• World Neurosurg · May 2024

    Impact of sacroiliac interosseous ligament tension and laxity on the biomechanics of the lumbar spine: A finite element study.

    • Shi-Hong Yu, Rui-Chun Dong, Zhong Liu, Hong Liu, Yi-Tang Liu, and Sheng-Jie Tang.
    • School of Mechanical Engineering, Shandong University of Technology, Zibo, PR China.
    • World Neurosurg. 2024 May 1; 185: e431e441e431-e441.

    ObjectiveTo investigate the influence of sacroiliac interosseous ligament tension and laxity on the biomechanics of the lumbar spine.MethodsA static analysis of a three-dimensional finite element model of the Lumbar-Pelvic is conducted to verify the model's effectiveness. Adjusting the sacroiliac ligament's elasticity modulus under a 10Nm lumbar flexion/extension moment, it simulates ligament tension/laxity to calculate vertebrae displacements, intervertebral disc stress and deformation, nucleus pulposus pressure, facet joint force, and ligament stress.ResultsWith the elastic modulus of the sacroiliac ligament changing by +50%, -50%, and -90%, the angular displacement of vertebra 3 in forward flexion changes by +1.64%, -4.84%, and -42.3%, and the line displacements change by +5.7%, -16.4%, and -144.9%, respectively; and the angular displacements in backward extension change by +0.2%, -0.6%, -5.9% and the line displacements change by +5.5%, -14.3%, and -125.8%. However, the angular displacement and center distance between adjacent vertebrae do not change, leading to no change in the maximum stress of the intervertebral disc and the maximum pressure in the nucleus pulposus. Flexion and extension directly affect the deformation and stress magnitude and distribution in the lumbar spine.ConclusionsWhile sacroiliac interosseous ligament laxity and tension have little effect on disc deformation and stress, and nucleus pulposus pressure, they reduce the stability of the lumbar-sacral vertebrae. In a forward flexion state, the lumbar ligaments bear a large load and are prone to laxity, thereby increasing the risk of lumbar injury.Copyright © 2024 Elsevier Inc. All rights reserved.

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