Morphology research of the rat sciatic nerve bridged by collage-heparin sulfate scaffold.
Morphology research of the rat sciatic nerve bridged by collage-heparin sulfate scaffold.
2005 Apr 22
Wang SS, Hu YY, Luo ZJ, Chen LW, Liu HL, Meng GL, Lu R, Xu XZ.
Zhonghua Wai Ke Za Zhi.
PubMed
Institute of Orthopaedics, Xijing Hospital, the Fourth Military Medical University, Xi'an 710032, China.
OBJECTIVE: To observe the treating effect of collage-heparin sulfate after the 10 mm rat sciatic nerve defect was bridged by it. METHODS: A new kind of nervous tissue engineering scaffold was produced by freeze-drying technique from collagen-heparin sulfate. Thirty-two SD rats were randomly divided into A, B, C and D groups. Sciatic nerve defect in group A was bridged by collagen-heparin sulfate. In group B, sciatic nerve was bridged by auto-nerve transplantation. Group C was the blank control group. Animals in group D were normal. And 10 mm sciatic nerve defect was bridged in the experiment. Thirty-six weeks after the operation, the experimental animals were detected by HRP labeled retrograde trace, HE staining, toluidine staining, silvering staining, S100, GAP-43 and NF immunohistological staining, MBP immunofluorscence staining and transmission electron microscope to observe the nerve regeneration inducing effect of this new scaffold. RESULTS: Nine months after operation, the collage-heparin sulfate scaffold was replaced by newly regenerated nerve. The number of HRP labeled spinal cord anterior horn cells and the area of sensation nerve fiber at the posterior horn were similar with that was repaired by auto-nerve. GAP-43, NF and S100 labeled regenerated nerve fiber had passed the total scaffold and entered the distal terminal. The regenerated nerve fibers were paralleled, lineage arranged, coincide with the prearranged regenerating "channel" in the collagen-heparin sulfate scaffold. MBP immunofluorscence staining also proved that the newly regenerated nerve fiber could be ensheathed. In the experimental group, the area of myelinated nerve fiber and the thickness of the myelin sheath had no obvious difference with that of the group repaired by auto-nerve, except that the density of the regenerated myelinated sheath fiber was lower than that of the control group. CONCLUSION: Nervous tissue engineering scaffold produced by collagen-heparin sulfate can guide the regeneration of nerve fibers. The nerve function recovers fine. This kind of material has great application potential.
PMID: 15938914 [PubMed - in process]
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