光热治疗
明胶
伤口愈合
材料科学
自愈水凝胶
生物医学工程
生物膜
再生医学
控制释放
抗菌活性
血管生成
组织粘连
纳米技术
基质金属蛋白酶
金黄色葡萄球菌
呋喃西林
抗菌剂
细胞外基质
化学
脚手架
抗生素
生物材料
光热效应
组织工程
生物物理学
粘附
抗菌剂
生物相容性
渗透(战争)
慢性伤口
作者
Tianhang Qi,Yunpeng Li,Yanan Guo,Shihao Sheng,Shujuan Jia,S. Kevin Zhou,Lu Bai,Xiuhui Wang,Chongru He,Zhen Geng,Qin Zhang,Jiacan Su
摘要
ABSTRACT Conventional wound dressings have challenges in achieving precise spatiotemporal coordination between antibacterial activity and tissue regeneration, leading to poor infection control and delayed healing. Herein, we report a photothermal‐responsive hydrogel for programmed antibacterial and regenerative remodeling with a controllable cascade response. The hydrogel incorporates matrix metalloproteinase (MMP) degradable polyethylene glycol (PEG) cross‐linked networks, thermosensitive gelatin, photothermal indocyanine green (ICG), and the antibiotic levofloxacin, allowing for controlled gel–sol transition and sequential therapeutic release upon near‐infrared (NIR) irradiation. Once implanted onto infected wounds in normal and diabetic rat models, NIR activation induces local heating of the hydrogel, facilitating dissolution of the gelatin and release of the antibiotic from the hydrogel matrix. Early stage antibacterial activities are achieved by both photothermal sterilization and antibiotic release into the wound site, markedly reducing bacterial viability and further inhibiting biofilm formation. In the subsequent regenerative stage, the released gelatin provides favorable adhesion sites for cells and promotes angiogenesis and tissue remodeling, thereby accelerating wound healing. This platform controllably orchestrates antibacterial and regenerative processes, offering a novel strategy for complex tissue repair.
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