1. Structure driven bio-responsive ability of injectable nanocomposite hydrogels for efficient bone regeneration.
- Author
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Song, Tao, Zhao, Fengxin, Yan, Ling, Liu, Puxin, Yang, Jirong, Ruan, Changshun, Li, Dongxiao, Xiao, Yumei, and Zhang, Xingdong
- Subjects
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BONE regeneration , *HYDROXYAPATITE , *HYDROGELS , *MOTOR vehicle driving , *MINIMALLY invasive procedures , *NANOCOMPOSITE materials , *STEM cells - Abstract
Injectable hydrogels are promising for treatment of bone defects in clinic owing to their minimally invasive procedure. Currently, there is limited emphasis on how to utilize injectable hydrogels to mobilize body's regenerative potential for enhancing bone regeneration. Herein, an injectable bone-mimicking hydrogel (BMH) scaffold assembled from nanocomposite microgel building blocks was developed, in which a highly interconnected microporous structure and an inorganic/organic (methacrylated hydroxyapatite and methacrylated gelatin) interweaved nano structure were well-designed. Compared with hydrogels lacking micro-nano structures or only showing microporous structure, the BMH scaffold enhanced the ingrowth of vessels and promoted the formation of dense cellular networks (including stem cells and M2 macrophages), across the entire scaffold at early stage after subcutaneous implantation. Moreover, the BMH scaffold could not only directly trigger osteogenic differentiation of the infiltrated stem cells, but also provided an instructive osteo-immune microenvironment by inducing macrophages into M2 phenotype. Mechanistically, our results reveal that the nano-rough structure of the BMH plays an essential role in inducing macrophage M2 polarization through activating mechanotransduction related RhoA/ROCK2 pathway. Overall, this work offers an injectable hydrogel with micro-nano structure driven bio-responsive abilities, highlighting harnessing body's inherent regenerative potential to realize bone regeneration. [Display omitted] [ABSTRACT FROM AUTHOR]
- Published
- 2024
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