Han Xinglong, Zhang Wen, Gu Jun, Zhao Huan, Ni Li, Han Jiajun, Zhou Yun, Gu Yannan, Zhu Xuesong, Sun Jie, Hou Xianglin, Yang Huilin, Dai Jianwu, Shi Qin
Orthopedic Department, the First Affiliated Hospital of Soochow University, Suzhou, P.R. China.
Orthopedic Institute of Soochow University, Suzhou, P.R. China.
PLoS One. 2014 May 28;9(5):e98480. doi: 10.1371/journal.pone.0098480. eCollection 2014.
Bone morphogenetic protein-2 (BMP-2) is a potent osteoinductive cytokine that plays a critical role in bone regeneration and repair. However, its distribution and side effects are major barriers to its success as therapeutic treatment. The improvement of therapy using collagen delivery matrices has been reported. To investigate a delivery system on postero-lateral spinal fusion, both engineered human BMP-2 with a collagen binding domain (CBD-BMP-2) and collagen scaffolds were developed and their combination was implanted into Sprague-Dawley (SD) rats to study Lumbar 4-5 (L4-L5) posterolateral spine fusion. We divided SD rats into three groups, the sham group (G1, n = 20), the collagen scaffold-treated group (G2, n = 20) and the BMP-2-loaded collagen scaffolds group (G3, n = 20). 16 weeks after surgery, the spines of the rats were evaluated by X-radiographs, high-resolution micro-computed tomography (micro-CT), manual palpation and hematoxylin and eosin (H&E) staining. The results showed that spine L4-L5 fusions occurred in G2(40%) and G3(100%) group, while results from the sham group were inconsistent. Moreover, G3 had better results than G2, including higher fusion efficiency (X score, G2 = 2.4±0.163, G3 = 3.0±0, p<0.05), higher bone mineral density (BMD, G2: 0.3337±0.0025g/cm3, G3: 0.4353±0.0234g/cm3. p<0.05) and more bone trabecular formation. The results demonstrated that with site-specific collagen binding domain, a dose of BMP-2 as low as 0.02mg CBD-BMP-2/cm3 collagen scaffold could enhance the posterolateral intertransverse process fusion in rats. It suggested that combination delivery could be an alternative in spine fusion with dramatically decreased side effects caused by high dose of BMP-2.
骨形态发生蛋白-2(BMP-2)是一种有效的骨诱导细胞因子,在骨再生和修复中起关键作用。然而,其分布和副作用是其作为治疗手段取得成功的主要障碍。已有报道称使用胶原蛋白递送基质可改善治疗效果。为研究一种用于后外侧脊柱融合的递送系统,研发了带有胶原蛋白结合域的工程化人BMP-2(CBD-BMP-2)和胶原蛋白支架,并将它们的组合植入Sprague-Dawley(SD)大鼠体内,以研究腰4-5(L4-L5)后外侧脊柱融合情况。我们将SD大鼠分为三组,假手术组(G1,n = 20)、胶原蛋白支架治疗组(G2,n = 20)和负载BMP-2的胶原蛋白支架组(G3,n = 20)。术后16周,通过X线片、高分辨率微计算机断层扫描(micro-CT)、手动触诊以及苏木精-伊红(H&E)染色对大鼠的脊柱进行评估。结果显示,G2组(40%)和G3组(100%)出现了L4-L5脊柱融合,而假手术组的结果不一致。此外,G3组的效果优于G2组,包括更高的融合效率(X评分,G2 = 2.4±0.163,G3 = 3.0±0,p<0.05)、更高的骨密度(BMD,G2:0.3337±0.0025g/cm3,G3:0.4353±0.0234g/cm3,p<0.05)以及更多的骨小梁形成。结果表明,通过位点特异性胶原蛋白结合域,每立方厘米胶原蛋白支架中低至0.02mg的CBD-BMP-2剂量即可增强大鼠后外侧横突间融合。这表明联合递送可能是脊柱融合的一种替代方法,可显著减少高剂量BMP-2引起的副作用。
