Abstract:【Objective】To observe the effect of Schwann cells on repairing radius defects with bone tissue engineering scaffolds composited with osteoblasts in rabbit.【Methods】Bone marrow mesenchymal stem cells (BMSCs) were isolated and cultured, then induced to differentiate into osteoblasts (IOBs). Schwann cells (SCs) were extracted from neonatal rabbit, which were identified by S-100 immunofluorescence. New Zealand rabbits were used to establish the model of radial defect. The models were randomly divided into 5 groups. group A was blank control group, while bone defects were implanted with nano-chitosan/hydroxyapatite porous scaffolds in group B. and bone defects were implanted with osteoblasts and scaffolds in group C. Furthermore, bone defects were implanted with Schwann cells and scaffolds in group D. and bone defects were implanted with Schwann cells, osteoblasts and scaffolds in group E. After 8 weeks, immunohistochemistry, HE staining, gross morphology and X-ray were performed to evaluate the formation of new bone in the radial defect of rabbits in each group.【Results】The results of X-ray examination after 8 weeks postoperatively showed that the bone defect was partially healed in B, C and D groups. Groups C and D showed better effects than group B. The bone defect in group E was healed completely, while the bone defect in group A weren't healed at all. Compared to group B or C or D after 8 weeks, HE staining showed that the number of osteoblasts and trabecular meshwork were the highest in group E. Also, bone repair was the fastest in group E. Immunohistochemistry showed that the expression of BDNF and NGF in group E were significantly higher than other groups.【Conclusion】Schwann cells (SCs) can significantly promote the repair of rabbit radius bone defects by engineering scaffold composited with osteoblasts, which was closely related to the expression of BDNF and NGF.
连峰,崔勇,陈会超,吴立文,曲敬. 雪旺细胞对骨组织工程支架材料复合成骨细胞修复兔桡骨缺损的影响[J]. 医学临床研究, 2018, 35(3): 417-421,424.
LIAN Feng, CUI Yong, CHEN Hui-chao, et al. Effect of Schwann Cells on Repairing Rabbit Radius Defect with Tissue Engineered Bone Combined with Osteoblasts. JOURNAL OF CLINICAL RESEARCH, 2018, 35(3): 417-421,424.
[1] Nagineni VV,James AR,Alimi M,et al.Silicate-substituted calcium phosphate ceramic bone graft replacement for spinal fusion procedures[J].Spine,2012,37(20):E1264-E1272. [2] Sen MK,Miclau T.Autologous iliac crest bone graft:should it still be the gold standard for treating nonunions[J]?Injury,2007,38 (Suppl 1):S75-S80. [3] Calori GM,Colombo M,Mazza EL,et al.Incidence of donor site morbidity following harvesting from iliac crest or RIA graft[J].Injury,2014,45(Suppl 6):S116-S120. [4] Dimitriou R.Bone regeneration:current concepts and future directions[J].BMC Med,2011,9:66. [5] Lei Y,Xu Z,Ke Q,et al.Strontium hydroxyapatite/chitosan nanohybrid scaffolds with enhanced osteoinductivity for bone tissue engineering[J].Mater Sci Eng C Mater Biol Appl,2017,72:134-142.[6] Kneser U,Polykandriotis E,Ohnolz J,et al.Engineering of vascularized transplantable bone tissues:induction of axial vascularization in an osteoconductive matrix using an arteriovenous loop[J].Tissue engineering,2006,12(7):1721-1731. [7] Fan J,Bi L,Jin D,et al.Microsurgical techniques used to construct the vascularized and neurotized tissue engineered bone[J].Biomed Res Int,2014,2014:281872. [8] Franquinho F,Liz MA,Nunes AF,et al.Neuropeptide Y and osteoblast differentiation--the balance between the neuro-osteogenic network and local control[J].FEBS J,2010,277(18):3664-3674. [9] Elefteriou F.Regulation of bone remodeling by the central and peripheral nervous system[J].Arch Biochem Biophys,2008,473(2):231-236. [10] Lerner UH,Persson E.Osteotropic effects by the neuropeptides calcitonin gene-related peptide,substance P and vasoactive intestinal peptide[J].J Musculoskelet Neuronal Interact,2008,8(2):154-165. [11] 姜晓锐,张鑫鑫,肖剑晖,等.大鼠雪旺细胞对两种来源的成骨细胞增殖分化影响的研究[J].中华创伤骨科杂志,2010,12(6):551-556. [12] 李亮,张鑫鑫,姜晓锐,等.雪旺细胞促进组织工程骨修复大鼠股骨缺损的实验研究[J].中华创伤骨科杂志,2013,15(2):148-152. [13] Long H,Ahmed M,Ackermann P,et al.Neuropeptide Y innervation during fracture healing and remodeling.A study of angulated tibial fractures in the rat[J].Acta Orthop,2010,81(5):639-646. [14] Horner EA,Kirkham J,Wood D,et al.Long bone defect models for tissue engineering applications:criteria for choice[J].Tissue Eng Part B Rev,2010,16(2):263-271. [15] Li G,Xiao Q,McNaughton R,et al.Nanoengineered porous chitosan/CaTiO3 hybrid scaffolds for accelerating Schwann cells growth in peripheral nerve regeneration[J].Colloids Surf B Biointerfaces,2017,158:57-67.
2018, Vol. 35 
