具有细胞响应的电纺聚己内酯/明胶复合纳米纤维支架的制备

Jaianand Kannaiyan, Saurabh Khare, S. Narayanan, Firdosh Mahuvawalla
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引用次数: 4

摘要

许多伤口护理产品已被研究用于皮肤组织工程。影响皮肤替代物选择的因素有:患者情况、创面深度、创面感染等。决定皮肤替代品的其他因素还包括成本、可获得性、易于储存、所需的手术干预。从印度市场的角度来看,商业上可用的皮肤替代品要么昂贵,要么仅限于主要城市。迫切需要一种成本有效的皮肤替代品,以最小的疤痕和最大的功能愈合伤口。本研究的目的是探讨沃顿氏果冻衍生间充质干细胞的合成支架的可能性,并探讨支架在体外培养间充质干细胞增殖和分化中的作用,以实现具有更好生物学性能的伤口移植替代品的愈合。结果,WJ-MSCs被分离、收获并播种在制备的PCL/GE纳米纤维支架表面。研究了MSCs的抗炎、细胞毒性、细胞增殖的生物学特性和生长情况,SEM分析表明,制备的合成支架支持细胞附着、细胞活力和细胞增殖。对纳米纤维进行了ATR-FTIR、XRD、TEM、粘度和降解等表征研究,结果表明,载干细胞的纳米纤维支架可以作为一种良好的组织工程皮肤基础,用于伤口愈合和皮肤再生。
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Fabrication of Electrospun Polycaprolactone/Gelatin Composite Nanofibrous Scaffolds with Cellular Responses
Numerous wound care products have been investigated for skin tissue engineering. Factors which influence to skin substitute selection are condition of patient, wound depth, infection in wound. Other factors which also play role in deciding skin substitute are cost, its availability, ease of storage, required operative interventions. With perspective of Indian market, commercial available skin substitutes are either costly or their availability restricted to major cities only. A cost effective skin substitute is strongly needed to heal wounds with minimal scarring and maximum function. The aim of this study was to investigate the possibility of synthetic scaffold loaded with Wharton’s jelly derived Mesenchymal stem cells and to access the role of scaffolds in proliferation and differentiation of MSCs in-vitro, in order to achieve for the healing of wound graft substitutes with improved biological properties. As a result, WJ-MSCs were isolated, harvested and seeded on the surface of the fabricated PCL/GE nanofibrous scaffold. The biological properties and growth of MSCs were studied for anti-inflammation, cytotoxicity, cell proliferation, and SEM analysis indicated that the fabricated synthetic scaffold supported cells attachment, viability, and proliferation of cells. The characterization studies of nanofibers were studied for ATR-FTIR, XRD, TEM, viscosity, and degradation studies suggest that the nanofibrous scaffold loaded with stem cells could be an excellent tissue-engineered skin base for wound healing and skin regeneration.
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