Ito Manabu, Kotani Yoshihisa, Hojo Yoshihiro, Abumi Kuniyoshi, Kadosawa Tsuyoshi, Minami Akio
Department of Orthopaedic Surgery, Hokkaido University Graduate School of Medicine, Sapporo, Japan.
J Neurosurg Spine. 2007 May;6(5):431-7. doi: 10.3171/spi.2007.6.5.431.
The aim of this study was to evaluate the degree of bone ingrowth and bonding stiffness at the surface of hydroxyapatite ceramic (HAC) spacers with different porosities in an animal model and to discuss the ideal porous characteristics of these spacers for anterior spinal reconstruction.
Twenty-one adult sheep (age 1-2 years, mean weight 70 kg) were used in this experiment. Surgery consisted of anterior lumbar interbody fusion at L2-3 and L4-5, insertion of an HAC spacer (10 x 13 x 24 mm) with three different porosities (0, 3, and 15%), and single-rod anterior instrumentation. At 4 and 6 months postoperatively, the lumbar spines were harvested. Bonding conditions at the bone-HAC spacer interface were evaluated using neuroimages and biomechanically. A histological evaluation was also conducted to examine the state of bone ingrowth at the surface of the HAC spacer. Biomechanical testing showed that the bonding strength of HAC at 6 months postoperatively was 0.047 MPa in 0% porosity spacers, 0.39 MPa in 3%, and 0.49 MPa in 15% porosity spacers. The histological study showed that there was a soft-tissue layer at the surface of the HAC spacer with 0% porosity. Direct bonding was observed between bone and spacers with 3 or 15% porosity. Micro-computed tomography scans showed direct bonding between the bone and HAC with 3 or 15% porosity. No direct bonding was observed in HAC with 0% porosity.
Dense (0%) HAC anterior vertebral spacers did not achieve direct bonding to the bone in the sheep model. The HAC vertebral spacers with 3 or 15% porosity showed proof of direct bonding to the bone at 6 months postoperatively. The higher porosity HAC spacer showed better bonding stiffness to the bone.
本研究旨在评估动物模型中不同孔隙率的羟基磷灰石陶瓷(HAC)椎间融合器表面的骨长入程度和结合刚度,并探讨这些椎间融合器用于前路脊柱重建的理想孔隙特征。
本实验使用21只成年绵羊(年龄1 - 2岁,平均体重70千克)。手术包括L2 - 3和L4 - 5节段的前路腰椎椎间融合、植入具有三种不同孔隙率(0%、3%和15%)的HAC椎间融合器(10×13×24毫米)以及单棒前路内固定。术后4个月和6个月时,采集腰椎脊柱。使用神经影像学和生物力学方法评估骨 - HAC椎间融合器界面的结合情况。还进行了组织学评估以检查HAC椎间融合器表面的骨长入状态。生物力学测试表明,术后6个月时,孔隙率为0%的HAC椎间融合器的结合强度为0.047兆帕,孔隙率为3%的为0.39兆帕,孔隙率为15%的为0.49兆帕。组织学研究表明,孔隙率为0%的HAC椎间融合器表面存在软组织层。在孔隙率为3%或15%的椎间融合器与骨之间观察到直接结合。微计算机断层扫描显示孔隙率为3%或15%的骨与HAC之间存在直接结合。在孔隙率为0%的HAC中未观察到直接结合情况。
在绵羊模型中,致密(0%)的HAC前路椎间融合器未实现与骨的直接结合。孔隙率为3%或15%的HAC椎间融合器在术后6个月显示出与骨直接结合的证据。孔隙率较高的HAC椎间融合器对骨的结合刚度更好。
