Author:
Jia Fang,Wang Shuxiu,Xu Shulan,Wu Wangxi,Zhou Lei,Zeng Jingsong
Abstract
AbstractDifferent surface micromorphologies influence osteoblast movements and impact the osteogenesis around implants. In this study, a biomimetic chip that simulates the microenvironment of the implant and bone in vitro was developed (tissue-on-chip of group T and group C) to study the correlation of cell movement velocity (CMV), direction (CMD), acceleration (CMA), and cell attachment number (CA) with the surface micromorphology of the Titanium material. Computational fluid dynamics (CFD) was used for flow analysis. Changes in intraosseous pressure (IOP), local blood perfusion index (LBPI), new bone microstructure, microvessel density (MVD), and bone-implant contact (BIC) in beagle dogs were detected as implant surface alterations. Surface skewness (Ssk) and surface arithmetic mean height (Sa) were the most important negative factors for high CMV, accounting for 51% and 32%, respectively, of all the influencing factors. Higher Ssk (SskT > 0, SskC < 0) and Sa (SaT > SaC) resulted in lower CMV (CMVT:CMVC = 0.41:1), greater CA (CAT:CAC = 1.44:1), and higher BIC (BICT:BICC = 3.06:1) (P < 0.05). The surface micromorphology influenced the CMD of MG-63 cells within 20 μm from the material surface. However, it could not regulate the IOP, LBPI, MVD, new bone microstructure, or CMD (P > 0.05).
Funder
Basic and Applied Research Foundation of Guangdong
Publisher
Springer Science and Business Media LLC
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