Abstract
Cells are sensitive to the surface topographical environment, which can subsequently induce changes in cell morphology, cytoskeleton, and differentiation. Therefore, the topological environment in bone implant devices is known to influence the cell behavior, adhesion, and differentiation of osteoblasts. Furthermore, bone implant devices with anti-bacterial properties could be necessary to prevent surgical site infections (SSIs). Consequently, there is a demand for research into multi-functional surfaces that can facilitate osteoblast differentiation while also possessing an anti-bacterial effect. In this study, we fabricated and assessed the poly(ethylene glycol) dimethacrylate (PEGDMA) nano/micro pillar-patterned surface to find the optimized dimensional characteristics of the pillar pattern for multi-functional effect. Results observed that the pillar pattern enhanced differentiation to osteoblast on the pillar-patterned surface (D1S0.5) having pillars with 0.5 μm height, 1 μm diameter, and 0.5 μm spacing between pillars and pillar-patterned surface (D1S1) having pillars with 0.5 μm height, 1 μm diameter, and 1 μm spacing between pillars. Subsequently, results of evaluating anti-bacterial effect revealed that the optimized pillar-patterned surface exhibited remarkable antibacterial effect, with the D1S0.5 pillar-patterned surface showing the highest antibacterial effect. Consequently, this study proposed and verified a multi-functional pillar-patterned surface capable of promoting osteoblast differentiation with anti-bacterial effects.
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