生物膜
纳米技术
化学
重编程
群体感应
多酚
生物相容性材料
生化工程
渗透(战争)
生物物理学
合成生物学
材料科学
生物污染
设计要素和原则
限制
细胞代谢
智能材料
作者
Yiyan Yang,Liang Zhang,Jianhua Zhang,Rong Zhang,Hengjie Zhang,M. Li,Zhipeng Gu,Yiwen Li,Lei Yang
出处
期刊:Small
[Wiley]
日期:2026-03-17
卷期号:22 (26): e14977-e14977
标识
DOI:10.1002/smll.202514977
摘要
The physical eradication of bacterial biofilms is fundamentally limited by rapid post-treatment regeneration. A strategy that integrates physical destruction with biological suppression is therefore highly coveted. Herein, we introduce a strategy to chemically reprogram magnetic liquid metals (LMs) into intelligent antibiofilm nanocomposites. Through a one-step metal-phenolic coordination, we coat the LM with a natural polyphenol (baicalin, BA), creating a nanoplatform (MBA) that executes a synergistic "destroy-and-pacify" mission. This design establishes a self-reinforcing loop: magnetic actuation provides the mechanical force to breach the biofilm matrix, enhancing the penetration of the BA coating. Concurrently, the BA-mediated inhibition of quorum sensing and EPS synthesis pre-weakens the biofilm, making it more susceptible to physical ablation. This reciprocal potentiation leads to exceptional efficacy, more than doubling the clearance efficiency of mature P. aeruginosa biofilms on implants in a murine model and achieving a level of eradication unattainable by monotherapies. This work establishes a new paradigm for designing smart theranostic microrobots, paving the way for programmable platforms to tackle complex biological barriers.
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