非表面功能化三维经济生物材料支架的研究

D. Narayanan, S. Bhat, G. Baranwal
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引用次数: 1

摘要

香蕉(Musa balbisiana)假茎3D支架是一种经济、可持续、环保的表面功能化聚合物和植物组织结构替代品,用于原代真核细胞和细胞系培养。通过冷冻干燥和环氧乙烷灭菌制备的Musa假茎3D微模式支架(MPM-3Ds)每mg组织中DNA含量为5.6ng,证实了其延长的脱细胞状态。热重分析、接触角测量、单轴测试和红外光谱分别测定了热稳定性、润湿性、抗拉强度和表面官能团。利用EDAX、HPLC和生化分析对天然富集MPM-3Ds的微量和宏量营养素、糖和氨基酸进行了估计。最重要的发现是,非表面功能化的MPM-3Ds支持人间充质干细胞、人原代肝细胞样细胞、小鼠原代脑皮质神经元、小鼠成纤维细胞和人胰腺癌细胞的附着、生长和分化。MPM-3Ds在Sprague Dawley大鼠体内表现出生物降解和生物相容性。这些发现阐明了大自然在MPM- 3Ds微模式摇篮中培育细胞的能力,可以支持干细胞分化、药物和化妆品测试以及生物传感器开发方面的创新研究,从而促进先进的生物医学研究。
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Characterization of innately decellularised micropattern pseudostem of Musa balbisiana - A non-surface functionalized 3D economic biomaterial scaffold
Banana (Musa balbisiana) pseudostem 3D scaffolds have been developed here for primary eukaryotic cell and cell line culture as an economical, sustainable, eco-friendly alternative for surface-functionalized polymeric and plant tissue-based structures. Musa pseudostem 3D micro pattern scaffold (MPM-3Ds) developed by freeze-drying followed by ethylene oxide sterilization yielded 5.6ng of DNA per mg of tissue, confirming its extended decellularised state. Thermogravimetric analysis, contact angle measurement, uniaxial testing, and FTIR determined thermal stability, wettability, tensile strength, and surface functional groups respectively. Micro and macronutrients, sugars, and amino acids that naturally enrich MPM-3Ds were estimated using EDAX, HPLC, and biochemical analysis. The most important finding was, non-surface functionalized MPM-3Ds supported attachment, growth, and differentiation of human mesenchyme stem cells, human primary hepatocytes like cells, primary mouse brain cortical neurons, mouse fibroblast cells, and human pancreatic cancer cells. MPM-3Ds showed in vivo biodegradation and biocompatibility in a preliminary analysis in Sprague Dawley rats. These findings illuminate nature's power to nurture cells in the micropattern cradles of MPM- 3Ds that can support innovative research in stem cell differentiation, drug and cosmetic testing, and biosensor development leading to advanced biomedical research.
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