Lim Shiyin, Huff Reece D, Veres Joanna E, Satish Divya, O'Connell Grace D
Department of Mechanical Engineering University of California, Berkeley Berkeley California USA.
Department of Bioengineering University of California, Berkeley Berkeley California USA.
JOR Spine. 2022 Jul 19;5(3):e1214. doi: 10.1002/jsp2.1214. eCollection 2022 Sep.
Mechanical testing is a valuable tool for assessing intervertebral disc health, but the wide range of testing protocols makes it difficult to compare results from different studies. Normalizing mechanical properties by disc geometry allows for such comparisons, but there is little consistency in the methods by which disc geometry is measured. As such, we hypothesized that methods used to measure disc geometry would impact reported mechanical properties. Disc height and area were measured using computed tomography (CT), digital calipers, and ImageJ to yield three different measurements for disc height and six for disc area. Disc heights measured by digital calipers ex situ were >30% less than disc heights measured in situ by CT, and disc areas measured ex situ using ImageJ were >30% larger than those measured by CT. This significantly affected reported mechanical properties, leading to a 65% reduction in normalized compressive stiffness in the most extreme case. Though we cannot quantitatively correct between methods, results presented in this study suggest that disc geometry measurement methods have a significant impact on normalized mechanical properties and should be accounted for when comparing results.
力学测试是评估椎间盘健康状况的一种有价值的工具,但测试方案的广泛差异使得不同研究结果之间难以进行比较。通过椎间盘几何形状对力学性能进行归一化处理可以实现此类比较,但在测量椎间盘几何形状的方法上几乎没有一致性。因此,我们推测用于测量椎间盘几何形状的方法会影响所报告的力学性能。使用计算机断层扫描(CT)、数字卡尺和ImageJ测量椎间盘高度和面积,从而得出椎间盘高度的三种不同测量值和椎间盘面积的六种测量值。通过数字卡尺在体外测量的椎间盘高度比通过CT在体内测量的椎间盘高度小30%以上,而使用ImageJ在体外测量的椎间盘面积比通过CT测量的面积大30%以上。这显著影响了所报告的力学性能,在最极端的情况下导致归一化压缩刚度降低了65%。虽然我们无法在不同方法之间进行定量校正,但本研究给出的结果表明,椎间盘几何形状测量方法对归一化力学性能有显著影响,在比较结果时应予以考虑。