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Cascaded controlled delivering growth factors to build vascularized and osteogenic microenvironment for bone regeneration

Authors :
Haifei Cao
Shuangjun He
Mingzhou Wu
Lihui Hong
Xiaoxiao Feng
Xuzhu Gao
Hongye Li
Mingming Liu
Nanning Lv
Source :
Materials Today Bio, Vol 25, Iss , Pp 101015- (2024)
Publication Year :
2024
Publisher :
Elsevier, 2024.

Abstract

The process of bone regeneration is intricately regulated by various cytokines at distinct stages. The establishment of early and efficient vascularization, along with the maintenance of a sustained osteoinductive microenvironment, plays a crucial role in the successful utilization of bone repair materials. This study aimed to develop a composite hydrogel that would facilitate the creation of an osteogenic microenvironment for bone repair. This was achieved by incorporating an early rapid release of VEGF and a sustained slow release of BMP-2. Herein, the Schiff base was formed between VEGF and the composite hydrogel, and VEGF could be rapidly released to promote vascularization in response to the early acidic bone injury microenvironment. Furthermore, the encapsulation of BMP-2 within mesoporous silica nanoparticles enabled a controlled and sustained release, thereby facilitating the process of bone repair. Our developed composite hydrogel released more than 80% of VEGF and BMP-2 in the acidic medium, which was significantly higher than that in the neutral medium (about 60%). Moreover, the composite hydrogel demonstrated a significant improvement in the migratory capacity and tube formation ability of human umbilical vein endothelial cells (HUVECs). Furthermore, the composite hydrogel exhibited an augmented ability for osteogenesis, as confirmed by the utilization of ALP staining, alizarin red staining, and the upregulation of osteogenesis-related genes. Notably, the composite hydrogel displayed substantial osteoinductive properties, compared with other groups, the skull defect in the composite hydrogels combined with BMP-2 and VEGF was full of new bone, basically completely repaired, and the BV/TV value was greater than 80%. The outcomes of animal experiments demonstrated that the composite hydrogel effectively promoted bone regeneration in cranial defects of rats by leveraging the synergistic effect of an early rapid release of VEGF and a sustained slow release of BMP-2, thereby facilitating vascularized bone regeneration. In conclusion, our composite hydrogel has demonstrated promising potential for vascularized bone repair through the enhancement of angiogenesis and osteogenic microenvironment.

Details

Language :
English
ISSN :
25900064
Volume :
25
Issue :
101015-
Database :
Directory of Open Access Journals
Journal :
Materials Today Bio
Publication Type :
Academic Journal
Accession number :
edsdoj.3e98085eb54219a3dcb1f019b59eaf
Document Type :
article
Full Text :
https://doi.org/10.1016/j.mtbio.2024.101015