原位
生物相容性材料
姜黄素
纤维接头
纳米技术
材料科学
体内
血管生成
生物医学工程
伤口愈合
丝绸
组织重塑
纳米生物技术
炎症
体外
生物相容性
脚手架
伤口敷料
组织工程
作者
Yu-heng Song,Jing Li,Xueyong Li,Hongmei Liu,Zhou Sha,Yiran Ge,Xin Chen,Zhengzhong Shao,Xiang Fei,Meifang Zhu
摘要
ABSTRACT Developing surgical sutures with adjustable bioactivities is essential for diverse surgical interventions. However, adversely affecting their mechanical integrity, biocompatibility, and bioactivity poses a significant challenge. Herein, we present a silk‐based bioactive suture that incorporates silver nanoparticles (AgNPs) and curcumin (Cur) via a dual in situ integration strategy. This innovative approach leverages the unique reactive groups and molecular interactions inherent in silk to facilitate the in situ reduction of AgNPs and the conformal loading of Cur. Extensive in vitro and in vivo evaluations confirm the suture's multifunctionality. This suture excels in real‐time wound monitoring due to its sensitive colorimetric pH response. It is biocompatible and offers strong antibacterial and anti‐inflammatory benefits, essential for infection prevention and inflammation control postsurgery. Moreover, it actively aids wound healing by promoting angiogenesis and collagen deposition, vital for effective tissue repair. This approach provides a promising foundation for creating advanced smart sutures with on‐demand bioactivities and on‐site monitoring capabilities.
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