钛的阳极氧化和水热处理导致体外大鼠骨髓基质细胞的附着增加和细胞骨架形态改变。

J Takebe, S Itoh, J Okada, K Ishibashi
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引用次数: 149

摘要

先前的研究表明,一种新的涂层方法是有用的,即通过阳极氧化和水热处理在商业纯钛(cpTi)上形成一层薄薄的羟基磷灰石(HA)层,作为牙根种植材料。体内和体外研究证实,cpTi (HA/cpTi)植入物上的HA层与骨组织、大鼠骨髓基质(RBM)细胞和免疫细胞具有良好的相容性。本研究的目的是进一步表征RBM细胞在HA/cpTi植入物上的体外早期细胞行为。因此,在本研究中,我们进行了表面分析、细胞初始附着分析、细胞形态和细胞骨架分析。液滴蒸馏水或细胞培养基与HA/cpTi的接触角小于与cpTi的接触角。RBM细胞分别在HA/cpTi和cpTi上培养30、60和120分钟,细胞粘附水平随时间的增加而增加。而在60 min和120 min时,细胞在HA/cpTi上的粘附力明显高于在cpTi上的粘附力。特别是在120 min时,与cpTi相比,HA/cpTi表面的细胞形态不仅呈扁平、铺展的形式,而且呈延伸的丝状突起,边缘不规则,与HA微晶表面密切适应。HA/cpTi上的细胞骨架显示形成良好的肌动蛋白丝,与RBM细胞的长轴平行。RBM细胞在HA/cpTi表面的肌动蛋白丝在120分钟后很好地定位到周围(对应于丝状突起的边缘)。这表明RBM细胞的肌动蛋白丝需要锚定在HA/cpTi表面,并且在HA/cpTi表面沉淀了大量的HA微晶。这些发现与扫描电镜形貌相似。外周锚定提供了足够的附着强度,允许在HA/cpTi上识别肌动蛋白丝。与未经处理的cpTi相比,HA/cpTi的表面具有更强的亲水性和明显的润湿性,并且在阳极氧化和水热处理后的表面上观察到比未经处理的cpTi表面更高的早期细胞附着水平。体外实验结果表明,这种在cpTi表面形成薄HA层的新方法可用于确保植入物表面的良好细胞行为。通过阳极氧化和水热处理在cpTi植入材料上形成的薄HA层上的细胞形态表征表明,植入物表面的物理化学或生物调节涉及到植入物表面形貌。
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Anodic oxidation and hydrothermal treatment of titanium results in a surface that causes increased attachment and altered cytoskeletal morphology of rat bone marrow stromal cells in vitro.

Previous studies have suggested the usefulness of a new coating method-namely, the forming of a thin hydroxyapatite (HA) layer on commercially pure titanium (cpTi) by anodization and hydrothermal treatment-for use as a dental root implant material. In vivo and in vitro studies confirmed that an HA layer on cpTi (HA/cpTi) implants showed good compatibility with bone tissue, rat bone marrow stromal (RBM) cells, and immune cells. The aim of the present investigation was to further characterize the in vitro early cellular behavior of RBM cells on HA/cpTi implants. Therefore, in this study we performed surface analysis, analysis of cell initial attachment, and analysis of cell morphology and the cytoskeleton. Drops of distilled water or cell culture medium showed smaller contact angles with HA/cpTi than with cpTi. RBM cells were cultured for 30, 60, and 120 min on HA/cpTi and cpTi, and the level of cell adhesion was shown to increase with time on both substrates. However, cell adhesion on HA/cpTi was significantly higher than on cpTi at 60 and 120 min. Especially at 120 min, when compared with cpTi, the cell morphology on the surface of HA/cpTi not only adopted a flattened and spreading form, but also extended filopodium-like processes with irregular edges that were intimately adapted to the surface of the HA microcrystals. The cytoskeleton on HA/cpTi showed well-formed actin filaments that were parallel to each other and the long axis of RBM cells. The actin filaments of RBM cells on the HA/cpTi surface were localized to the periphery (corresponding to the edge of the filopodium-like processes) well after 120 min. This suggests that actin filaments of RBM cells need to be anchored at the HA/cpTi surface and the numerous HA microcrystals precipitated on the HA/cpTi surface. These findings were similar to the scanning electron microscopic morphology. The peripheral anchorage provide sufficient strength of attachment to allow recognization of actin filaments upon HA/cpTi. The surface of HA/cpTi was more hydrophilic and exhibited markedly improved wettability compared to untreated cpTi, and higher levels of early cell attachment were observed on surfaces after anodization and hydrothermal treatment than on surfaces with untreated cpTi. The results of in vitro experiments suggest that this new method for forming a thin HA layer on the surface of cpTi could be useful to ensure excellent cellular behavior on implant surfaces. The characterization of cell morphology on the thin HA layer formed by anodization and hydrothermal treatment on cpTi implant material suggests that physicochemical or biological conditioning of the implant surface involves implant surface topography.

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