使用含或不含成纤维细胞生长因子-4的骨髓间充质干细胞评估脊柱融合情况。
Evaluation of Spinal Fusion Using Bone Marrow Derived Mesenchymal Stem Cells with or without Fibroblast Growth Factor-4.
作者信息
Seo Hyun Sung, Jung Jong Kwon, Lim Mi-Hyun, Hyun Dong Keun, Oh Nam-Sik, Yoon Seung Hwan
机构信息
Department of Neurosurgery, School of Medicine, Inha University, Incheon, Korea.
出版信息
J Korean Neurosurg Soc. 2009 Oct;46(4):397-402. doi: 10.3340/jkns.2009.46.4.397. Epub 2009 Oct 31.
OBJECTIVE
In this study, the authors assessed the ability of rat bone marrow derived mesenchymal stem cells (BMDMSCs), in the presence of a growth factor, fibroblast growth factor-4 (FGF-4) and hydroxyapatite, to act as a scaffold for posterolateral spinal fusion in a rat model.
METHODS
Using a rat posterolateral spine fusion model, the experimental study comprised 3 groups. Group 1 was composed of 6 animals that were implanted with 0.08 gram hydroxyapatite only. Group 2 was composed of 6 animals that were implanted with 0.08 gram hydroxyapatite containing 1 x 10(6)/ 60 microL rat of BMDMSCs. Group 3 was composed of 6 animals that were implanted with 0.08 gram hydroxyapatite containing 1 x 10(6)/ 60 microL of rat BMDMSCs and FGF-4 1 microG to induce the bony differentiation of the BMDMSCs. Rats were assessed using radiographs obtained at 4, 6, and 8 weeks postoperatively. After sacrifice, spines were explanted and assessed by manual palpation, high-resolution microcomputerized tomography, and histological analysis.
RESULTS
Radiographic, high-resolution microcomputerized tomographic, and manual palpation revealed spinal fusion in five rats (83%) in Group 2 at 8 weeks. However, in Group 1, three (60%) rats developed fusion at L4-L5 by radiography and two (40%) by manual palpation in radiographic examination. In addition, in Group 3, bone fusion was observed in only 50% of rats by manual palpation and radiographic examination at this time.
CONCLUSION
The present study demonstrates that 0.08 gram of hydroxyapatite with 1 x 10(6)/ 60 microL rat of BMDMSCs induced bone fusion. FGF-4, added to differentiate primitive 1 x 10(6)/ 60 microL rat of BMDMSCs did not induce fusion. Based on histologic data, FGF-4 appears to induce fibrotic change rather than differentiation to bone by 1 x 10(6)/ 60 microL rat of BMDMSCs.
目的
在本研究中,作者评估了在生长因子、成纤维细胞生长因子-4(FGF-4)和羟基磷灰石存在的情况下,大鼠骨髓间充质干细胞(BMDMSCs)作为大鼠模型后外侧脊柱融合支架的能力。
方法
使用大鼠后外侧脊柱融合模型,实验研究分为3组。第1组由6只仅植入0.08克羟基磷灰石的动物组成。第2组由6只植入含1×10(6)/60微升大鼠BMDMSCs的0.08克羟基磷灰石的动物组成。第3组由6只植入含1×10(6)/60微升大鼠BMDMSCs和1微克FGF-4以诱导BMDMSCs骨分化的0.08克羟基磷灰石的动物组成。在术后4周、6周和8周获得X线片对大鼠进行评估。处死后,取出脊柱,通过手动触诊、高分辨率微型计算机断层扫描和组织学分析进行评估。
结果
X线片、高分辨率微型计算机断层扫描和手动触诊显示,第2组在8周时有5只大鼠(83%)实现了脊柱融合。然而,在第1组中,通过X线片检查,3只(60%)大鼠在L4-L5处发生融合,通过手动触诊检查,2只(40%)大鼠发生融合。此外,此时在第3组中,通过手动触诊和X线片检查仅观察到50%的大鼠发生骨融合。
结论
本研究表明,0.08克羟基磷灰石与1×10(6)/60微升大鼠BMDMSCs可诱导骨融合。添加FGF-4以诱导原始的1×10(6)/60微升大鼠BMDMSCs分化并未诱导融合。基于组织学数据,FGF-4似乎诱导1×10(6)/60微升大鼠BMDMSCs发生纤维化改变而非向骨分化。
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