Effects of the architecture of tissue engineering scaffolds on cell seeding and culturing

小旋翼机 脚手架 互连性 组织工程 材料科学 生物医学工程 播种 磁导率 立体光刻 多孔性 再生医学 三维细胞培养 细胞生物学 细胞 生物材料 再生(生物学) 生物加工 复合材料 化学 计算机科学 聚合物 工程类 共聚物 生物化学 航空航天工程 人工智能
作者
Ferry P.W. Melchels,Ana Barradas,Clemens A. van Blitterswijk,Jan de Boer,Jan Feijén,Dirk W. Grijpma
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:6 (11): 4208-4217 被引量:334
标识
DOI:10.1016/j.actbio.2010.06.012
摘要

The advance of rapid prototyping techniques has significantly improved control over the pore network architecture of tissue engineering scaffolds. In this work, we have assessed the influence of scaffold pore architecture on cell seeding and static culturing, by comparing a computer designed gyroid architecture fabricated by stereolithography with a random pore architecture resulting from salt leaching. The scaffold types showed comparable porosity and pore size values, but the gyroid type showed a more than 10-fold higher permeability due to the absence of size-limiting pore interconnections. The higher permeability significantly improved the wetting properties of the hydrophobic scaffolds and increased the settling speed of cells upon static seeding of immortalised mesenchymal stem cells. After dynamic seeding followed by 5 days of static culture gyroid scaffolds showed large cell populations in the centre of the scaffold, while salt-leached scaffolds were covered with a cell sheet on the outside and no cells were found in the scaffold centre. It was shown that interconnectivity of the pores and permeability of the scaffold prolonged the time of static culture before overgrowth of cells at the scaffold periphery occurred. Furthermore, novel scaffold designs are proposed to further improve the transport of oxygen and nutrients throughout the scaffolds and to create tissue engineering grafts with a designed, pre-fabricated vasculature.

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