自愈水凝胶
半胺
化学
伤口愈合
生物材料
生物相容性材料
纳米技术
控制释放
组合化学
活性氧
谷胱甘肽
抗菌活性
作者
Yuzi Yang,Fen Pan,Cong Jiang,Xilong Li,Xinyan Fan,Zhaolong Sun,Yan Zhang,Shiyue Wan,Pengcheng Chen,Zhihai Zhong,Peng Zhang,Dapeng Zhang,Yongsheng Li
出处
期刊:Biomacromolecules
[American Chemical Society]
日期:2026-04-13
卷期号:27 (5): 3385-3398
标识
DOI:10.1021/acs.biomac.6c00391
摘要
Biodegradable hydrogels represent an effective healing biomaterial for wounds. However, the fabrication of smart hydrogels containing unstable hemiaminal structures remains challenging. Here, we report a biodegradable hemiaminal-type polymeric hydrogel with formaldehyde (FA)-fixed (FP-hydrogel), synthesized via a one-pot aldimine condensation of poly(ethylene glycol) diamines (PEG-DAs) and polyformaldehyde (PFA). This design leverages the stable semiclosed eight-membered cyclic hemiaminal structures within the hydrogel network, which confer remarkable mechanical strength, self-healing capability, and plasticity. The FP-hydrogel degrades in response to diverse biological signals, including acidic pH, reactive oxygen species (ROS), and glutathione (GSH). Active FA is released from FP-hydrogel under weakly acidic conditions (pH 6.5) with a release rate of 74% and displays a significant antibacterial effect, which enables the healing of acute bacterial-infected wounds at safer FA concentrations compared to the commercial urotropine. In addition, the hydrogel effectively scavenges overexpressed ROS in chronic diabetic wounds and modulates the wound microenvironment. Consequently, it accelerates the healing processes of both acute bacteria-infected and chronic diabetic wounds in vivo due to the specific responsiveness of hemiaminal structures to multiple physiological signals in the complex wound microenvironment, demonstrating its promising use as versatile and advanced wound dressings.
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