Mesenchymal stem cell culture in aligned porous hydroxyapatite scaffolds using a multiwell plate bioreactor for bone tissue engineering

Gayathry G., Athira R. K., Anju M. S., Anil Kumar P. R., Harikrishna Varma P. R., Naresh Kasoju, Manoj Komath
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Abstract

Regeneration of bone lost by trauma, diseases and aging, and restoration of its load-bearing function are major clinical challenges. Hydroxyapatite (HA) is a clinically proven scaffold material for bone grafting, but the random-pore structure limits the homing of the cells inside the graft and the bone regeneration progresses with the resorption of the graft material. This work is based on the hypothesis that aligned through pores in the graft will lead to a faster healing by homing the local cells inside and provide a better environment for new bone formation through the graft structure. The investigation was done using aligned porous HA scaffolds seeded with human Wharton's jelly-derived mesenchymal stem cells (hWJ-MSCs) and cultured in a multiwell format bioreactor setup. The cell adhesion was studied by microscopy, cell proliferation was evaluated by Alamar blue assay and osteogenic differentiation was confirmed by biochemical and molecular assays. The results indicate that the hWJ-MSCs infiltrated through the aligned porous network of the scaffold, proliferated well when cultured in the expansion medium, and differentiated into osteogenic lineage when cultured in the differentiation medium.

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骨组织工程中多孔羟基磷灰石支架间充质干细胞的多孔板生物反应器培养
创伤、疾病和衰老导致的骨丢失的再生及其承载功能的恢复是临床面临的主要挑战。羟基磷灰石(Hydroxyapatite, HA)是临床证实的一种用于骨移植的支架材料,但其随机孔结构限制了细胞在移植物内部的归巢,骨再生过程需要随着移植物材料的吸收而进行。这项工作是基于这样的假设,即通过移植物中的孔隙排列可以通过将局部细胞归巢在内部而导致更快的愈合,并通过移植物结构为新骨形成提供更好的环境。该研究使用排列多孔透明质酸支架,植入人类沃顿氏凝胶源间充质干细胞(hWJ-MSCs),并在多孔式生物反应器中培养。显微镜下观察细胞粘附情况,Alamar蓝法观察细胞增殖情况,生化及分子检测证实成骨分化。结果表明,hWJ-MSCs通过支架的排列多孔网络浸润,在膨胀培养基中培养时增殖良好,在分化培养基中培养时分化为成骨谱系。
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