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1.
BDNF基因修饰神经干细胞移植治疗脊髓损伤的实验研究   总被引:5,自引:0,他引:5  
目的研究BDNF基因修饰神经干细胞移植对脊髓损伤后神经细胞凋亡的影响。方法采用电控大鼠脊髓损伤打击装置制作大鼠脊髓损伤模型。120只SD大鼠随机分为4组:假手术组(Sham组),脊髓损伤组(SCI组),神经干细胞组(NSC组),BDNF基因修饰神经干细胞组(NSC-BDNF组)。通过免疫组化法检测大鼠脊髓BDNF、Bax、Bcl-2的表达,流式细胞仪检测大鼠脊髓细胞凋亡率。结果NSC-BDNF组中BDNF免疫阳性细胞光密度值较NSC、SCI组增加明显(P<0.05),表达时间及表达高峰延长,且Bcl-2的表达较其他组在各个时间点上均增高(P<0.05),而Bax的表达较其他组在各个时间点上均降低(P<0.05),凋亡率亦明显低于NSC和SCI组(P<0.01)。结论BDNF基因修饰神经干细胞移植可引起BDNF在损伤脊髓内有效表达,且明显的促进了脊髓损伤后Bcl-2的高表达,抑制了Bax的表达,从而降低了神经细胞的凋亡率。  相似文献   

2.
目的 探讨血管内皮生长因子(VEGF)基因修饰神经干细胞(NSC)移植治疗脑梗死大鼠模型的治疗效果,以及基因的表达情况和神经保护作用。方法 通过移植腺病毒载体介导的VEGF165基因转染的C17-2NSC到大鼠大脑中动脉阻断(MCAO)的局灶性脑缺血模型脑梗死半暗带区,观察移植后大鼠神经功能变化,神经特异性烯醇化酶(NSE)、CD31免疫组化检查观察细胞存活分化和血管新生情况。结果 VEGF病毒组、NSC移植组和VEGF基因修饰NSC组神经功能严重度评分均较对照组显著减少(P〈0.05),以VEGF基因修饰NSC组最为显著(P〈0.05);NSC移植后NSE阳性细胞数较对照组显著增多(P〈0.05),VEGF基因修饰NSC组更为碌著(P〈0.05);VEGF病毒组和VEGF基因修饰NSC移植组脑梗死灶周围血管数较对照组显著增多(P〈0.05),以VEGF基因修饰NSC组更为显著(P〈0.05)。结论 转染VEGF基因的C17.2NSC脑内移植治疗MCAO脑梗死模型可促进NSC向神经元分化,可促进新生血管形成,改善神经功能。VEGF基因修饰NSC移植治疗效果优于单纯的C17.2NSC移植或VEGF基因治疗。  相似文献   

3.
目的 观察转染绿色荧光蛋白(GFP)的大鼠脊髓神经干细胞移植于半横断脊髓损伤处的体内外分化情况.方法 将表达GFP的慢病毒载体转染胎鼠脊髓神经干细胞,体外用10%胎牛血清诱导分化.转染后的神经干细胞与PLGA支架移植于大鼠半横断脊髓损伤处,术后1个月和3个月取材,行GFAP、NF和CNP免疫荧光染色.结果 转染GFP的神经干细胞球表达强烈的绿色荧光,体外分化可见GFAP/GFP、NF/GFP和CNP/GFP双阳性细胞,GFAP/GFP双阳性细胞明显多于其他两种.移植后3个月,GFP阳性细胞在脊髓内明显减少,可见少数GFAP/GFP和CNP/GFP舣阳性细胞,未见NF/GFP双阳性细胞.结论 转染GFP的神经干细胞可在体外增殖和分化,但大部分分化成胶质细胞.移植于急性期脊髓损伤处的神经干细胞不被诱导分化成神经元样细胞,可被诱导分化成神经胶质细胞.  相似文献   

4.
背景:脊髓损伤的修复目前尚无良好的治疗手段,细胞移植能促进神经轴突再生及脊髓功能恢复,为治疗脊髓损伤提供了可能,但因脊髓损伤模型及移植方式不同,其治疗效果并不相同。 目的:验证异体骨髓间充质干细胞移植对大鼠脊髓损伤的治疗作用。 方法:全骨髓贴壁法分离大鼠骨髓间充质干细胞。健康SD大鼠随机分为3组,细胞移植组、对照组和假手术组。细胞移植组和对照组采用改良Allen重物打击法制造大鼠脊髓损伤模型,假手术组仅暴露脊髓。术后4周,每周进行运动功能评分,ELISA检测脊髓损伤组织中脑源性神经营养因子、神经生长因子表达;免疫荧光染色检测脊髓组织中NF200和胶质纤维酸性蛋白表达。 结果与结论:与对照组比较,细胞移植组大鼠运动功能明显改善,脊髓组织中脑源性神经营养因子、神经生长因子蛋白含量明显增高(P < 0.05);移植组大鼠脊髓囊腔较小,NF200表达明显增加,胶质纤维酸性蛋白表达减少。提示异体骨髓间充质干细胞移植能增加损伤脊髓神经生长因子含量,抑制胶质瘢痕形成,促进神经轴突再生,改善大鼠脊髓损伤后运动功能恢复。  相似文献   

5.
骨髓基质细胞移植治疗脊髓全横断损伤超微结构观察   总被引:1,自引:0,他引:1  
目的观察骨髓基质细胞(MSCs)移植治疗脊髓全横断损伤(SCI)超微结构,探讨内源性细胞与再生轴突关系。方法通过全骨髓法培养、纯化MSCs,SCI9d后移植MSCs,通过免疫荧光组化观察细胞移植后损伤区轴突再生情况,免疫荧光双标、免疫电镜观察再生轴突与内源性细胞关系。结果移植8W后实验组脊髓损伤区可见大量神经微丝蛋白200(NF200)阳性纤维,对照组脊髓损伤区未见明显的NF200阳性纤维。免疫荧光双标结果显示损伤区NF200阳性纤维和2,3'-环核苷酸磷酸而酯酶(CNP)阳性细胞之间存在密切的空间关系,免疫电镜显示CNP阳性细胞通过伸长丝状伪足形成再生轴突支架,内源性施万细胞参与再生轴突髓鞘形成。结论MSCs移植可促进损伤区轴突再生,宿主自身CNP阳性细胞和施万细胞参与损伤轴突的再生和髓鞘形成。  相似文献   

6.
神经干细胞移植对视网膜节细胞再生的影响   总被引:1,自引:0,他引:1  
目的探讨神经干细胞(NSCs)在视神经损伤后对视网膜节细胞轴突再生的作用及其在视神经内迁移和分化。方法实验动物分对照组(PBS组),实验组(NSCs组);成年SD大鼠在眼球后1min处切断视神经。移植NSCs或PBS至视神经断端;4周后以霍乱毒素B亚基顺行标记观察轴突再生情况,并观察NSCs在视神经内的迁移及免疫组织化学法检测移植后的细胞表达神经丝蛋白(NF)、2,3-环核苷酸磷酸二酯酶(CNP)、胶质纤维酸性蛋白(GFAP)的情况。结果4周后视网膜节细胞再生轴突穿过视神经断端到达远端,移植的NSCs分化为星形胶质细胞并在视神经内迁移0.5~1min。免疫组织化学法检测NSCs部分呈GFAP阳性,未见NF、CNP表达。结论NSCs移植可促进视网膜节细胞轴突再生,能在视神经内迁移并在视神经周围分化为星形胶质细胞。  相似文献   

7.
目的研究胎鼠神经干细胞(NSCs)移植对大鼠脊髓损伤(SCI)后神经细胞凋亡及凋亡抑制基因Bcl-2表达的影响。方法 40只SD大鼠随机分为正常对照组(Normal组),脊髓损伤组(SCI组),神经干细胞组(NSC组),神经干细胞标记组(BrdU+NSCs组)。采用电控脊髓损伤打击装置制作模型,5-溴脱氧尿嘧啶核苷(Br-dU)法标记处于对数生长期的NSCs,SCI后即刻进行NSCs移植。免疫组化法观察BrdU标记NSCs的存活、迁移及凋亡抑制基因Bcl-2的表达,TUNEL法标记凋亡细胞(免疫组化及免疫荧光显色),改良Rivlin法观察大鼠后肢运动功能的恢复情况。结果 BrdU+NSCs组在损伤脊髓区域可检测到BrdU标记的阳性NSCs。BrdU+NSC组与NSC组各时间点凋亡阳性细胞数均比SCI组减少(P<0.01),Bcl-2免疫阳性细胞光密度值比SCI组明显增加(P<0.01),且Bcl-2表达高峰延长至伤后7d;移植后7d、14d、28d后肢运动功能评分较SCI组明显升高(P<0.01)。Br-dU+NSC组与NSC组之间比较无明显差异(P>0.05)。结论体外培养的胚胎大鼠NSCs可在脊髓损伤区域存活、迁移,并能通过上调Bcl-2的表达来抑制大鼠脊髓损伤后神经细胞的凋亡,从而促进大鼠瘫痪肢体功能的恢复。  相似文献   

8.
背景:研究表明神经干细胞和神经营养因子3基因修饰的神经细胞联合移植能够在移植后存活并有效促进脊髓横断后脊髓的功能恢复,但神经营养因子3基因修饰的神经干细胞能否在脊髓受损部位发挥功能并促进脊髓损伤大鼠的功能恢复? 目的:观察神经营养因子3基因修饰胚胎脊髓神经干细胞移植后脊髓损伤大鼠的功能恢复情况及损伤局部的基因表达。 方法:将30只SD大鼠在T9水平进行脊髓半切后,随机分为3组,分别在受损脊髓内植入细胞培养液、神经干细胞及神经营养因子3基因修饰神经干细胞。另取10只仅行椎板切除设置为空白对照。移植后通过行为学测试评价脊髓功能的恢复,RT-PCR和Western blot检测脊髓损伤部位神经营养因子3和髓鞘碱性蛋白的表达。 结果与结论:移植神经营养因子3基因修饰神经干细胞组行为学测试结果最好,移植细胞培养液组行为学测试最差。与移植细胞培养液组相比,移植神经干细胞及神经营养因子3基因修饰神经干细胞组大鼠脊髓组织中神经营养因子3基因和髓鞘碱性蛋白基因的mRNA水平明显上调,在蛋白水平也有类似的结果,且神经营养因子3基因修饰神经干细胞组效果更明显。提示移植神经营养因子3基因修饰神经干细胞能促进脊髓受损部位出现更多向少突胶质细胞分化的细胞,并能更强的表达神经营养因子3。  相似文献   

9.
目的:探讨神经干细胞移植对脊髓损伤大鼠后肢运动功能修复的影响。方法:SD大鼠36只,制成T10脊髓全横断损伤模型。于造模成功后1周采用局部微量注射法移植。随机分三组:A损伤对照组(n=12)仅打开椎管暴露脊髓;B移植对照组(n=12):注射10μl DMEM/F12培养液;C细胞移植组(n=12):移植1.0?06/ml的神经干细胞悬液10μl。移植后通过不同时间点BBB行为评分、病理组织学、免疫荧光技术评价大鼠大鼠脊髓功能修复情况及移植细胞在体内的存活、迁移、分化。 结果:在体外成功建立SD大鼠海马源性神经干细胞培养体系;B、C两组大鼠随着时间延长BBB评分均不同程度提高,从移植后2W起C组大鼠评分明显高于B组,两组比较差异有统计学意义(P<0.05);神经干细胞移植后能够在体内继续存活、迁移并且分化为NF-200、GFAP表达阳性的神经元及星形胶质细胞。 结论:神经干细胞移植治疗脊髓损伤是一种有效的方法。  相似文献   

10.
葡萄糖浓度对原代培养神经干细胞增殖、分化的影响   总被引:1,自引:0,他引:1  
目的探讨不同浓度葡萄糖对神经干细胞增殖、分化的影响。方法胚胎小鼠脑细胞原代培养并鉴定。生理浓度和高浓度葡萄糖培养及诱导分化后.四唑盐比色(MTT)法及免疫荧光法观察两组不同葡萄糖浓度对神经干细胞增殖、分化的影响。结果原代培养的神经球表达巢蛋白(hestin),神经球分化的细胞表达神经丝200(NF200)和胶质纤维酸性蛋白(GFAP)。与生理浓度葡萄糖相比,高浓度葡萄糖降低了神经干细胞的增殖活力:分化3d后,高糖组的NF200阳性细胞和GFAP阳性细胞比例高于生理浓度组(P〈0.01),而nestin阳性细胞比例则反之(P〈0.01);分化10d后,神经干细胞完全分化,免疫荧光检测发现生理浓度葡萄糖提高了NF200阳性细胞比例。结论高糖损害了神经干细胞的增殖活性。加速了神经干细胞的早期分化.降低了神经元的分化率。  相似文献   

11.
Neural stem cell (NSC) transplantation is a major focus of current research for treatment of spinal cord injury (SCI). However, it is very important to promote the survival and differentiation of NSCs into myelinating oligodendrocytes (OLs). In this study, myelin basic protein-activated T (MBP-T) cells were passively immunized to improve the SCI microenvironment. Olig2-overexpressing NSCs were infected with a lentivirus carrying the enhanced green fluorescent protein (GFP) reporter gene to generate Olig2-GFP-NSCs that were transplanted into the injured site to differentiate into OLs. Transferred MBP-T cells infiltrated the injured spinal cord, produced neurotrophic factors, and induced the differentiation of resident microglia and/or infiltrating blood monocytes into an “alternatively activated” anti-inflammatory macrophage phenotype by producing interleukin-13. As a result, the survival of transplanted NSCs increased fivefold in MBP-T cell-transferred rats compared with that of the vehicle-treated control. In addition, the differentiation of MBP-positive OLs increased 12-fold in Olig2-GFP-NSC-transplanted rats compared with that of GFP-NSC-transplanted controls. In the MBP-T cell and Olig2-GFP-NSC combined group, the number of OL-remyelinated axons significantly increased compared with those of all other groups. However, a significant decrease in spinal cord lesion volume and an increase in spared myelin and behavioral recovery were observed in Olig2-NSC- and NSC-transplanted MBP-T cell groups. Collectively, these results suggest that MBP-T cell adoptive immunotherapy combined with NSC transplantation has a synergistic effect on histological and behavioral improvement after traumatic SCI. Although Olig2 overexpression enhances OL differentiation and myelination, the effect on functional recovery may be surpassed by MBP-T cells.  相似文献   

12.
The close homolog of the adhesion molecule L1 (CHL1) is important during CNS development, but a study with CHL1 knockout mice showed greater functional recovery after spinal cord injury (SCI) in its absence. We investigated CHL1 expression from 1 to 28 days after clinically relevant contusive SCI in Sprague-Dawley rats. Western blot analysis showed that CHL1 expression was significantly up-regulated at day 1 and further increased over 4 weeks after SCI. Immunohistochemistry of tissue sections showed that CHL1 in the intact spinal cord was expressed at low levels. By 1 day and through 4 weeks after SCI, CHL1 became highly expressed in NG2(+) cells. Hypertrophic GFAP(+) astrocytes also expressed CHL1 by 1 week after injury. The increase in CHL1 protein paralleled that of NG2 in the first week and GFAP between 1 and 4 weeks after injury. At 4 weeks, NG2(+) /CHL1(+) cells and GFAP(+) /CHL1(+) astrocytes were concentrated at the boundary between residual spinal cord tissue and the central lesion. NF200(+) spinal cord axons approached but did not penetrate this boundary. In contrast, CHL1(+) cells in the central lesion at 1 week and later colabeled with p75 and NG2 and were chronically associated with many NF200(+) axons, presumably axons that had sprouted in association with CHL1(+) Schwann cells infiltrating the cord after contusion. Thus, our study demonstrates up-regulation of CHL1 in multiple cell types and locations in a rat model of contusion injury and suggests that this molecule may be involved both in inhibition of axonal regeneration and in recovery processes after SCI.  相似文献   

13.
C‐J. Xu, L. Xu, L‐D. Huang, Y. Li, P‐P. Yu, Q. Hang, X‐M. Xu and P‐H. Lu (2011) Neuropathology and Applied Neurobiology 37, 135–155
Combined NgR vaccination and neural stem cell transplantation promote functional recovery after spinal cord injury in adult rats Aims: After spinal cord injury (SCI), there are many adverse factors at the lesion site such as glial scar, myelin‐derived inhibitors, cell loss and deficiency of neurotrophins that impair axonal regeneration. Therefore, combination therapeutic strategies might be more effective than a single strategy for promoting functional recovery after SCI. In the present study, we investigated whether a Nogo66 receptor (NgR) vaccine, combined with neural stem cell (NSC) transplantation, could promote better functional recovery than when NgR vaccine or NSCs were used alone. Methods: Adult rats were immunized with NgR vaccine at 1 week after a contusive SCI at the thoracic level, and the NSCs, obtained from green fluorescent protein transgenic rats, were transplanted into the injury site at 8 weeks post injury. The functional recovery of the animals under various treatments was evaluated by three independent behavioural tests, that is, Basso, Beattie and Bresnahan locomotor rating scale, footprint analysis and grid walking. Results: The combined therapy with NgR vaccination and NSC transplantation protected more ventral horn motor neurones in the injured spinal cord and greater functional recovery than when they were used alone. Furthermore, NgR vaccination promoted migration of engrafted NSCs along the rostral‐caudal axis of the injured spinal cords, and induced their differentiation into neurones and oligodendrocytes in vivo. Conclusions: The combination therapy of NgR vaccine and NSC transplantation exhibited significant advantages over any single therapy alone in this study. It may represent a potential new therapy for SCI.  相似文献   

14.
神经干细胞移植治疗小鼠机械性脑损伤的实验研究   总被引:2,自引:0,他引:2  
目的探讨神经干细胞移植后的体内存活、增殖与分化,及其对小鼠机械性脑损伤的治疗作用。方法运用牙科钻制作小鼠运动区皮质机械性损伤模型。48只清洁级昆明小鼠,雌雄不拘,体质量为18~20g,按体质量编号随机分为4组:神经干细胞移植组(损伤后原位移植经鉴定确认的原代培养的小鼠神经干细胞)、3T3移植组(损伤后原位移植3T3细胞)、单纯损伤组(损伤后不行神经干细胞移植)和空白对照组(仅施行麻醉),每组12只小鼠。于伤后第3天进行行为学检测;第10、30天行损伤区脑组织nestin及NF200免疫荧光染色,观察神经干细胞生长、分化情况。结果损伤后,获得原代培养的神经干细胞在移植早期贴附于损伤区域且向周边组织呈浸润生长;移植后期Hoechst33342及NF200染色显示损伤区附近可见分化形成的神经元。单纯损伤组小鼠出现偏瘫症状;而神经干细胞移植组小鼠植入神经干细胞后则症状减轻,运动功能明显改善,与其他各组相比差异有显著性意义(P<0.001)。结论神经干细胞移植能够改善小鼠机械性脑损伤后的神经功能状态。  相似文献   

15.
Transplantation of neural stem cells (NSCs) in the injured spinal cord has been shown to improve functional outcome; however, recent evidence has demonstrated forelimb allodynia following transplantation of embryonic NSCs. The aim of this study was to investigate whether transplantation of murine C17.2 NSCs alone or transfected with glial-derived neurotrophic factor (C17.2/GDNF) would induce allodynia in transplanted spinal cord-injured animals. One week after a T8-level spinal cord injury (SCI), C17.2, C17.2/GDNF or normal saline was injected at the injury site. Locomotor function and sensory recovery to thermal and mechanical stimuli were then measured. Spinal cords were processed immunohistochemically at the injury/transplantation site for characterization of NSC survival and differentiation; and at the cervicothoracic level for calcitonin gene-related peptide (CGRP), a neuropeptide expressed in dorsal horn nocioceptive neurons, and growth-associated protein-43 (GAP43), a marker of neuronal sprouting. Locomotor function was not significantly improved following NSC transplantation at any time (P >0.05). Significant forelimb thermal and mechanical allodynia were observed following transplantation with both NSC populations (P <0.05). The C17.2 and C17.2/GDNF NSCs survived and differentiated into a predominately astrocytic population. Calcitonin gene-related peptide and GAP43 immunoreactivity significantly increased and co-localized in cervicothoracic dorsal horn laminae I-III following C17.2 and C17.2/GDNF transplantation. This study demonstrated that murine C17.2 NSCs differentiated primarily into astrocytes when transplanted into the injured spinal cord, and resulted in thermal and mechanical forelimb allodynia. Sprouting of nocioceptive afferents occurred rostral to the injury/transplantation site only in allodynic animals, suggesting a principal role in this aberrant pain state. Further, a difference in the degree of allodynia was noted between C17.2- and C17.2/GDNF transplant-treated groups; this difference correlated with the level of CGRP/GAP43 immunoreactivity and sprouting observed in the cervicothoracic dorsal horns. Both allodynia- and CGRP/GAP43-positive afferent sprouting were less in the C17.2/GDNF group compared to the C17.2 group, suggesting a possible protective or analgesic effect of GDNF on post-injury neuropathic pain.  相似文献   

16.
Bone morphogenetic proteins (BMPs) play a critical role in regulating cell fate determination during central nervous system (CNS) development. In light of recent findings that BMP-2/4/7 expressions are upregulated after spinal cord injury, we hypothesized that the BMP signaling pathway is important in regulating cellular composition in the injured spinal cord. We found that BMP expressions were upregulated in neural stem cells (NSCs), neurons, oligodendrocytes and microglia/macrophages. Increased expression levels of pSmad1/5/8 (downstream molecules of BMP) were detected in neurons, NSCs, astrocytes, oligodendrocytes and oligodendroglial progenitor cells (OPCs). Active astrocytes which form the astroglial scar were probably derived from NSCs, OPCs and resident astrocytes. Since quiescent NSCs in the normal adult spinal cord will proliferate and differentiate actively into neural cells after traumatic injury, we proposed that BMPs can regulate cellular components by controlling NSC differentiation. Neurosphere culture from adult mouse spinal cord showed that BMP-4 promoted astrocyte differentiation from NSCs while suppressing production of neurons and oligodendrocytes. Conversely, inhibition of BMP-4 by Noggin notably decreased the ratio of astrocyte to neuron numbers. However, intrathecal administration of Noggin in the injured spinal cord failed to attenuate glial fibrillar acidic protein (GFAP) expression even though it effectively reduced pSmad expression. Noggin treatment did not block phosphorylation of Stat3 and the induction of GFAP in the injured spinal cord, suggesting that in addition to the BMP/Smad pathway, the JAK/STAT pathway may also be involved in the regulation of GFAP expression after spinal cord injury.  相似文献   

17.
高压氧联合神经干细胞移植治疗大鼠脊髓损伤   总被引:1,自引:0,他引:1  
背景:单纯神经干细胞移植已应用于对受损脊髓组织的修复。 目的:以神经干细胞移植同时应用高压氧治疗大鼠脊髓损伤,观察联合作用对脊髓损伤大鼠运动功能恢复的影响。 方法:雌性SD大鼠60只,以半切法制成胸段脊髓半横断大鼠模型。随机分成单纯损伤组、神经干细胞移植组及高压氧治疗组,每组20只。伤后第4周取材行病理切片苏木精-伊红染色及BrdU免疫组织化学染色,第8周取材行辣根过氧化物酶示踪,透射电镜观察轴突的再生情况,通过体感诱发电位观察神经电生理恢复情况。造模后1,2,4,6,8周进行BBB评分和斜板实验等运动功能检测。 结果与结论:观察伤后4周病理切片,单纯损伤组未见神经轴索通过,神经干细胞移植组可见少量神经轴索样结构,高压氧治疗组可见较多神经轴索样结构。BrdU的阳性细胞数及辣根过氧化物酶阳性神经纤维数,高压氧治疗组最多,神经干细胞移植组次之,单纯损伤组最少,且各组之间差异有显著性意义(P < 0.05)。透射电镜下神经干细胞移植组、高压氧治疗组正中横断面可见新生的无髓及有髓神经纤维。高压氧治疗组大鼠体感诱发电位的潜伏期短于神经干细胞移植组,波幅高于神经干细胞移植组(P < 0.05),明显优于单纯损伤组(P < 0.01)。伤后4周神经干细胞移植组、高压氧治疗组大鼠后肢运动功能均有较明显恢复,高压氧治疗组较神经干细胞移植组恢复快(P < 0.05);单纯损伤组亦有所恢复,但程度较轻。提示神经干细胞移植对于脊髓损伤大鼠后肢功能的恢复有促进作用,联合应用高压氧有协同效果。  相似文献   

18.
BACKGROUND: According to previous studies, the neuroprotective effect of the pedicled greater omentum may be attributed to the secretion of neurotrophic factors and stimulation of angiogenesis. The neurotrophic factors released from the pedicled greater omentum, such as brain-derived neurotrophic factor and neurotrophin 3/4/5 could exert a neuroprotective effect on the damaged host neural and glial cells, and also could induce the transdifferentiation of transplanted bone marrow mesenchymal stem cells (BMSCs) into neural cells. OBJECTIVE: Based on the functions of the omentum of neuro-protection and vascularization, we hypothesize that the transplantation of BMSCs and pedicled greater omentum into injured rat spinal cord might improve the survival rate and neural differentiation of transplanted BMSCs and consequently gain a better functional outcome. DESIGN, TIME AND SETFING: A randomized, controlled animal experiment. The experiments were carried out at the Department of Anatomy, the Secondary Military Medical University of Chinese PLA between June 2005 and June 2007. MATERIALS: Fifteen male inbred Wistar rats, weighing (200±20) g, provided by the Experimental Animal Center of the Secondary Military Medical University of Chinese PLA were used and met the animal ethical standards. Mouse anti-BrdU and mouse anti-NF200 monoclonal antibody were purchased from Boster, China. METHODS: Cell culture: We used inbred Sprague-Dawley rats to harvest bone marrow for culture of BMSCs and transplantation to avoid possible immune rejection. BMSCs were cultured via total bone marrow adherence. Experimental grouping and intervention: The rats were randomly divided into a control group, cell group and combined group, five rats per group. Rats in the control group underwent spinal cord injury (SCI) only, during which an artery clamp with pressure force of 30 g was employed to compress the spinal cord at the Tl0 level for 30 seconds to produce the SCI model. 5 μ L PBS containing 10^5 BMSCs was injected in  相似文献   

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