Affiliation:
1. School of Mechanical Engineering and Automation Northeastern University Shenyang 110819 China
2. Department of Developmental Cell Biology Key Laboratory of Cell Biology Ministry of Public Health, and Key Laboratory of Medical Cell Biology Ministry of Education China Medical University Shenyang China
3. Shenyang Lebuy Vacuum Tech. Co., Ltd Shenyang Liaoning China
Abstract
AbstractThe structural characteristics at the interface of bone implants can guide biological regulation. In this study, a dual‐scale hierarchical microstructure is proposed and customized using hybrid machining to achieve temporal dependency osteogenic regulation. It is observed that osteoblasts induced by dual‐scale hierarchical structure exhibit adequate protrusion development and rapid cell attachment through the modulation of mechanical forces in the cell growth environment, and further promot the upregulation of the cell membrane receptor PDGFR‐α, which is related to cell proliferation. Afterward, transcriptomic analysis reveals that during the differentiation stage, the DSH structure regulates cellular signaling cascades primarily through integrin adhesion mechanisms and then accelerates osteogenic differentiation by activating the TGF‐β pathway and cAMP signaling pathway. Furthermore, the calcium nodules are preferentially deposited within the lower honeycomb‐like channels, thereby endowing the proposed dual‐scale hierarchical structure with the potential to induce oriented deposition and improve the long‐term stability of the implant.
Funder
Fundamental Research Funds for the Central Universities
National Natural Science Foundation of China