Schnell Eva, Klinkhammer Kristina, Balzer Simone, Brook Gary, Klee Doris, Dalton Paul, Mey Jörg
Institut für Biologie II, RWTH Aachen, Aachen, Germany.
Biomaterials. 2007 Jul;28(19):3012-25. doi: 10.1016/j.biomaterials.2007.03.009. Epub 2007 Mar 19.
Our long-term goal is to develop an artificial implant as a conduit for axonal regeneration after peripheral nerve injury. In this study, biodegradable, aligned poly-epsilon-caprolactone (PCL) and collagen/PCL (C/PCL) nanofibers designed as guidance structures were produced by electrospinning and tested in cell culture assays. We compared fibers of 100% PCL with fibers consisting of a 25:75% C/PCL blend. To test their biocompatibility, assays of cell adhesion, survival, migration, effects on cell morphology, axonal growth and axonal guidance were performed. Both types of eletrospun fibers supported oriented neurite outgrowth and glial migration from dorsal root ganglia (DRG) explants. Schwann cell migration, neurite orientation, and process formation of Schwann cells, fibroblasts and olfactory ensheathing cells were improved on C/PCL fibers, when compared to pure PCL fibers. While the velocity of neurite elongation from DRG explants was higher on PCL fibers, analysis of isolated sensory neurons showed significantly better axonal guidance by the C/PCL material. The data demonstrate that electrospun fibers composed of a collagen and PCL blend represent a suitable substrate for supporting cell proliferation, process outgrowth and migration and as such would be a good material for artificial nerve implants.
我们的长期目标是研发一种人工植入物,作为周围神经损伤后轴突再生的导管。在本研究中,通过静电纺丝制备了设计为引导结构的可生物降解、排列的聚己内酯(PCL)以及胶原蛋白/PCL(C/PCL)纳米纤维,并在细胞培养试验中进行了测试。我们将100% PCL纤维与由25:75% C/PCL混合物组成的纤维进行了比较。为测试它们的生物相容性,进行了细胞黏附、存活、迁移、对细胞形态的影响、轴突生长及轴突导向的试验。两种类型的静电纺丝纤维均支持背根神经节(DRG)外植体的定向神经突生长和神经胶质迁移。与纯PCL纤维相比,C/PCL纤维上施万细胞的迁移、神经突定向以及施万细胞、成纤维细胞和嗅鞘细胞的突起形成均得到改善。虽然DRG外植体的神经突伸长速度在PCL纤维上更高,但对分离的感觉神经元的分析表明,C/PCL材料的轴突导向明显更好。数据表明,由胶原蛋白和PCL混合物组成的静电纺丝纤维是支持细胞增殖、突起生长和迁移的合适基质,因此将是人工神经植入物的良好材料。
