聚乳酸-羟基乙酸(PLGA)/纤维蛋白纳米纤维垫促进脂肪来源的干细胞生长和增殖

Q3 Biochemistry, Genetics and Molecular Biology

Journal of Applied Biotechnology Reports Pub Date : 2021-02-03 DOI:10.30491/JABR.2020.223551.1199

Mohsen Norouzi, M. Rafienia, E. Poorazizi, M. Setayeshmehr

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引用次数: 3

摘要

简介：一种具有优异机械性能的合成生物材料，如聚乳酸-乙醇酸（PLGA），以及一种促进细胞附着和增强生物相容性的天然聚合物，可用于生产新型复合组织工程支架。在本研究中，我们制备了一种PLGA/纤维蛋白支架，该支架被评估为可增强脂肪来源干细胞的生长和增殖。材料和方法：制备具有不同比例PLGA:纤维蛋白的10%聚合物溶液，包括10:0、9:1、8:2和7:3，并用于生产对齐和未对齐的电纺纳米纤维支架。在支架上培养人脂肪来源干细胞（h-ADSCs），并使用FTIR、EDX、SEM、力学、亲水性、降解、吸水性和生物相容性测试对其进行表征。结果：获得的支架由均匀的纤维组成，没有任何珠粒和水滴。对齐和未对齐的电纺支架之间的孔隙率和空腔内部相关性没有显著差异（P>0.05），通过添加纤维蛋白，这些性能得到了改善，同时抗拉强度和弹性降低。所有支架都是疏水性的，最高和最低的溶胀率属于PLGA/30%纤维蛋白支架和纯PLGA支架（分别大于90%和小于45%）。含有纤维蛋白的支架和纯PLGA支架的降解率存在显著差异。此外，与对齐的电纺支架相比，未对齐的支架的降解率更高。结论：结合扫描电镜和生物相容性实验的结果，引入了具有大量纺锤形h-ADSCs的定向电纺PLGA/10%纤维蛋白支架和具有大量纺锤形细胞和几种圆形细胞的未定向电纺PLLGA/20%纤维蛋白架构作为最佳选择。

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Adipose-Derived Stem Cells Growth and Proliferation Enhancement Using Poly(Lactic-co-Glycolic Acid) (PLGA)/Fibrin Nanofiber Mats

Introduction: A synthetic biomaterial, such as poly(lactic-co-glycolic acid) (PLGA) with superior mechanical properties, along with a natural polymer such as fibrin, which facilitates cell attachment and enhances biocompatibility, can be used in the production of novel composite tissue engineering scaffolds. In this study, we fabricated a PLGA/Fibrin scaffold which was evaluated to the enhancement of adipose-derived stem cells' growth and proliferation. Materials and Methods: 10% polymer solutions with different ratios of PLGA:Fibrin, including 10:0, 9:1, 8:2, and 7:3, were prepared and used in the production of aligned and unaligned electrospun nanofiber scaffolds. Human adipose-derived stem cells (h-ADSCs) were cultured on the scaffolds and they were characterized using FTIR, EDX, SEM, mechanical, hydrophilic, degradation, water absorption, and biocompatibility tests. Results: The obtained scaffolds consisted of homogeneous fibers, without any beads and water droplets. The percentage of porosities and internal correlation of the cavities are not significantly different between aligned and unaligned electrospun scaffolds (P>0.05) and by adding fibrin, these properties are improved, while tensile strength and elasticity are decreased. All the scaffolds are hydrophobic and the highest and lowest swelling rates belong to PLGA/30%Fibrin scaffolds and pure PLGA scaffolds (more than 90% and less than 45%, respectively). There is a significant difference in degradation rates between fibrin-contained scaffolds and pure PLGA scaffolds. Moreover, compared with aligned electrospun scaffolds, a higher degradation rate of unaligned ones was observed. Conclusions: Considering the results of SEM and bio-compatibility experiments, the aligned electrospun PLGA/10%Fibrin scaffold with numerous spindle shape h-ADSCs and unaligned electrospun PLGA/20%Fibrin scaffold with lots of spindle shape cells together with sort of round shape cells are introduced as the optimal options.

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来源期刊

Journal of Applied Biotechnology Reports Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The Journal of Applied Biotechnology Reports (JABR) publishes papers describing experimental work relating to all fundamental issues of biotechnology including: Cell Biology, Genetics, Microbiology, Immunology, Molecular Biology, Biochemistry, Embryology, Immunogenetics, Cell and Tissue Culture, Molecular Ecology, Genetic Engineering and Biological Engineering, Bioremediation and Biodegradation, Bioinformatics, Biotechnology Regulations, Pharmacogenomics, Gene Therapy, Plant, Animal, Microbial and Environmental Biotechnology, Nanobiotechnology, Medical Biotechnology, Biosafety, Biosecurity, Bioenergy, Biomass, Biomaterials and Biobased Chemicals and Enzymes. Journal of Applied Biotechnology Reports promotes a special emphasis on: -Improvement methods in biotechnology -Optimization process for high production in fermentor systems -Protein and enzyme engineering -Antibody engineering and monoclonal antibody -Molecular farming -Bioremediation -Immobilizing methods -biocatalysis