Rat Endothelial Cell Attachment, Behavior and Gene Expression on NaOH-treated Titanium Surfaces

Yoko Nakano, S. Komasa, Y. Taguchi, T. Sekino, J. Okazaki
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引用次数: 11

Abstract

189 INTRODUCTION Materials scientists and clinicians worldwide are working to improve the performance of dental implants, with the aim of accelerating and maintaining integration into hard and soft tissues, and extending their range of application. The surface characteristics of the implant material affect the rate and extent of osseointegration. Vandrovcova et al. 2 recently reviewed the growing evidence that surface-modified materials can increase adhesion, growth, and osteogenic differentiation of cells, thus promoting the integration of the implant into bone and maintaining its secondary stability. Recent advances in dental implant research allow for the modification of the surface of the implant material at the nanometer scale 3, . Surface modifications that increase surface area and Rat Endothelial Cell Attachment, Behavior and Gene Expression on NaOH-treated Titanium Surfaces
大鼠内皮细胞在naoh处理钛表面的附着、行为和基因表达
全世界的材料科学家和临床医生都在努力提高牙种植体的性能,以加速和保持与软硬组织的融合,并扩大其应用范围。种植体材料的表面特性影响骨整合的速度和程度。Vandrovcova等人2最近回顾了越来越多的证据,表明表面修饰材料可以增加细胞的粘附、生长和成骨分化,从而促进种植体与骨的整合并保持其二级稳定性。牙科种植体研究的最新进展允许在纳米尺度上对种植材料的表面进行修饰。naoh处理的钛表面表面修饰增加表面积和大鼠内皮细胞附着、行为和基因表达
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