Long-Term Effects of Fibrin Conduit with Human Mesenchymal Stem Cells and Immunosuppression after Peripheral Nerve Repair in a Xenogenic Model.

Cell medicine Pub Date : 2018-05-31 eCollection Date: 2018-01-01 DOI:10.1177/2155179018760327
Aleksandra M McGrath, Maria Brohlin, Rebecca Wiberg, Paul J Kingham, Lev N Novikov, Mikael Wiberg, Liudmila N Novikova
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引用次数: 12

Abstract

Introduction: Previously we showed that a fibrin glue conduit with human mesenchymal stem cells (hMSCs) and cyclosporine A (CsA) enhanced early nerve regeneration. In this study long term effects of this conduit are investigated.

Methods: In a rat model, the sciatic nerve was repaired with fibrin conduit containing fibrin matrix, fibrin conduit containing fibrin matrix with CsA treatment and fibrin conduit containing fibrin matrix with hMSCs and CsA treatment, and also with nerve graft as control.

Results: At 12 weeks 34% of motoneurons of the control group regenerated axons through the fibrin conduit. CsA treatment alone or with hMSCs resulted in axon regeneration of 67% and 64% motoneurons respectively. The gastrocnemius muscle weight was reduced in the conduit with fibrin matrix. The treatment with CsA or CsA with hMSCs induced recovery of the muscle weight and size of fast type fibers towards the levels of the nerve graft group.

Discussion: The transplantation of hMSCs for peripheral nerve injury should be optimized to demonstrate their beneficial effects. The CsA may have its own effect on nerve regeneration.

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移植人间充质干细胞的纤维蛋白导管在异种神经修复后的长期作用和免疫抑制。
导语:之前我们已经证明了含有人间充质干细胞(hMSCs)和环孢素a (CsA)的纤维蛋白胶导管可以增强早期神经再生。本研究对该导管的长期影响进行了研究。方法:采用含纤维蛋白基质的纤维蛋白导管、含纤维蛋白基质的纤维蛋白导管联合CsA、含纤维蛋白基质的纤维蛋白导管联合hMSCs和CsA修复大鼠坐骨神经模型,并采用神经移植物作为对照。结果:12周时,对照组有34%的运动神经元通过纤维蛋白导管再生轴突。单独使用CsA或与hMSCs一起使用CsA分别使67%和64%的运动神经元轴突再生。纤维蛋白基质使导管内腓肠肌重量减轻。CsA或CsA联合hMSCs处理后,肌肉重量和快型纤维大小恢复到神经移植物组水平。讨论:周围神经损伤的hMSCs移植应优化,以显示其有益作用。CsA可能对神经再生有自己的作用。
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Cell medicine
Cell medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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