Midha Rajiv, Munro Catherine A, Dalton Paul D, Tator Charles H, Shoichet Molly S
Division of Neurosurgery and Neuroscience Research Program, Sunnybrook & Women's College Health Sciences Centre, Toronto, Ontario, Canada.
J Neurosurg. 2003 Sep;99(3):555-65. doi: 10.3171/jns.2003.99.3.0555.
The authors' long-term goal is repair of peripheral nerve injuries by using synthetic nerve guidance devices that improve both regeneration and functional outcome relative to an autograft. They report the in vitro processing and in vivo application of synthetic hydrogel tubes that are filled with collagen gel impregnated with growth factors.
Poly(2-hydroxyethyl methacrylate-co-methyl methacrylate) (PHEMA-MMA) porous 12-mm-long tubes with an inner diameter of 1.3 mm and an outer diameter of 1.8 mm were used to repair surgically created 10-mm gaps in the rat sciatic nerve. The inner lumen of the tubes was filled with collagen matrix alone or matrix supplemented with either neurotropin-3 at 1 microg/ml, brain-derived neurotrophic factor at 1 microg/ml, or acidic fibroblast growth factor (FGF-1) at 1 or 10 microg/ml. Nerve regeneration through the growth factor-enhanced tubes was assessed at 8 weeks after repair by histomorphometric analysis at the midgraft level and in the nerve distal to the tube repair. The tubes were biostable and biocompatible, and supported nerve regeneration in more than 90% of cases. Nerve regeneration was improved in tubes in which growth factors were added, compared with empty tubes and those containing collagen gel alone (negative controls). Tubes filled with 10 microg/ml of FGF-1 dispersed in collagen demonstrated regeneration comparable to autografts (positive controls) and showed significantly better regeneration than the other groups.
The PHEMA-MMA tubes augmented with FGF-1 in their lumens appear to be a promising alternative to autografts for repair of nerve injuries. Studies are in progress to assess the long-term biocompatibility of these implants and to enhance regeneration further.
作者的长期目标是使用合成神经导向装置修复周围神经损伤,该装置相对于自体移植能改善神经再生和功能结果。他们报告了填充有浸渍生长因子的胶原凝胶的合成水凝胶管的体外处理和体内应用。
使用内径1.3毫米、外径1.8毫米、长12毫米的聚(甲基丙烯酸2-羟乙酯-共-甲基丙烯酸甲酯)(PHEMA-MMA)多孔管修复大鼠坐骨神经手术造成的10毫米间隙。管的内腔单独填充胶原基质或补充有1微克/毫升的神经营养蛋白-3、1微克/毫升的脑源性神经营养因子或1或10微克/毫升的酸性成纤维细胞生长因子(FGF-1)的基质。在修复后8周,通过移植中部水平和管修复远端神经的组织形态计量分析评估通过生长因子增强管的神经再生。这些管具有生物稳定性和生物相容性,在超过90%的病例中支持神经再生。与空管和仅含胶原凝胶的管(阴性对照)相比,添加生长因子的管中神经再生得到改善。填充有分散在胶原中的10微克/毫升FGF-1的管显示出与自体移植相当的再生(阳性对照),并且比其他组显示出明显更好的再生。
内腔中添加FGF-1的PHEMA-MMA管似乎是修复神经损伤的自体移植的有前途的替代物。正在进行研究以评估这些植入物的长期生物相容性并进一步增强再生。
