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内皮细胞对聚合物混合纳米形貌的体外反应。

In vitro reaction of endothelial cells to polymer demixed nanotopography.

作者信息

Dalby M J, Riehle M O, Johnstone H, Affrossman S, Curtis A S G

机构信息

Centre for Cell Engineering, Institute of Biomedical and Life Sciences, University of Glasgow, UK.

出版信息

Biomaterials. 2002 Jul;23(14):2945-54. doi: 10.1016/s0142-9612(01)00424-0.

Abstract

The introduction of topography to material surfaces has been shown to strongly affect cell behaviour, and the effects of micrometric surface morphologies have been extensively characterised. Research is now starting to investigate the reaction of cells to nanometric topography. This study used polymer demixing of polystyrene and poly(4-bromostyrene) producing nanometrically high islands, and observed endothelial cell response to the islands. Three island heights were investigated; these were 13, 35 and 95 nm. The cells were seen to be more spread on the manufactured topographies than that on flat surfaces of similar chemistry. Other morphological differences were also noted by histology, fluorescence and scanning electron microscopy, with many arcuate cells noted on the test surfaces, and cytoskeletal alignment along the arcuate features. Of the nanotopographies, the 13 nm islands were seen to give the largest response, with highly spread cell morphologies containing well-defined cytoskeleton.

摘要

已证明在材料表面引入形貌会强烈影响细胞行为,并且微米级表面形态的影响已得到广泛表征。现在研究开始探究细胞对纳米级形貌的反应。本研究利用聚苯乙烯和聚(4-溴苯乙烯)的聚合物相分离产生纳米级高岛,并观察内皮细胞对这些岛的反应。研究了三种岛的高度,分别为13、35和95纳米。可以看到细胞在制造的形貌上比在类似化学性质的平面上更铺展。通过组织学、荧光和扫描电子显微镜还观察到其他形态差异,在测试表面上发现许多弓形细胞,并且细胞骨架沿弓形特征排列。在纳米形貌中,13纳米的岛产生的反应最大,细胞形态高度铺展,含有明确的细胞骨架。

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