丝素蛋白-壳聚糖/纳米 ZrO2 纳米复合材料在组织工程中的应用：制备与形态。

Nano-composite of silk fibroin-chitosan/Nano ZrO2 for tissue engineering applications: fabrication and morphology.

机构信息

Chemistry Department, Payame Noor University, Tehran 19395-3697, Iran.

出版信息

Int J Biol Macromol. 2015 May;76:292-302. doi: 10.1016/j.ijbiomac.2015.02.023. Epub 2015 Feb 20.

DOI:10.1016/j.ijbiomac.2015.02.023

Abstract

A scaffold possessing certain desired features such as biodegradation, biocompatibility, and porous structure could serve as a template for tissue engineering. In the present study, silk fibroin (SF), chitosan (CS) and zirconia (Nano ZrO2) were all combined using the freeze drying technique to fabricate a bio-composite scaffold. The composite scaffold (SF/CS/Nano ZrO2) was characterized by SEM, XRD, TGA, BET and FT-IR studies. The scaffold was found to possess a porous nature with pore dimensions suitable for cell infiltration and colonization. The presence of zirconia in the SF/CS/Nano ZrO2 scaffold led to an increase in compressive strength and water uptake capacity while at the same time decreasing the porosity. Cytocompatibility of the SF/CS/Nano ZrO2 scaffold, assessed by MTT assay, revealed non-toxicity to the Human Gingival Fibroblast (HGF, NCBI: C-131). Thus, we suggest that SF/CS/Nano ZrO2 composite scaffold is a potential candidate to be used for tissue engineering.

摘要

一种具有生物降解性、生物相容性和多孔结构等特定理想特性的支架可以作为组织工程的模板。在本研究中，丝素蛋白 (SF)、壳聚糖 (CS) 和氧化锆 (纳米 ZrO2) 均采用冷冻干燥技术结合使用，以制备生物复合材料支架。通过 SEM、XRD、TGA、BET 和 FT-IR 研究对复合支架 (SF/CS/Nano ZrO2) 进行了表征。发现支架具有多孔性质，孔径适合细胞渗透和定植。SF/CS/Nano ZrO2 支架中氧化锆的存在导致抗压强度和吸水率增加，同时孔隙率降低。通过 MTT 测定法评估 SF/CS/Nano ZrO2 支架的细胞相容性，结果表明对人牙龈成纤维细胞 (HGF，NCBI: C-131) 无毒性。因此，我们认为 SF/CS/Nano ZrO2 复合材料支架是一种有潜力用于组织工程的候选材料。

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丝素蛋白-壳聚糖/纳米 ZrO2 纳米复合材料在组织工程中的应用：制备与形态。

Nano-composite of silk fibroin-chitosan/Nano ZrO2 for tissue engineering applications: fabrication and morphology.

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