利用人脐带华氏冻分离的间充质干细胞(MSCs)支架进行神经肌肉再生

A.R. Caseiro , T. Pereira , J. Ribeiro , J.D. Santos , I. Amorim , A.L. Luís , A.C. Maurício
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引用次数: 2

摘要

严重事件后的周围神经再生仍然是再生医学领域的一个具有挑战性的课题,特别是当神经组织丢失且无法直接缝合时。鉴于目前可用的技术观察到的有限成功,研究人员一直在努力开发和优化这些技术,旨在为受影响的患者提供最佳的康复机会。本研究探索了两种合成生物材料管功能化方法的结合:导电生物材料的作用及其与活性细胞系统的关联。制备并研究了一种由聚乙烯醇(PVA)组成的载有羧酸功能化多壁碳纳米管(CNTs)的导管导管,该导管导管可单独或与从脐带沃顿氏果冻(WJ)分离的间充质干细胞(MSCs)细胞系统联合使用。评估导管导管与WJ间充质干细胞的体外细胞相容性,并在神经损伤啮齿动物模型中测试其体内性能。将动物分为PVA-CNTs、PVA-CNTs- mscs、移植物组或端到端重建组,并在再生20周后进行评估。结构分析显示,PVA-CNTs-MSCs组整体恢复更为明显,与无细胞组有显著差异,与端到端修复组和移植物组相似。令人惊讶的是,PVA-CNTs-MSCs对神经源性肌肉萎缩的恢复没有好处。总的来说,电功能管导向器是神经重建的一个有趣的选择,无论是单独还是与MSCs细胞系统结合。
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Neuro-muscular regeneration using scaffolds with mesenchymal stem cells (MSCs) isolated from human umbilical cord Wharton's jelly

Peripheral nerve regeneration following severe events is still a challenging topic in the regenerative medicine field, especially when nerve tissue is lost and direct suturing is not feasible. Given the limited success observed in currently available techniques, researchers have been putting efforts towards the development and optimization of these techniques, aiming at the best recovery chances for affected patients. The present work explores the combination of two methods of synthetic biomaterial tubes functionalization: the effect of electroconductive biomaterials and its association to an active cellular system. A tube-guide comprised of polyvinyl alcohol (PVA) loaded with COOH-functionalized multiwall carbon nanotubes (CNTs) was produced and studied alone or in combination with a cellular system of mesenchymal stem cells (MSCs) isolated from the umbilical cord Wharton's jelly (WJ). Tube-guides were assessed for in vitro cytocompatibility to the WJ MSCs and tested for in vivo performance in a neurotmesis rodent model. Animals were assigned to either PVA-CNTs, PVA-CNTs-MSCs, graft or end-to-end reconstruction groups and assessed after 20 weeks of regeneration. Structural analysis revealed overall more evident recovery in the PVA-CNTs-MSCs group, with significant differences to the cell-free group and similar to End-to-End repaired and Grafted groups. Surprisingly, PVA-CNTs-MSCs did no benefit neurogenic muscle atrophy recovery. Overall, the electrofucntionalized tube-guides post an interesting option for nerve reconstruction alone or in combination to MSCs cellular systems.

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