Biofunctionalization of a titanium surface with a nano-sawtooth structure regulates the behavior of rat bone marrow mesenchymal stem cells

锯齿波 骨整合 材料科学 细胞粘附 间充质干细胞 纳米技术 细胞生物学 粘附 细胞 生物物理学 体内 干细胞 植入 生物医学工程 化学 生物 生物化学 医学 外科 复合材料 生物技术 冶金 计算机科学 计算机视觉
作者
Xinquan Jiang,Wenjie Zhang,Yan Liu,Jinhua Li,Lianyi Xu,Bin Wei,Xiuli Zhang,Liu,Zihui Li,Dongxia Ye
出处
期刊:International Journal of Nanomedicine [Dove Medical Press]
卷期号:: 4459-4459 被引量:81
标识
DOI:10.2147/ijn.s33575
摘要

Background: The topography of an implant surface can serve as a powerful signaling cue for attached cells and can enhance the quality of osseointegration. A series of improved implant surfaces functionalized with nanoscale structures have been fabricated using various methods. Methods: In this study, using an H 2 O 2 process, we fabricated two size-controllable sawtooth-like nanostructures with different dimensions on a titanium surface. The effects of the two nano-sawtooth structures on rat bone marrow mesenchymal stem cells (BMMSCs) were evaluated without the addition of osteoinductive chemical factors. Results: These new surface modifications did not adversely affect cell viability, and rat BMMSCs demonstrated a greater increase in proliferation ability on the surfaces of the nano-sawtooth structures than on a control plate. Furthermore, upregulated expression of osteogenic-related genes and proteins indicated that the nano-sawtooth structures promote osteoblastic differentiation of rat BMMSCs. Importantly, the large nano-sawtooth structure resulted in the greatest cell responses, including increased adhesion, proliferation, and differentiation. Conclusion: The enhanced adhesion, proliferation, and osteogenic differentiation abilities of rat BMMSCs on the nano-sawtooth structures suggest the potential to induce improvements in bone-titanium integration in vivo. Our study reveals the key role played by the nano-sawtooth structures on a titanium surface for the fate of rat BMMSCs and provides insights into the study of stem cell-nanostructure relationships and the related design of improved biomedical implant surfaces. Keywords: nanotechnology, surface modification, osteogenic differentiation, BMMSCs, implants, osseointegration

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