Department of Orthopaedic Surgery, Osaka City University Graduate School of Medicine, 1-4-3 Asahi-machi, Abeno-ku, Osaka 545-8585, Japan.
Eur Spine J. 2012 Jul;21(7):1338-45. doi: 10.1007/s00586-011-2130-x. Epub 2011 Dec 28.
As a powerful bone-inducing cytokine, rhBMP-2 has been used as a bone graft substitute in combination with animal-derived collagen to achieve interbody or posterolateral spinal fusion. Successful interspinous process fusion using rhBMP-2 in combination with synthetic carrier materials would offer a safe, minimally invasive spinal fusion option for the treatment of spinal disorders. The aims of the present study were to achieve interspinous process fusion by implanting rhBMP-2-retaining degradable material instead of bone grafting and to evaluate efficacy for vertebral stabilization.
A polymer gel (200 mg), β-tricalcium phosphate powder (400 mg), and rhBMP-2 (0, 30, 60 or 120 μg) were mixed to generate a plastic implant, which was then placed during surgery to bridge the L5-6 interspinous processes of 58 rabbits. Control animals received implants either without rhBMP-2 or with autogenous bone chips from the iliac crest. L5-6 vertebrae were recovered 8 weeks postoperatively. Interspinous process fusion was evaluated by radiography, biomechanical bending test, intradiscal pressure (IDP) measurement, and histology.
In bending tests, strength of fusion was significantly greater in BMP60 and BMP120 groups than in sham, BMP0, BMP30 or autogenous bone groups. IDP at L5-6 was significantly reduced in BMP60 and BMP120 groups compared to sham, BMP0, BMP30, and autograft groups. Histologically, coronal sections of the fusion mass showed a bone mass bridging both spinous processes.
Solid interspinous process fusion was achieved in rabbit models by 8 weeks after implanting the biodegradable bone-inducing material. These results suggest a potential new less-invasive option without bone grafting for the treatment of lumbar disorders.
作为一种强大的骨诱导细胞因子,rhBMP-2 已与动物源性胶原蛋白结合用作骨移植物替代物,以实现椎间或后外侧脊柱融合。rhBMP-2 与合成载体材料联合使用可在棘突间实现成功融合,为治疗脊柱疾病提供一种安全、微创的脊柱融合选择。本研究的目的是通过植入保留 rhBMP-2 的可降解材料来实现棘突间融合,而不是骨移植,并评估其对椎体稳定的疗效。
将聚合物凝胶(200mg)、β-磷酸三钙粉末(400mg)和 rhBMP-2(0、30、60 或 120μg)混合制成塑料植入物,然后在手术中放置在 L5-6 棘突之间。对照动物接受植入物治疗,要么没有 rhBMP-2,要么接受来自髂嵴的自体骨屑。术后 8 周回收 L5-6 椎体。通过影像学、生物力学弯曲试验、椎间盘内压(IDP)测量和组织学评估棘突间融合情况。
在弯曲试验中,BMP60 和 BMP120 组的融合强度明显大于假手术组、BMP0 组、BMP30 组和自体骨组。与假手术组、BMP0 组、BMP30 组和自体骨组相比,BMP60 和 BMP120 组的 L5-6 椎间盘内压明显降低。组织学上,融合块的冠状切片显示骨量桥接两个棘突。
在植入可生物降解的骨诱导材料 8 周后,兔模型中实现了牢固的棘突间融合。这些结果表明,对于腰椎疾病的治疗,可能为一种无需骨移植的新的微创选择。