与前路腰椎椎间融合术相比,经椎间孔入路术后体外固定棒负荷情况。
In vitro fixator rod loading after transforaminal compared to anterior lumbar interbody fusion.
作者信息
Kettler A, Niemeyer T, Issler L, Merk U, Mahalingam M, Werner K, Claes L, Wilke H-J
机构信息
Institute for Orthopaedic Research and Biomechanics, University of Ulm, Helmholtzstrabe 14, D-89081 Ulm, Germany.
出版信息
Clin Biomech (Bristol). 2006 Jun;21(5):435-42. doi: 10.1016/j.clinbiomech.2005.12.005. Epub 2006 Jan 27.
BACKGROUND
Cages are commonly used to assist lumbar interbody fusion. They are implanted from various approaches. In many cases internal fixators are added to provide sufficient stability. However, how the rods of these fixators are loaded and whether the kind of approach affects these loads is still unknown. The aim of this in vitro study therefore was to determine the loads acting on fixator rods and cages after anterior compared to transforaminal lumbar interbody fusion.
METHODS
Six intact human lumbar spine specimens (L1-5) were loaded in a spine tester with pure moments (+/-7.5 N m) in the frontal, sagittal and transverse plane. Loading was repeated, first, after the segments L2-3 and L4-5 were instrumented either with an anterior or a transforaminal lumbar interbody fusion cage "stand alone" and, second, after additional stabilisation with an internal fixator. The rods of the fixator and the four "corners" of the cages were instrumented with strain gauges.
FINDINGS
The loads transmitted through the rods were highest in lateral bending. In this loading direction an axial distraction force of in median up to 140 N, an axial compression force of up to 100 N, and a resultant bending moment of up to 1.1 N m were measured in each rod. These loads tended to be lower for the anterior compared to the transforaminal approach. For comparison, the load applied was +/-7.5 N m. The axial strains recorded in the four "corners" of the cages considerably varied from one specimen to the other. Differences in cage strain between the two approaches could not be detected.
INTERPRETATION
The loads acting on the rods of the fixator were small compared to the load that was applied. Thus, other structures such as the cages or the facet joints still play an important role in load transfer. The type of approach (anterior or transforaminal) had only little effect on the loading of the rods. This also applies to the local loading of the cages, which probably more depends on the fit between cage and endplates and on the local stiffness properties of the adjacent vertebral bodies.
背景
椎间融合器常用于辅助腰椎椎间融合。它们可通过多种入路植入。在许多情况下,会添加内固定器以提供足够的稳定性。然而,这些固定器的棒材如何受力以及入路类型是否会影响这些受力情况仍不清楚。因此,这项体外研究的目的是确定与经椎间孔腰椎椎间融合相比,前路腰椎椎间融合后作用于固定器棒材和椎间融合器的受力情况。
方法
六个完整的人体腰椎标本(L1 - 5)在脊柱测试机中,在额状面、矢状面和横断面施加纯力矩(±7.5 N·m)。首先,在L2 - 3和L4 - 5节段分别使用前路或经椎间孔腰椎椎间融合器“单独”植入后重复加载,其次,在使用内固定器进行额外稳定后重复加载。固定器的棒材和椎间融合器的四个“角”均安装应变片。
结果
通过棒材传递的力在侧弯时最高。在这个加载方向上,每根棒材测量到的轴向牵张力中位数高达140 N,轴向压缩力高达100 N,合成弯矩高达1.1 N·m。与经椎间孔入路相比,前路的这些力往往较低。作为对比,施加的力为±7.5 N·m。在椎间融合器四个“角”记录到的轴向应变在不同标本间差异很大。两种入路之间椎间融合器应变的差异未被检测到。
解读
与施加的力相比,作用于固定器棒材的力较小。因此,其他结构如椎间融合器或小关节在力的传递中仍起重要作用。入路类型(前路或经椎间孔)对棒材受力的影响很小。这也适用于椎间融合器的局部受力,其可能更多取决于椎间融合器与终板的匹配以及相邻椎体的局部刚度特性。
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