Adams M A, McMillan D W, Green T P, Dolan P
Comparative Orthopaedic Research Unit, University of Bristol, United Kingdom.
Spine (Phila Pa 1976). 1996 Feb 15;21(4):434-8. doi: 10.1097/00007632-199602150-00006.
Cadaveric motion segment experiment. Measurements on each specimen were compared before and after creep loading.
To show how sustained "creep" loading affects stress distributions inside intervertebral discs.
The central region of an intervertebral disc acts like a hydrostatic "cushion" between adjacent vertebrae. However, this property depends on the water content of the tissues and may be lost or diminished after creep.
Twenty-seven lumbar motion segments consisting of two vertebrae and the intervening disc and ligaments were loaded to simulate erect standing postures in life. The distribution of compressive stress in the disc matrix was measured by pulling a miniature pressure transducer through the disc in the midsagittal plane. Profiles of vertical and horizontal compressive stress were repeated after each specimen had been creep loaded in compression for 2-6 hours.
Creep reduced the hydrostatic pressure in the nucleus by 13-36%. Compressive stresses in the anulus were little affected when the profiles were measured at 1 kN, but at 2 kN, localized peaks of compressive stress appeared (or grew in size) in the posterior anulus after creep.
Increased loading of the apophysial joints causes an overall reduction in intradiscal stresses after creep. In addition, water loss from the nucleus causes a transfer of load from nucleus to anulus. Stress concentrations may lead to pain, structural disruption, and alterations in chondrocyte metabolism. Disc mechanics depend on loading history as well as applied load.
尸体运动节段实验。对每个标本在蠕变加载前后的测量结果进行比较。
展示持续的“蠕变”加载如何影响椎间盘内的应力分布。
椎间盘的中央区域在相邻椎体之间起到流体静力“缓冲垫”的作用。然而,这种特性取决于组织的含水量,并且在蠕变后可能会丧失或减弱。
二十七个包含两个椎体以及其间的椎间盘和韧带的腰椎运动节段被加载以模拟生活中的直立站立姿势。通过在正中矢状面将一个微型压力传感器拉过椎间盘来测量椎间盘基质中的压应力分布。在每个标本进行2 - 6小时的压缩蠕变加载后,重复测量垂直和水平压应力曲线。
蠕变使髓核中的流体静压力降低了13% - 36%。当在1 kN测量曲线时,纤维环中的压应力受影响较小,但在2 kN时,蠕变后纤维环后部出现了局部压应力峰值(或尺寸增大)。
关节突关节负荷增加导致蠕变后椎间盘内应力总体降低。此外,髓核失水导致负荷从髓核转移到纤维环。应力集中可能导致疼痛、结构破坏以及软骨细胞代谢改变。椎间盘力学取决于加载历史以及所施加的负荷。
