脱细胞坐骨神经组织工程神经导管上DBM纳米颗粒的生物合成、表征及其支持特性和生物相容性的评估

Biosynthesis, characterization and evaluation of the supportive properties and biocompatibility of DBM nanoparticles on a tissue-engineered nerve conduit from decellularized sciatic nerve.

作者信息

Nasrollahi Nia Faezeh, Asadi Asadollah, Zahri Saber, Abdolmaleki Arash

机构信息

Department of Biology, Faculty of Science, University of Mohaghegh Ardabili, Ardabil, Iran.

Department of Engineering Sciences, Faculty of Advanced Technologies, University of Mohaghegh Ardabili, Namin, Iran.

出版信息

Regen Ther. 2020 May 21;14:315-321. doi: 10.1016/j.reth.2020.03.004. eCollection 2020 Jun.

DOI:10.1016/j.reth.2020.03.004

PMID:32467828

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7243182/

Abstract

In this study, we examined the supporting effects of nano-demineralized bone matrix on the cultivation of Wharton's jelly stem cells on acellularized nerve scaffold. Demineralized bone matrix nanoparticles were prepared and characterized by several experiments. Decellularized sciatic nerve scaffolds were prepared and their efficiency was evaluated using histological stainings and biomechanical testing. Results of histological staining indicated that the integrity of the extra cellular matrix components was preserved. Also, the growth and viability of WJSCs on the scaffolds were significantly higher in DBM nanoparticle groups. We conclude that supportive properties of nano-DBM groups showed better cell viability and a suitable microenvironment for proliferation, retention, and adhesion of cells compared with other groups.

摘要

在本研究中，我们考察了纳米脱矿骨基质对沃顿胶干细胞在脱细胞神经支架上培养的支持作用。制备了脱矿骨基质纳米颗粒并通过多项实验对其进行表征。制备了脱细胞坐骨神经支架，并使用组织学染色和生物力学测试评估其效能。组织学染色结果表明细胞外基质成分的完整性得以保留。此外，在脱矿骨基质纳米颗粒组中，沃顿胶干细胞在支架上的生长和活力显著更高。我们得出结论，与其他组相比，纳米脱矿骨基质组的支持特性显示出更好的细胞活力以及适合细胞增殖、留存和黏附的微环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9c3b/7243182/4671b6abcc58/gr1.jpg

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脱细胞坐骨神经组织工程神经导管上DBM纳米颗粒的生物合成、表征及其支持特性和生物相容性的评估

Biosynthesis, characterization and evaluation of the supportive properties and biocompatibility of DBM nanoparticles on a tissue-engineered nerve conduit from decellularized sciatic nerve.

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