Determination of contact force at facet joint with different sagittal orientation under shearing loads:a finite element analysis
- VernacularTitle:Determination of contact force at facet joint with different sagittal orientation under shearing loads:a finite element analysis
- Author:
Yaosheng LIU
;
Qixin CHEN
;
Shubin LIU
- Publication Type:Journal Article
- Keywords:
biomechanics;
finite element method;
sagittal orientation of facet joints;
contact force at facet joint;
degeneration
- From:
Orthopedic Journal of China
2008;16(10):748-752
- CountryChina
- Language:Chinese
-
Abstract:
[Objective] The efleet of sagittal orientations of articular facet on the contact force and contact regions of a lumbar spine segment was evaluated.[Methods] [Results]Three-dimensional geometrical and mechanical accurate finite element models of the lumbar L4、5 motion segment representing three sagittal-orientations articular facet were generated and invalidated by an effective CAD method.Contact force and contact regions of the articular facets of three finite element models were predicted under the pure shearing loads.[Result] Under anterior shear condition,the contact force on the facet decreased with the increase of sagittal 0rientation of articular facet.however.in posterior shear load,the contact force on the facet increased with the increase of sagittal orientation.Meanwhile,under both pure shear loading,the percentages of the sagittal and the transversal components are increased with the dectease of the sagittal angle.However,under the salne load condition,there are no difference between the contact regions of the three models with different facet joint angle.[Conclusion]The spatial orientation and geometric forms of the coronal facet articular surfaces are more effective in restricting motion in transversal and sagittal planes while assuming a minor role in resisting axial force or motion than sagittal facet articular surface.It Was presumed that anterior shear force play a more prominent contribution on the degeneration of the facet joint with coronal articular surface compared with posterior shear force.