海绵
芦荟
伤口愈合
脚手架
化学
光热治疗
伤口敷料
自愈
纳米技术
渗出液
表面改性
组织工程
真皮
生物医学工程
合理设计
膜
材料科学
人造皮肤
伤口护理
抗菌活性
多孔性
作者
Yingjuan Yao,Junyi Xu,Yunzhu Zhai,Duxiang Feng,Miaolan He,Rongyan Liu,Zhuangpeng Chang,Rui Zhao,Yanlin Feng,Ruigang Hou,Xiao Zhang
摘要
an extrusion process and further loaded with nanoenzymes, yielding mimetic peel nanovesicles (NAPNs) with controllable photothermal behavior and nitric oxide (NO) generation capability. These NAPNs are subsequently incorporated into porous sponge scaffolds obtained from freeze-dried aloe vera gel, forming bioinspired AMSs with precisely controllable pore structures. Owing to their interconnected porous architecture and excellent water retention capacity, the AMSs efficiently manage wound exudates and facilitate bacterial adsorption. Under near-infrared irradiation, the synergistic photothermal-NO effects enable potent antibacterial activity through strong, localized hyperthermia, while mild and controllable photothermal regulation further alleviates inflammation and promotes cellular proliferation and migration, thereby accelerating skin tissue regeneration. Overall, this work presents a biomimetic, nanomedicine-integrated, and structurally programmable dressing platform that bridges plant-inspired materials engineering with wound surface nanotherapy, offering a stepwise and synergistic strategy for enhanced skin wound healing.
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