial efficacy at low filler loadings, as well as emerging approaches using antimicrobial peptides, ionic liquids and piezoelectric fillers for environment-responsive action.
SOURCES
Peer-reviewed research articles and reviews were identified primarily via PubMed, Scopus, and Web of Science.
CONCLUSION
Early soluble additives effectively reduced bacteria, but they leached out too quickly, weakening the material. Quaternary ammonium compounds (QAMs) addressed this issue by offering long-lasting, surface-active antimicrobial properties. Nanofillers also provide sustained antimicrobial effects at low concentrations but face challenges such as particle clustering, potential toxicity, and uneven dispersion. New antimicrobial strategies like peptides, ionic liquids, and piezoelectric fillers show potential but face challenges such as biocompatibility, biofilm complexity, and limited real-world testing. Advancing these materials will require better preclinical models, cross-disciplinary collaboration, and computational tools to optimize antibacterial function and material strength.
目的
牙科树脂复合材料在修复牙科中仍然至关重要,但过早失效往往会影响其长期成功。由产酸细菌、唾液酶和机械应力导致的继发龋。这些失效常常需要完全更换修复体,从而导致成本增加和健康牙体结构的进一步丧失。
数据
本综述批判性地研究了二十年来有关抗菌树脂技术创新的相关文献,从早期的可溶性添加剂(如银、氟化物、洗必泰),其快速浸出会破坏机械性能,到共价结合的季铵单体(QAMs),其能提供持久的接触活性抗菌效果且不会有明显的填料损失。我们还评估了纳米技术——金属氧化物纳米颗粒、埃洛石纳米管和石墨烯衍生物的整合——以在低填料负载下实现持续的抗菌效果,以及使用抗菌肽、离子液体和压电填料实现环境响应作用的新方法。
来源
同行评审的研究文章和综述主要通过PubMed、Scopus和Web of Science进行识别。
结论
早期的可溶性添加剂能有效减少细菌,但它们浸出太快,会削弱材料性能。季铵化合物(QAMs)通过提供持久的表面活性抗菌特性解决了这个问题。纳米填料在低浓度下也能提供持续的抗菌效果,但面临颗粒聚集、潜在毒性和分散不均等挑战。肽、离子液体和压电填料等新的抗菌策略显示出潜力,但面临生物相容性、生物膜复杂性以及实际测试有限等挑战。推进这些材料的发展将需要更好的临床前模型、跨学科合作和计算工具,以优化抗菌功能和材料强度。
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