Acellular Bioactivity of Sol-Gel Derived Borate Glass-Polycaprolactone Electrospun Scaffolds

Q1 Materials Science Biomedical Glasses Pub Date : 2016-01-14 DOI:10.1515/bglass-2016-0011

William C. Lepry, Sophia Smith, L. Liverani, A. Boccaccini, S. Nazhat

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引用次数: 23

Abstract

Abstract Recently, sol-gel derived borate glasses (BGs) have shown unprecedented conversion rates to bone-like mineral (hydroxycarbonated apatite). In an effort to explore their potential applications in bone tissue engineering, this study reports on the fabrication and characterization of BG particle incorporated electrospun "- polycaprolactone (PCL) fibrous composites. The electrospinning technique successfully incorporated PCL fibres with BG particles at 2.5 and 5 w/v%, with the higher BG loading creating a three-dimensional cotton-wool like morphology. Dynamic vapour sorption showed greater extents of mass change with BG content attributable to water sorption, and indicating greater reactivity in the composite systems. In vitro bioactivity was investigated in simulated body fluid for up to 7 days. Scanning electron microscopy, Fourier-transform infrared spectroscopy and xray diffraction indicated apatite formation in the 5 w/v% incorporated composite scaffold, which initiated as early as day 3. In summary, sol-gel derived BGs incorporatedfibrous electrospun PCL composites indicate rapid reactivity and bioactivity with potential applications in mineralized tissue engineering.

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溶胶-凝胶硼酸盐玻璃-聚己内酯电纺丝支架的脱细胞生物活性

最近，溶胶-凝胶衍生的硼酸盐玻璃(BGs)显示出前所未有的骨样矿物(羟基碳酸盐磷灰石)的转化率。为了探索其在骨组织工程中的潜在应用，本研究报道了BG颗粒掺杂“-聚己内酯”(PCL)纤维复合材料的制备和表征。静电纺丝技术成功地将含有BG颗粒的PCL纤维以2.5和5 w/v%的速度掺入，具有较高的BG负载，形成了类似于棉絮的三维形态。动态水蒸气吸附表现出更大程度的质量变化与BG含量归因于水的吸附，表明复合体系的反应性更强。在模拟体液中研究其体外生物活性长达7天。扫描电镜、傅里叶变换红外光谱和x射线衍射表明，掺入率为5 w/v%的复合支架中磷灰石的形成早在第3天就开始了。综上所述，溶胶凝胶衍生的BGs结合纤维静电纺PCL复合材料具有快速反应性和生物活性，在矿化组织工程中具有潜在的应用前景。

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来源期刊

Biomedical Glasses Materials Science-Surfaces, Coatings and Films

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0.00%

发文量

审稿时长

17 weeks

期刊介绍： Biomedical Glasses is an international Open Access-only journal covering the field of glasses for biomedical applications. The scope of the journal covers the science and technology of glasses and glass-based materials intended for applications in medicine and dentistry. It includes: Chemistry, physics, structure, design and characterization of biomedical glasses Surface science and interactions of biomedical glasses with aqueous and biological media Modeling structure and reactivity of biomedical glasses and their interfaces Biocompatibility of biomedical glasses Processing of biomedical glasses to achieve specific forms and functionality Biomedical glass coatings and composites In vitro and in vivo evaluation of biomedical glasses Glasses and glass-ceramics in engineered regeneration of tissues and organs Glass-based devices for medical and dental applications Application of glasses and glass-ceramics in healthcare.