Wang Tao, Dang Gengting, Guo Zhaoqing, Yang Min
Department of Orthopedic Surgery, Peking University Third Hospital, Beijing, People's Republic of China.
Tissue Eng. 2005 Jul-Aug;11(7-8):1159-67. doi: 10.1089/ten.2005.11.1159.
Autologous bone marrow mesenchymal stem cell (BMSC)-calcium phosphate ceramic composites were constructed in vitro and implanted as a bone graft substitute for lumbar anterior interbody fusion in rhesus monkeys to determine the osteogenic capacity of the composites. Nine adult rhesus monkeys underwent lumbar L3-L4 and L5-L6 diskectomy and interbody fusion via an anterior retroperitoneal approach. Two fusion sites in each animal were randomly assigned to two of three treatments: autogenous tricortical iliac crest bone graft (autograft group), cell-free ceramic graft (ceramic group), or BMSC-ceramic composite graft (BMSC group). Autologous BMSCs were expanded in culture and stimulated with osteogenic supplement. The spinal fusion segments were evaluated by radiography, biomechanical testing, histologic analysis, and histomorphometric analysis 3 months postsurgery. The BMSC group achieved lumbar interbody fusion superior to that of the ceramic group, both biomechanically and histologically. The BMSC group and the autograft group showed equivalent biomechanical stiffness. Ceramic residues were significantly greater in the ceramic group versus the BMSC group. The results indicate that BMSC-ceramic composites can enhance bone regeneration and achieve osseous spinal fusion 3 months after implantation in the rhesus monkey interbody fusion model.
体外构建自体骨髓间充质干细胞(BMSC)-磷酸钙陶瓷复合材料,并将其作为骨移植替代物植入恒河猴腰椎前路椎间融合部位,以确定该复合材料的成骨能力。9只成年恒河猴通过腹膜后前路入路接受L3-L4和L5-L6腰椎间盘切除术及椎间融合术。每只动物的两个融合部位被随机分配至三种治疗方法中的两种:自体三面皮质髂嵴骨移植(自体移植组)、无细胞陶瓷移植(陶瓷组)或BMSC-陶瓷复合移植(BMSC组)。自体BMSC在培养中扩增并用成骨补充剂刺激。术后3个月通过X线摄影、生物力学测试、组织学分析和组织形态计量学分析对脊柱融合节段进行评估。BMSC组在生物力学和组织学方面均实现了优于陶瓷组的腰椎椎间融合。BMSC组和自体移植组表现出相当的生物力学刚度。陶瓷组的陶瓷残留明显多于BMSC组。结果表明,在恒河猴椎间融合模型中,BMSC-陶瓷复合材料可增强骨再生并在植入后3个月实现骨性脊柱融合。
