Kokubo Satoshi, Mochizuki Manabu, Fukushima Shinji, Ito Teruo, Nozaki Kazutoshi, Iwai Takaya, Takahashi Koichiro, Yokota Shoji, Miyata Keiji, Sasaki Nobuo
Institute for Drug Discovery Research, Yamanouchi Pharmaceutical Co., Ltd., 21 Miyukigaoka, Tsukuba, Ibaraki, Japan.
Biomaterials. 2004 May;25(10):1795-803. doi: 10.1016/j.biomaterials.2003.08.030.
The long-term stability of bone tissues induced by recombinant human bone morphogenetic protein-2 (rhBMP-2) and poly[L-lactide-co-glycolide] copolymer-coated gelatin sponge (PGS) was examined. In 16 dogs, 2.5 cm unilateral bone defects were created in the left tibial diaphyses. Tibia was fixed with metal plate, and PGS impregnated with (0.4 mg/cm(3)) or without rhBMP-2 was implanted into 15 or one defects, respectively. The metal plates of rhBMP-2-treated limbs were removed 16 weeks after the implantation. The bilateral tibiae of five animals each of the rhBMP-2-treated group were harvested at 32, 52 or 104 weeks, and served for biomechanical testing and histology. Although the defect that received PGS alone resulted in nonunion at 16 weeks, all defects treated with rhBMP-2 achieved radiographic bony union by 8 weeks. Biomechanical properties of the regenerated bones restored to the levels of intact tibiae at 32 weeks, but torsional stiffness was significantly higher. No statistical significances were detected in all parameters between regenerated and intact tibiae at 104 weeks. No radiographic and histological findings suggesting enhanced resorption to the regenerated bones were observed. These results suggest the long-term stability of the bone tissues induced by rhBMP-2, and the usefulness of rhBMP-2-impregnated PGS as a biomaterial for long bone defect filling.
研究了重组人骨形态发生蛋白-2(rhBMP-2)和聚[L-丙交酯-共-乙交酯]共聚物包被的明胶海绵(PGS)诱导的骨组织的长期稳定性。在16只犬的左胫骨干中制造2.5厘米的单侧骨缺损。用金属板固定胫骨,并将分别浸渍有(0.4毫克/立方厘米)或未浸渍rhBMP-2的PGS植入15个或1个缺损处。植入后16周取出rhBMP-2治疗肢体的金属板。在32、52或104周时分别采集rhBMP-2治疗组中五只动物的双侧胫骨,用于生物力学测试和组织学检查。尽管仅接受PGS的缺损在16周时导致骨不连,但所有用rhBMP-2治疗的缺损在8周时均实现了影像学骨愈合。再生骨的生物力学性能在32周时恢复到完整胫骨的水平,但扭转刚度明显更高。在104周时,再生胫骨和完整胫骨之间的所有参数均未检测到统计学显著性差异。未观察到提示再生骨吸收增强的影像学和组织学结果。这些结果表明rhBMP-2诱导的骨组织具有长期稳定性,并且浸渍rhBMP-2的PGS作为长骨缺损填充生物材料的有效性。
