摘要
摘要:目的 探讨壳聚糖与琼脂糖水凝胶载体及外源性神经生长因子联合制成组织工程神经支架复合体修复大鼠周围神经缺损的可行性。方法 壳聚糖与琼脂糖水凝胶载体及外源性的神经生长因子结合,制备成新型的组织工程神经支架复合体,修复大鼠坐骨神经10 mm缺损,术后16周进行免疫组织化学等再生神经形态学观察。用单纯壳聚糖导管和自体神经分别作为阴性、阳性对照。结果 复合支架组的神经再生数目和直径均优于单纯壳聚糖导管组(P < 0.01),与自体神经移植组相当。结论 壳聚糖与琼脂糖水凝胶载体及外源性的神经生长因子结合,制备成的组织工程神经支架复合体对大鼠神经再生提供良好的再生微环境,可明显促进神经再生,效果接近自体神经移植水平。
Abstract
Abstract: Objective To study the feasibility to repair the peripheral nerve gap with tissue engineering scaffold complex that is composed of medical biodegradable material agarose hydrogel and nerve growth factor (NGF). Methods Chitosan tube containing agarose hydrogel and NGF was transplanted to bridge a 10 mm gap of injured sciatic nerve in rat. Chitosan duct without agarose hydrogel and NGF was used as negative control, while autograft nerve as positive control. Sixteen weeks after operation, the regeneration of nerve fiber was observed with morphological and immunohistochemistrical methods. Result The number and diameter of regenerating nerve fibers bridged by the scaffold complex of agarose hydrogel and NGF were better than negative control group(P < 0.01)and reached the level of autograft nerve group. Conclusions The new type of tissue engineering scaffold complex of agarose hydrogel and NGF may provide a microenvironment, as well as autograft nerve, to promote nerve regeneration. This technique may benefit patients with nerve injury in the future.
关键词
神经支架 /
组织工程 /
神经缺损 /
神经生长因子
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Key words
nerve scaffold /
tissue encineerinc /
nerve cap /
nerve crowtd factor
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王 伟,范 明,智小东,刘淑红,刘品端.
神经支架复合体修复周围神经缺损. 中国医学科学院学报. 2005, 27(6): 688-691
Wang Wei, Fan Ming, Zhi Xiao-dong, Liu Shu-hong, Liu Pin-duan.
Repair of Peripheral Nerve Gap with the Use of Tissue Engineering Scaffold Complex. Acta Academiae Medicinae Sinicae. 2005, 27(6): 688-691
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参考文献
1 Mohammad J, Shenaq J, Rabinovsky E, et al. Modulation of peripheral nerve regeneration: a tissue-engineering approach. The role of amnion tube nerve conduct across a 1-centimeter nerve gap. Plast Reconstr Surg, 2000, 105(2):660-666
2 Schicho R, Skofitsch G, Donnerer J. Regenerative effect of human recombinant NGF on capsaicin-lesioned sensory neurons in the adult rat. Brain Res, 1999, 815(1):60-69
3 李 强, 李 民, 伍亚民. 雪旺氏细胞促进周围神经再生的分子机制. 中华物理医学康复杂志, 2004, 26(9):561-563
4 董红让,徐永年,黄继锋, 等. 聚乳酸/神经生长因子缓释导管修复周围神经缺损实验研究. 中国临床解剖学杂志, 2003, 21(5):482-485
5 Toba T, Nakamura T. Regeneration of canine peroneal nerve with the use of a polyglycolic acid-collagen tube filled with laminin-soaked collagen sponge: a comparative study of collagen sponge and collagen fibers as filling materials for nerve conducts. J Biomed Mater Res, 2001, 58(6):622-630
6 Evans GR, Brandt K, Katz S, et al. Bioactive poly(L-lactic acid) conducs seeded with Schwann cells for peripheral nerve regeneration. Biomaterials, 2002, 23(3):841-848
7 Balgude AP, Yu X, Szymanski A, et al. Agarose gel stiff- ness determines rate of DRG neurite extension in 3D cultures. Plast Reconstr Surg, 2001, 107(2):485-496
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