生物相容性
化学
阳离子聚合
抗菌剂
牙周炎
抗菌活性
牙槽
骨愈合
再生(生物学)
细胞毒性
抗生素
药理学
共价键
脚手架
抗菌剂
聚合
生物活性
伤口愈合
生物化学
细胞存活
控制释放
骨组织
药品
组织修复
生物物理学
变形链球菌
炎症
牙科
化脓性链球菌
生物医学工程
作者
Yimeng Xie,Yuedi Yu,Yuedi Yu,Zhengwei Cai,Jian Sun,Wei Bi,Fei Yang,Qianrong Zhou,Xingwen Wu,Ruixue Li,Keshi Zhu,Youcheng Yu,Youcheng Yu,Wenguo Cui,Wenjuan Liu,Yang Sun
标识
DOI:10.1016/j.mtbio.2025.102461
摘要
Due to the barrier effect of dental plaque and the growing issue of antibiotic resistance, the efficacy of conventional antimicrobial agents against oral pathogens has progressively declined. Chronic periodontal infections are recalcitrant to eradication and exert inhibitory effects on bone repair and regeneration, representing one of the primary challenges in the management of periodontitis-induced bone defects. In this study, we developed an injectable cationic photopolymerizable dual-crosslinked O-HAMA/GelMA/PLL hydrogel. The aldehyde groups on oxidized HAMA undergo a Schiff base reaction with the amino groups of ε-polylysine (ε-PLL), forming dynamic crosslinks. Subsequently, blue light triggers a radical polymerization of the double bonds present in GelMA and O-HAMA, creating a secondary layer of covalent crosslinks. This dual-crosslinked structure enables the sustained release of the cationic antimicrobial peptide ε-PLL for up to 14 days, demonstrating superior controlled-release properties. Furthermore, the hydrogel exhibits excellent biocompatibility and enhanced mechanical strength, thus fulfilling the requirements for clinical applications. The in vivo bone repair efficacy was assessed using rat cranial defect and periodontitis models. The results indicated that the O-HAMA/GelMA/PLL hydrogel improves the inflammatory microenvironment through sustained antibacterial activity and promotes bone tissue regeneration. This strategy offers strong antibacterial performance and shows promising potential for the repair of alveolar bone defects caused by periodontitis.
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