致密骨来源的三维生物支架:制备、表征和评估其对骨髓间充质干细胞(BMSCS)生长和分化的潜力

IF 0.2 Q4 EMERGENCY MEDICINE
Rozita Ghahremani, A. Asadi, S. Zahri
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引用次数: 0

摘要

背景:由于骨缺损可导致不同程度的残疾,骨组织工程已成为人们研究的热点。在这种情况下,支架在为细胞体外生长提供三维结构方面发挥着重要的作用,是组织工程的关键要素。目的:本研究的目的是利用牛股骨致密骨提供三维生物支架,并通过间充质干细胞的种植和向骨组织分化,探讨其作为生物三维ECM生物支架在组织工程中的应用潜力。方法:将牛大腿骨切成小块后进行脱矿脱细胞制备生物支架。采用MTT法评价生物支架的生物相容性。采用扫描电镜(SEM)技术观察骨髓间充质干细胞(BMSCs)在生物支架上的形态和细胞粘附特性。最后,将细胞用成骨分化培养基处理,然后评估其分化情况。结果:组织学研究表明,使用十二烷基硫酸钠(2.5%)8 h可消除细胞。x光片和草酸钙试验证实脱矿。MTT实验和扫描电镜研究表明,所制备的生物支架具有良好的生物相容性,可为细胞粘附和运动提供最佳的三维环境。茜素红染色显示骨髓间充质干细胞分化率较高。结论:在本研究中,骨源性3D生物支架由于其天然特性、细胞粘附特性和向骨组织分化的潜力,在BMSCs的生长和分化中发挥了重要作用。它可能有潜力作为生物支架,作为骨组织工程中维持、生长的支持指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dense Bone-Derived 3d Bioscaffold: Preparation, Characterization, and Assessment of Its Potential for Bone Marrow Mesenchymal Stem Cells (BMSCS) Growth and Differentiation
Background: Since bone defects can result in different disabilities, many efforts have been made to bone tissue engineering. In this case, scaffolds play an important role as a key element of tissue engineering in providing three-dimensional structure for cell growth in vitro Objective: The aim of the present study was to provide the three-dimensional biological bioscaffold from the bovine femur dense bone and investigate the possibility of its potential for application in tissue engineering as biological 3D ECM bioscaffold via mesenchymal stem cells seeding and differentiation toward bone tissue. Methods: For the preparation of bioscaffolds, after cutting bovine femur bone into small pieces, demineralization and decellularization were done. Bioscaffolds biocompatibility was evaluated using an MTT assay. The morphological and cell adhesion characteristics of Bone marrow mesenchymal stem cells (BMSCs) on the bioscaffolds were evaluated using Scanning Electron Microscopy (SEM) technique. Finally, the cells were treated with an osteogenic differentiation medium and then evaluated for differentiation. Results: Histological studies showed that the use of sodium dodecyl sulfate (2.5%) for 8 h eliminated the cells. Radiography and calcium oxalate test confirmed demineralization. MTT assay and SEM studies showed that the obtained bioscaffolds are biocompatible and could provide an optimum three-dimensional environment for cell adhesion and movement. Moreover, the Alizarin red staining showed a higher differentiation rate for BMSCs. Conclusion: In the present study, bone-derived 3D bioscaffold showed an important role in the growth and differentiation of BMSCs, due to the natural characteristics, cell adhesion properties, and potential to enhance differentiation toward bone tissue. It may have the potential for use as bioscaffold as supporting metrics for maintenance, growth in bone tissue engineering.
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Trauma monthly
Trauma monthly EMERGENCY MEDICINE-
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