光热治疗
化学
生物相容性
生物膜
牙周炎
纳米技术
促炎细胞因子
变形链球菌
合理设计
牙槽
光热效应
生物物理学
渗透(战争)
纳米载体
自愈水凝胶
背景(考古学)
药物输送
消毒剂
抗菌剂
壳聚糖
格氏链球菌
作者
Yinghui Wen,Yunfei Li,Tiannan Liu,Chongkui Sun,Hang Zhao,Yao Yuan,Shiping Yang,Tingxing Zhao,Jiang Liu
标识
DOI:10.1002/advs.202522853
摘要
ABSTRACT Periodontitis is a chronic inflammatory disease primarily driven by pathogenic biofilms, and affects more than 90% of the global population. The increasing prevalence of bacterial resistance, coupled with the protective nature of resilient biofilms, makes it challenging to achieve satisfactory therapeutic outcomes. In this study, an organic small molecule‐based photothermal reagent ( FNP ) with excellent photothermal property is designed by rational tailor of donor‐acceptor combinations, and a supramolecular nucleoside hydrogel ( ZBAg ) is developed via silver ion‐stabilized base pairing and dynamic boronate ester bonds. The ZBAg hydrogel exhibits a unique coordination mechanism distinct from the traditional intermolecular i ‐motif coordination mode. The ZBAg@FNP hydrogel is prepared by encapsulating FNP within ZBAg hydrogel, which demonstrates excellent biocompatibility and achieves controlled Ag + release triggered by localized hyperthermia. The ZBAg@FNP hydrogel can damage biofilm structure through photothermal therapy and then improves the penetration of Ag + into the biofilms, resulting in synergistic eradication of the biofilms of oral pathogenic bacteria ( Porphyromonas gingivalis and Streptococcus mutans ). ZBAg@FNP hydrogel treatment significantly reduces the levels of proinflammatory cytokines, increases the levels of anti‐inflammatory cytokines, and reduces alveolar resorption in periodontitis of rats. This study provides a new strategy for treating periodontitis, and offers insights into the design of antibiofilm materials.
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