Characterization of PCL/HA Composite Scaffolds for Bone Tissue Engineering

机译：骨组织工程PCL / HA复合支架的表征

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Porous and bioactive composite scaffolds based on poly s-caprolactone(PCL) and hydroxyapatite(HA) were successfully fabricated by solvent casting and salt leaching method. The scaffolds have interconnected pore structure with pore size ranging from 10 mu m to 500p.m. The pore size of PCL scaffold and PCL/HA scaffold were similar to that of the salt particles. The pore walls became thick and the small pores on the surface of macropores were formed as the HA increased. MTT assay showed that HA content did not affect initial cell attachment in both PCL scaffolds and PCL/HA scaffolds. The osteoblasts proliferated in both scaffolds, but the cell number was higher in the PCL/HA composite scaffolds. It was found that the incorporation of hydroxyapatite enhances bone cell proliferation rather than initial cell attachment in PCL/HA composite scaffolds. The results suggest that the PCL/HA composite scaffolds have a potential for the bone tissue engineering applications.

机译：基于聚S-Caproloctone（PCL）和羟基磷灰石（HA）的多孔和生物活性复合支架通过溶剂浇铸和盐浸出方法成功制造。支架具有孔隙结构，孔径为10μm至500p.m。 PCL支架和PCL / HA支架的孔径与盐颗粒的孔径相似。孔隙壁变厚，并且在HA增加时形成大孔表面上的小孔隙。 MTT测定表明，HA含量在PCL支架和PCL / HA支架中没有影响初始细胞附着。在两个支架中增殖的成骨细胞增殖，但PCL / HA复合支架中的细胞数更高。发现羟基磷灰石的掺入增强了骨细胞增殖，而不是PCL / HA复合支架中的初始细胞附着。结果表明，PCL / HA复合支架具有骨组织工程应用的潜力。

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来源
《Asian Symposium on biomedical materials》|2007年||共4页
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Yong-Taek Hyun; Seung-Eon Kim; Sir-din Heo;
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原文格式 PDF
正文语种
中图分类生物材料学;
关键词
composite scaffold; tissue engineering; biocompatibility; poly s-caprolactone (PCL); hydroxyapatite (HA);

机译：复合脚手架;组织工程;生物相容性;聚S-Caprolacterone（PCL）;羟基磷灰石（HA）;

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Characterization of PCL/HA Composite Scaffolds for Bone Tissue Engineering

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