Pore size effect on cell response via plasma electrolytic oxidation
作者: KR Shin , YS Kim , JH Jeong , YG Ko , DH Shin
DOI: 10.1179/1743294415Y.0000000026
关键词: Pseudopodia 、 Materials science 、 Metallurgy 、 Viability assay 、 Osteoblast 、 Titanium 、 Chemical engineering 、 Coating 、 Electrolyte 、 Plasma electrolytic oxidation 、 Morphology (linguistics)
摘要: Using a plasma electrolytic oxidation (PEO) process, this study investigated how the pore size of coating surface influences growth osteoblast cells and their morphology in pure titanium. With aim, PEO coatings were applied using four different electric electrolyte conditions to vary mean sizes from ∼2 to ∼5 μm. In vitro examinations showed that on with ∼2 μm pores had grown healthily good attachment by multiple pseudopodia connections; highly proliferated, compared those other samples. addition, highest cell viability among
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