明胶
伤口愈合
多酚
化学
体内
药理学
抗氧化剂
细胞毒性
生物医学工程
体外
生物化学
医学
外科
生物技术
生物
作者
Xingjie Zan,Dong Yang,Yi Xiao,Yaxin Zhu,Hua Chen,Shulan Ni,Shengwu Zheng,Limeng Zhu,Jianliang Shen,Xingcai Zhang
出处
期刊:Advanced Science
[Wiley]
日期:2023-12-20
卷期号:11 (9): e2305405-e2305405
被引量:90
标识
DOI:10.1002/advs.202305405
摘要
) through the amino acids, imparting advantageous mechanical properties like self-healing, injectability, and adhesion. The nanonetwork's biological functions are further enhanced by incorporating the tea polyphenol metal nanonetwork through in situ doping of the epigallocatechin gallate (EGCG) with great antibacterial, self-healing, antioxidant, and anticancer capabilities. The in vitro and in vivo tests show that this double nanonetworks hydrogel exhibits faster cell migration and favorable anti-inflammatory and antioxidant properties and can greatly reshape the microenvironment of diabetic wounds and accelerate the wound healing rate. In addition, this hydrogel is completely degraded after subcutaneous injection for 7 days, with nondetectable cytotoxicity in H&E staining of major mice organs and the serum level of liver function indicators. Considering the above-mentioned merits of this hydrogel, it is believed that the injectable gelatin/metal/tea polyphenol double nanonetworks have broad biomedical potential, especially in diabetic wound repair and tissue engineering.
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