自愈水凝胶
透明质酸
骨关节炎
细胞外基质
材料科学
明胶
生物医学工程
炎症
软骨
氧化应激
细胞内
粘附
PLGA公司
活性氧
细胞外
关节软骨
组织工程
控制释放
佐剂
代谢活性
伤口愈合
胶粘剂
化学
药理学
细胞粘附
基质(化学分析)
关节软骨损伤
癌症研究
作者
Jie zhou,Liang Jiao,Kun Yang,Guangyu Zhang
标识
DOI:10.1177/08853282251379151
摘要
Osteoarthritis is confronted with a multifaceted pathological microenvironment, and the implementation of palliative pharmacological strategies facilitates the continued progression of osteoarthritis. In this study, a dynamic hydrogel composed of oxidized hyaluronic acid and gelatin was devised for encapsulating and dispensing EGCG to combat inflammation and oxidative stress in the initial phase, stimulating the differentiation of BMSCs to preserve the metabolic equilibrium of the extracellular matrix through the gradual release of KGN-loaded PLGA microspheres. Subsequently, accomplished adhesion and in-situ delivery were achieved through minimally invasive injection into the joint cavity. These hydrogels possess excellent shear-thinning properties and biocompatibility. The design of double-loaded hydrogel is capable of eradicating intracellular reactive oxygen species while fostering cartilage differentiation via controlled release of EGCG and KGN. A double-loaded injectable hydrogel may provide a new idea for early minimally invasive treatment of osteoarthritis.
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