Acevedo-Morantes Claudia Y, Irizarry-Ortiz Roberto A, Caceres-Valencia Pablo G, Singh Surinder P, Ramirez-Vick Jaime E
J Appl Phys. 2012 May 15;111(10):102810-1028107. doi: 10.1063/1.4714727. Epub 2012 May 17.
We report a novel method for high-throughput investigations on cell-material interactions based on metal oxide nanoscaffolds. These scaffolds possess a continuous gradient of various titanium alloys allowing the compositional and morphological variation that could substantially improve the formation of an osseointegrative interface with bone. The model nanoscaffold has been fabricated on commercially pure titanium (cp-Ti) substrate with a compositional gradients of tin (Sn), chromium (Cr), and niobium (Nb) deposited using a combinatorial approach followed by annealing to create native oxide surface. As an invitro test system, the human fetal osteoblastic cell line (hFOB 1.19) has been used. Cell-adhesion of hFOB 1.19 cells and the suitability of these alloys have been evaluated for cell-morphology, cell-number, and protein adsorption. Although, cell-morphology was not affected by surface composition, cell-proliferation rates varied significantly with surface metal oxide composition; with the Sn- and Nb-rich regions showing the highest proliferation rate and the Cr-rich regions presenting the lowest. The results suggest that Sn and Nb rich regions on surface seems to promote hFOB 1.19 cell proliferation and may therefore be considered as implant material candidates that deserve further analysis.
我们报道了一种基于金属氧化物纳米支架进行细胞-材料相互作用高通量研究的新方法。这些支架具有各种钛合金的连续梯度,允许成分和形态发生变化,这可以显著改善与骨的骨整合界面的形成。模型纳米支架是在商业纯钛(cp-Ti)基底上制造的,通过组合方法沉积锡(Sn)、铬(Cr)和铌(Nb)的成分梯度,然后进行退火以形成天然氧化物表面。作为体外测试系统,使用了人胎儿成骨细胞系(hFOB 1.19)。评估了hFOB 1.19细胞的细胞粘附以及这些合金对细胞形态、细胞数量和蛋白质吸附的适用性。虽然细胞形态不受表面成分的影响,但细胞增殖率随表面金属氧化物成分的变化而显著不同;富锡和富铌区域显示出最高的增殖率,而富铬区域呈现出最低的增殖率。结果表明,表面富锡和富铌区域似乎促进了hFOB 1.19细胞的增殖,因此可能被视为值得进一步分析的植入材料候选物。