芦荟溶液和含有聚(3-羟基丁酸-Co-3-羟基戊酸)的混合纳米纤维作为神经元生长基质的潜力。

María-Del-Mar Romero-Alemán, José-Manuel Pérez-Galván, José-Enrique Hernández-Rodríguez, Maximina Monzón-Mayor
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引用次数: 0

摘要

这项试验性研究调查了芦荟(AV)促进新生大鼠(15 只)有机型背根神经节(DRG)外植体(230 个)神经元生长的潜力。利用这种急性轴突切断术的体外模型,我们评估了超过外植体直径 1.5 倍(存活外植体)的神经元生长情况,并测量了最长神经元的长度。这些参数是在对照条件下以及在补充了商用 AV 和四种配准支架(聚左旋乳酸(PLLA)、聚二氧杂蒽酮(PDS)、聚(3-羟基丁酸-3-羟基戊酸)(PHBV)和混合 PHBV/AV 的培养物中进行评估的。培养 6 天后,用神经元特异性标记物 Tuj1 和许旺细胞标记物 S100 对外植体进行免疫染色。使用 Image J 软件进行测量,并使用 Jamovi 2.3 进行分析。研究显示,在对照组和 AV 稀释培养基中,组织从外植体径向生长,神经元随机定向,而在所有支架中,组织平行于纳米纤维双向生长。二项式逻辑回归分析表明,与 PDS 组(p = 0.0042)和 PHBV 组(p = 0.0042)相比,对照组的外植体更有可能存活。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Potential of Aloe Vera in Solution and in Blended Nanofibers Containing Poly (3-Hydroxybutyrate-Co-3-Hydroxyvalerate) as Substrates for Neurite Outgrowth.

This pilot study investigated the potential of aloe vera (AV) to promote neurite outgrowth in organotypic dorsal root ganglia (DRG) explants (n = 230) from neonatal rats (n = 15). Using this in vitro model of acute axotomy, we assessed neurite outgrowth exceeding 1.5 times the explant diameter (viable explants) and measured the longest neurite length. These parameters were evaluated under control conditions and in cultures supplemented with commercial AV and four aligned scaffolds: poly-L-lactate (PLLA), polydioxanone (PDS), poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV), and blended PHBV/AV. After 6 days of culture, explants were immunostained using neuron-specific marker Tuj1 and Schwann cell marker S100. Measurements were obtained with Image J software and analyzed using Jamovi 2.3. In control and AV dilution media, the study revealed radial tissue growth from the explant body with randomly oriented neurites, whereas in all scaffolds, bidirectional tissue growth occurred parallel to nanofibers. Binomial logistic regression analyses indicated that viable explants were more likely in the control group compared to PDS (p = 0.0042) and PHBV (p < 0.0001), with non-significant differences when compared to AV dilution, PLLA, and PHBV/AV. AV dilution showed a greater association with viable explants than PLLA (p = 0.0459), while non-significant difference was found between AV dilution and PHBV/AV. Additionally, the PHBV/AV scaffold predicted higher odds of viable explants than PLLA (p = 0.0479), PDS (p = 0.0001), and PHBV (p < 0.0001). Groups with similar probabilities of obtaining viable explants (control, AV dilution, and PHBV/AV) exhibited non-significant differences in their longest neurite lengths. In conclusion, control, AV dilution, and PHBV/AV yielded the highest probability of developing viable explants and the longest neurite lengths. This is the first study demonstrating the direct permissiveness of AV for axonal outgrowth. Furthermore, the blended PHBV/AV scaffold showed significant potential as a suitable scaffold for axonal regrowth and Schwann cell migration, ensuring controlled tissue formation for tissue engineering applications.

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