中文摘要：

以具有纳米拓扑结构特征的单壁碳纳米管无纺膜材料为支架，选择在促进组织修复和再生中起重要作用的成纤维细胞株作为实验细胞，研究了该材料对细胞生长行为的影响．通过X射线光电子能谱分析，表征其在细胞培养液中浸泡后的表面化学组成；通过细胞粘附、增殖实验以及细胞骨架发育观察，探讨了材料的微观纳米拓扑结构对细胞的作用，以及与碳纤维、聚氨酯浇铸膜和空白培养板材料对细胞作用的差异和可能的机理；并采用双层细胞培养装置，研究了该材料通过细胞通讯途径对在其它材料上生长的细胞增殖的影响．实验结果表明，单壁碳纳米管无纺膜材料为细胞提供了十分接近天然细胞外基质的人造微环境，具有显著促进细胞粘附和长时间增殖的功能，而且生长在该支架上的细胞可能通过旁分泌方式将某些化学介质分泌到细胞外液中，经局部扩散作用于在其它材料上生长的细胞，促进它们的增殖．

英文摘要：

Carbon nanotubes have attracted intensive interests in biomedical research in recent years. In this paper, a novel type of carbon nanotubes material so called nonwoven single walled carbon nanotubes （ nonwoyen SWNT） with nanotopographic structure and macroscopic volume was used as cell growing scaffold. The morphology and surface chemistry of nonwoven SWNT were observed and characterized by scanning electron microscopy（SEM） and X-ray photoelectron spectroscopy（XPS） respectively. The cells were cultivated in nonwoven SWNT and in other types of substrate as the control. The cells growth behavior including adhesion, proliferation and cytoskeletal development was investigated by using cell viability assay and confocal observation. The experimental results indicate that nonwoven SWNT exhibited a significant enhancement to the cells adhesion and proliferation in at least 3 weeks. Numerous and well organized cytoskeletal structures were observed when the cells were cultured in nonwoven SWNT. Additionally, an obvious promotional influence of the cells cultivated in nonwoven SWNT scaffold upon the proliferation of those growing in the other kind of substrate through cell-cell communication were found. The results obtained in this work are of significance to in vitro cell amplification in a large scale, tissue regeneration or guided repair, as well as biomedical device application.