Mild Thermotherapy‐Assisted GelMA/HA/MPDA@Roxadustat 3D‐Printed Scaffolds with Combined Angiogenesis‐Osteogenesis Functions for Bone Regeneration

脚手架 3d打印 再生(生物学) 血管生成 骨愈合 体内 材料科学 PI3K/AKT/mTOR通路 化学 生物医学工程 医学 解剖 信号转导 细胞生物学 生物 癌症研究 生物技术
作者
Jiaqian You,Yangyang Li,Chong Wang,Huixin Lv,Shaobo Zhai,Manxuan Liu,Xiuyu Liu,Quni Sezhen,Lu Zhang,Yidi Zhang,Yanmin Zhou
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:13 (22): e2400545-e2400545 被引量:33
标识
DOI:10.1002/adhm.202400545
摘要

Early reconstruction of the vascular network is a prerequisite to the effective treatment of substantial bone defects. Traditional 3D printed tissue engineering scaffolds designed to repair large bone defects do not effectively regenerate the vascular network, and rely only on the porous structure within the scaffold for nutrient transfer and metabolic waste removal. This leads to delayed bone restoration and hence functional recovery. Therefore, strategies for generation scaffolds with the capacity to efficiently regenerate vascularization should be developed. This study loads roxarestat (RD), which can stabilize HIF-1α expression in a normoxic environment, onto the mesopore polydopamine nanoparticles (MPDA@RD) to enhance the reconstruction of vascular network in large bone defects. Subsequently, MPDA@RD is mixed with GelMA/HA hydrogel bioink to fabricate a multifunctional hydrogel scaffold (GHM@RD) through 3D printing. In vitro results show that the GHM@RD scaffolds achieve good angiogenic-osteogenic coupling by activating the PI3K/AKT/HSP90 pathway in BMSCs and the PI3K/AKT/HIF-1α pathway in HUVECs under mild thermotherapy. In vivo experiments reveal that RD and mild hyperthermia synergistically induce early vascularization and bone regeneration of critical bone defects. In conclusion, the designed GHM@RD drug delivery scaffold with mild hyperthermia holds great therapeutic value for future treatment of large bone defects.
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