Fabrication and Characterization of Covalently Functionalized poly Caprolactone Scaffold for Bone Tissue Engineering Application

Novelty in Biomedicine Pub Date : 2019-05-01 DOI:10.22037/NBM.V7I2.22015

N. Sadeghzade, M. Nouri, A. Nateri, M. Soleimani

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引用次数: 2

Abstract

Background: Healing bone involves osteoconductive and osteoinductive components as well as a scaffold with adequate porosity to allow good cell infiltration. M aterials and Methods: Herein, cytocompatibility and osteogenic induction potential of polycaprolactone (PCL) nanofibrous electrospun scaffold with different electron microscopy, MTT assay, DAPI and alizarin porosities (35%-90%) and chemical bonding was assessed through scanning red S staining, calcium content and alkaline phosphatase assay. Moreover, the relative expression of three important osteogenic-related genes Col I, RUNX 2 and osteocalcin was studied. R es ults: Covalent bonding played a more significant osteogenic role in scaffolds in scaffolds with lower porosity, namely H35cov. Although low porosity limits cell infiltration, substrate with lower porosities were easier to handle. On the other hand, substrates with higher porosity showed higher levels of cell proliferation, mineralization as well as osteogenic differentiation. C onclusion: Results indicated that PCL scaffold with higher porosity degree up to 90%, covalently functionalized by collagen, and hydroxyapatite nanoparticles was a good candidate for bone tissue engineering applications.

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骨组织工程用共价功能化聚己内酯支架的制备与表征

背景:骨愈合包括骨传导和骨诱导成分以及具有足够孔隙度的支架，以允许良好的细胞浸润。材料和方法:通过扫描红S染色、钙含量和碱性磷酸酶测定，对聚己内酯(PCL)纳米纤维电纺丝支架的细胞相容性和成骨诱导电位进行了不同的电镜、MTT测定、DAPI和茜素孔隙率(35% ~ 90%)及化学键的评价。此外，我们还研究了三个重要的成骨相关基因Col I、runx2和骨钙素的相对表达。结果:在孔隙率较低的支架中，即H35cov，共价键对支架的成骨作用更为显著。虽然孔隙率低限制了细胞的渗透，但孔隙率低的基质更容易处理。另一方面，孔隙度越高的基质细胞增殖、矿化和成骨分化水平越高。结论:孔隙度高达90%、胶原共价功能化、羟基磷灰石纳米颗粒的PCL支架具有良好的骨组织工程应用前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Novelty in Biomedicine

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