牙本质
生物相容性
化学
生物膜
光热治疗
再生(生物学)
牙髓干细胞
纳米技术
生物物理学
牙髓(牙)
变形链球菌
生物医学工程
组织工程
光热效应
纳米颗粒
光敏剂
材料科学
无定形磷酸钙
抗菌活性
透明质酸
生物相容性材料
生物降解
控制释放
化学工程
牙本质小管
生物材料
脱盐
伤口愈合
作者
Luyao Yi,Junxue Gao,Zhengrong Yin,Cui Huang,Taolei Sun,Guanbin Gao,Zhengyi Fu,Zhaoyong Zou
出处
期刊:ACS Nano
[American Chemical Society]
日期:2025-12-12
卷期号:19 (50): 42419-42435
被引量:3
标识
DOI:10.1021/acsnano.5c14982
摘要
Bacterial invasion compromises the inherent reparative capability of dentin, leading to caries progression. Designing an effective strategy to simultaneously restore the dentin structure and combat oral biofilms remains a great challenge. This study presents a single-step biomimetic approach that employs carboxyl-functionalized gold nanoparticles (AuNPs-COOH) as a noncollagenous protein analogue to generate nanoparticle-induced liquid precursor (NILP) for synergistic dentin regeneration and antibacterial therapy. The AuNPs-COOH stabilize amorphous calcium phosphate precursors and induce intrafibrillar mineralization, thereby restoring the hierarchical architecture and mechanical properties of dentin (elastic modulus: 24.42 GPa; hardness: 1.06 GPa), closely matching those of sound dentin (24.84 and 1.15 GPa, respectively) and surpassing conventional polymer-induced remineralization. The remineralized dentin exhibits dual antibacterial functionalities activated by near-infrared (NIR) light: photothermal effect and photodynamic generation of reactive oxygen species. This NIR-activated system significantly inhibits Streptococcus mutans biofilm formation in vitro, reducing biofilm biomass to 10–20% of control levels under both immediate and long-term conditions, and demonstrates robust antibacterial efficacy in vivo. Furthermore, the remineralized dentin exhibits excellent biocompatibility with dental pulp stem cells and minimal systemic toxicity in animal models. The AuNPs-COOH-mediated NILP system thus offers a synergistic strategy for functional dentin regeneration and caries prevention.
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