Functionalization of Chitosan-TiO2 Nanotubes Scaffolds with Fibronectin for Bone Regeneration

IF 0.5 Q4 ENGINEERING, BIOMEDICAL Journal of Biomimetics, Biomaterials and Biomedical Engineering Pub Date : 2023-07-31 DOI:10.4028/p-k9wk3T
S. Lim, C. Chiang, N. Rosli, K. Chew
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Abstract

Composite scaffolds are promising regenerative medicines. Chitosan-TiO2 nanotubes (CTNTs) scaffold as a composite scaffold is, however, associated with low biocompatibility. This research aims to increase in vitro efficacy of CTNTs scaffolds by using fibronectin (FN) and investigate the adsorption affinity of such scaffolds towards FN. CTNTs scaffolds were prepared via direct blending of TiO2 nanotubes (TNTs) and chitosan solution. The mixture was then subjected to 24-h freezing and 24-h freeze drying. The scaffolds were further functionalized with FN solution (20, 40, 60, 80 and 100 μg/mL) via adsorption. The amount of adsorbed FN by the scaffolds was determined via colorimetric method. MG63 was used to evaluate the in vitro efficacy of CTNTs scaffolds with FN. The adsorption affinity of CTNTs scaffolds towards FN was high, as no saturation was achieved. The adsorption isotherm of FN onto CTNTs scaffolds fitted well with Temkin isotherm suggesting there was electrostatic interaction between the scaffolds and FN. Enhanced proliferation and early differentiation were observed in MG63 cultured on CTNTs scaffolds with FN. Particularly, CTNTs scaffolds functionalized with 60 μg/mL FN promoted the highest proliferation and early differentiation. CTNTs scaffolds with FN showed potential as scaffolding material for bone regeneration.
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壳聚糖-TiO2纳米管支架与纤连蛋白的功能化骨再生
复合支架是一种很有前途的再生药物。然而,壳聚糖-TiO2纳米管(CTNT)支架作为一种复合支架,其生物相容性较低。本研究旨在通过使用纤连蛋白(FN)来提高CTNTs支架的体外功效,并研究这种支架对FN的吸附亲和力。通过TiO2纳米管(TNTs)和壳聚糖溶液的直接共混制备了CTNT支架。然后对混合物进行24小时冷冻和24小时冷冻干燥。支架通过吸附用FN溶液(20、40、60、80和100μg/mL)进一步功能化。通过比色法测定支架对FN的吸附量。MG63用于评价FN对CTNTs支架的体外疗效。CTNTs支架对FN的吸附亲和力很高,因为没有达到饱和。FN在CTNTs支架上的吸附等温线与Temkin等温线拟合良好,表明支架与FN之间存在静电相互作用。在含有FN的CTNTs支架上培养的MG63中观察到增殖和早期分化增强。特别是,用60μg/mL FN功能化的CTNTs支架促进了最高的增殖和早期分化。含有FN的CTNT支架显示出作为骨再生支架材料的潜力。
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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
73
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