材料科学
再生(生物学)
微球
生物医学工程
控制释放
组织工程
血管生成
离子
骨愈合
过程(计算)
生物物理学
生物矿化
再生过程
再生医学
纳米技术
化学工程
细胞
细胞生物学
化学
生物
计算机科学
解剖
生物化学
癌症研究
医学
有机化学
工程类
操作系统
作者
Zhuo Wan,Zuoying Yuan,Yechen Li,Yanling Zhang,Yue Wang,Yingjie Yu,Jianping Mao,Qing Cai,Xiaoping Yang
标识
DOI:10.1002/adfm.202113280
摘要
Abstract Therapeutic ions, such as Si and Mg, play vital roles in regulating metabolism and promoting tissue repair, hence providing an efficient strategy in tissue engineering. The regenerative outcome is strongly dependent on the targeted delivery and controlled release of therapeutic ions. Nevertheless, it remains challenging to deliver multiple ions at controlled manners and ratios. Herein, hierarchical therapeutic ion‐based microspheres are fabricated. The coordinated release of Mg and Si ions at pre‐set ratios is achieved, based on which, Mg favors osteogenesis by inducing highly efficient cell recruitment and angiogenesis, and Si promotes massive collagen secretion and biomineralization to accelerate the bone maturation process. These therapeutic ion‐based microspheres (namely PNM2) can steadily release Mg and Si ions at an optimized ratio of 2:1, which shows the most significant synergistic effect on angiogenesis and osteogenesis. Furthermore, in a rat calvarial defects model, the volume and maturity of the vascularized neo‐bone tissue regenerated with PNM2 microspheres are comparable with or even surpassing those defects regenerated with growth factors and/or cell‐laden scaffolds. Overall, this platform provides a controllable strategy for the coordinated delivery of Mg/Si ions, opening a new avenue for developing therapeutic ion‐based microscaffold for tissue engineering.
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