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Computer Methods in Biomechanics and Biomedical Engineering Volume 21, 2018 - Issue 13
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research article

The role of the facet capsular ligament in providing spinal stability

Emily A. BermelDepartment of Biomedical Engineering, University of Minnesota, Minneapolis, MN, USA; View further author information
,
Victor H. BarocasDepartment of Biomedical Engineering, University of Minnesota, Minneapolis, MN, USA; View further author information
&
Arin M. EllingsonDepartment of Rehabilitation Medicine, University of Minnesota, Minneapolis, MN, USACorrespondence[email protected]
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Pages 712-721 | Received 04 Apr 2018, Accepted 17 Aug 2018, Published online: 05 Feb 2019

References

  • Adams M, Hutton W. 1983. The mechanical function of the lumbar apophyseal joints. Spine. 8(3):327–330.
  • Alapan Y, Demir C, Kaner T, Guclu R, İnceoğlu S. 2013. Instantaneous center of rotation behavior of the lumbar spine with ligament failure. J Neurosurg Spine. 18(6):617–626.
  • Alapan Y, Sezer S, Demir C, Kaner T, İnceoğlu S. 2014. Load sharing in lumbar spinal segment as a function of location of center of rotation. J Neurosurg Spine. 20(5):542–549.
  • Ashton IK, Ashton BA, Gibson SJ, Polak JM, Jaffray DC, Eisenstein SM. 1992. Morphological basis for back pain: the demonstration of nerve fibers and neuropeptides in the lumbar facet joint capsule but not in ligamentum flavum. J Orthop Res. 10(1):72–78.
  • Ban E, Zhang S, Zarei V, Barocas VH, Winkelstein BA, Picu CR. 2017. Collagen organization in facet capsular ligaments varies with spinal region and with ligament deformation. J Biomech Eng. 139(7).
  • Byrne RM, Zhou Y, Zheng L, Chowdhury SK, Aiyangar A, Zhang X. 2018. Segmental variations in facet joint translations during in vivo lumbar extension. J Biomech. 70:88–95.
  • Cavanaugh J. 1995. Neural mechanisms of lumbar pain. Spine. 20(16):1804–1809.
  • Cavanaugh JM. 2006. Pain generation in lumbar and cerivical facet joints. J Bone Joint Surg Am. 88(Suppl_2):63–67.
  • Chazal J, Tanguy A, Bourges M, Gaurel G, Escande G, Guillot M, Vanneuville G. 1985. Biomechanical properties of spinal ligaments and a histological study of the supraspinal ligament in traction. J Biomech. 18(3):167–176.
  • Claeson AA, Barocas VH. 2017. Computer simulation of lumbar flexion shows shear of the facet capsular ligament. Spine J. 17(1):109–119.
  • Claeson AA, Barocas VH. 2017. Planar biaxial extension of the lumbar facet capsular ligament reveals significant in-plane shear forces. J Mech Behav Biomed Mater. 65127–136.
  • Cusick JF, Yoganandan N, Pintar FA, Reinartz JM. 1992. Biomechanics of sequential posterior lumbar surgical alterations. J Neurosurg. 76(5):805–811.
  • Dagenais S, Caro J, Haldeman S. 2008. A systematic review of low back pain cost of illness studies in the United States and internationally. Spine J. 8(1):8–20.
  • Deyo RA, Mirza SK, Martin BI. 2006. Back pain prevalence and visit rates: estimates from U.S. National Surveys, 2002. Spine. 31(23):2724–2727.
  • Dolan P, Adams MA. 1998. Repetitive lifting tasks fatigue the back muscles and increase the bending moment acting on the lumbar spine. J Biomech. 31(8):713–721.
  • Edwards WT, Zheng Y, Ferrara LA, Yuan HA. 2001. Structural features and thickness of the vertebral cortex in the thoracolumbar spine. Spine. 26(2):218–225.
  • Ellingson AM, Mehta H, Polly DW, Ellermann J, Nuckley DJ. 2013. Disc degeneration assessed by quantitative T2* (T2 star) correlated with functional lumbar mechanics. Spine. 38(24):E1533–E1540.
  • Ellingson AM, Nuckley DJ. 2015. Altered helical axis patterns of the lumbar spine indicate increased instability with disc degeneration. J Biomech. 48(2):361–369.
  • Ellingson AM, Shaw MN, Giambini H, An K-N. 2016. Comparative role of disc degeneration and ligament failure on functional mechanics of the lumbar spine. Comput Methods Biomech Biomed Engin. 19(9):1009–1018.
  • Ellingson AM, Yelisetti V, Schulz CA, Bronfort G, Downing J, Keefe DF, Nuckley DJ. 2013. Instantaneous helical axis methodology to identify aberrant neck motion. Clin Biomech (Bristol, Avon). 28(7):731–735.
  • Ferguson SJ, Ito K, Nolte L-P. 2004. Fluid flow and convective transport of solutes within the intervertebral disc. J Biomech. 37(2):213–221.
  • Gillespie KA, Dickey JP. 2004. Biomechanical role of lumbar spine ligaments in flexion and extension: determination using a parallel linkage robot and a porcine model. Spine. 29(11):1208–1216.
  • Goel VK, Monroe BT, Gilbertson LG, Brinckmann P. 1995. Interlaminar shear stresses and laminae separation in a disc. Finite element analysis of the L3-L4 motion segment subjected to axial compressive loads. Spine. 20(6):689–698.
  • Heuer F, Schmidt H, Klezl Z, Claes L, Wilke H-J. 2007. Stepwise reduction of functional spinal structures increase range of motion and change lordosis angle. J Biomech. 40(2):271–280.
  • Ianuzzi A, Little JS, Chiu JB, Baitner A, Kawchuk G, Khalsa PS. 2004. Human lumbar facet joint capsule strains: I. During physiological motions. Spine J. 4(2):141–152.
  • Izzo R, Guarnieri G, Guglielmi G, Muto M. 2013. Biomechanics of the spine. Part II: spinal instability. Eur J Radiol. 82(1):127–138.
  • Izzo R, Guarnieri G, Guglielmi G, Muto M. 2013. Biomechanics of the spine. Part I: spinal stability. Eur J Radiol. 82(1):118–126.
  • Jaumard NV, Welch WC, Winkelstein BA. 2011. Spinal facet joint biomechanics and mechanotransduction in normal, injury and degenerative conditions. J Biomech Eng. 133(7):071010.
  • Little JS, Khalsa PS. 2005. Material properties of the human lumbar facet joint capsule. J Biomech Eng. 127(1):15–24.
  • Li Y, Shen Z, Huang M, Wang X. 2017. Stepwise resection of the posterior ligamentous complex for stability of a thoracolumbar compression fracture: An in vitro biomechanical investigation. Medicine (Baltimore). 96(35):e7873.
  • Nagel TM, Hadi MF, Claeson AA, Nuckley DJ, Barocas VH. 2014. Combining displacement field and grip force information to determine mechanical properties of planar tissue with complicated geometry. J Biomech Eng. 136(11):114501.
  • Naserkhaki S, Arjmand N, Shirazi-Adl A, Farahmand F, El-Rich M. 2018. Effects of eight different ligament property datasets on biomechanics of a lumbar L4-L5 finite element model. J Biomech. 70:33–42.
  • Natarajan RN, Williams JR, Andersson GBJ. 2004. Recent advances in analytical modeling of lumbar disc degeneration. Spine. 29(23):2733–2741.
  • Panjabi MM, Goel VK, Takata K. 1982. Physiologic strains in the lumbar spinal ligaments. An in vitro biomechanical study 1981 Volvo Award in Biomechanics. Spine. 7(3):192–203.
  • Panjabi MM, Oxland TR, Parks EH. 1991. Three-dimensional quantitative morphology of lumbar spinal ligaments. J Spinal Disord. 4(3):277–262.
  • Panjabi MM. 2003. Clinical spinal instability and low back pain. J Electromyogr Kinesiol. 13(4):371–379.
  • Panjabi MM. 2006. A hypothesis of chronic back pain: ligament subfailure injuries lead to muscle control dysfunction. Eur Spine J. 15(5):668–676.
  • Patwardhan AG, Meade KP, Lee B. 2001. A frontal plane model of the lumbar spine subjected to a follower load: implications for the role of muscles. J Biomech Eng. 123(3):212.
  • Pintar FA, Yoganandan N, Myers T, Elhagediab A, Sances A. 1992. Biomechanical properties of human lumbar spine ligaments. J Biomech. 25(11):1351–1356.
  • Ruberte LM, Natarajan RN, Andersson GB. 2009. Influence of single-level lumbar degenerative disc disease on the behavior of the adjacent segments–a finite element model study. J Biomech. 42(3):341–348.
  • Schmidt H, Heuer F, Claes L, Wilke H-J. 2008a. The relation between the instantaneous center of rotation and facet joint forces – a finite element analysis. Clin Biomech (Bristol, Avon). 23(3):270–278.
  • Schmidt H, Heuer F, Drumm J, Klezl Z, Claes L, Wilke H-J. 2007. Application of a calibration method provides more realistic results for a finite element model of a lumbar spinal segment. Clin Biomech (Bristol, Avon). 22(4):377–384.
  • Schmidt H, Heuer F, Wilke H-J. 2008b. Interaction between finite helical axes and facet joint forces under combined loading. Spine. 33(25):2741–2748.
  • Sharma M, Langrana NA, Rodriguez J. 1995. Role of ligaments and facets in lumbar spinal stability. Spine. 20(8):887.
  • Shirazi-Adl A. 1991. Finite-element evaluation of contact loads on facets of an L2-L3 lumbar segment in complex loads. Spine. 16(5):533–541.
  • Shirazi-Adl S, Shrivastava S, Ahmed A. 1984. Stress analysis of the lumbar disc-body unit in compression. A Three-dimensional nonlinear finite element study. Spine. 9(2):120–134.
  • Skaggs DL, Weidenbaum M, Latridis JC, Ratcliffe A, Mow VC. 1994. Regional variation in tensile properties and biochemical composition of the human lumbar anulus fibrosus. Spine. 19(12):1310–1319.
  • Varlotta GP, Lefkowitz TR, Schweitzer M, Errico TJ, Spivak J, Bendo JA, Rybak L. 2011. The lumbar facet joint: a review of current knowledge: part 1: anatomy, biomechanics, and grading. Skeletal Radiol. 40(1):13–23.
  • Wilke H, Wenger K, Claes L. 1998. Testing criteria for spinal implants: recommendations for the standardization of in vitro stability testing of spinal implants. Eur Spine J. 7(2):148–154.
  • Wilke HJ, Neef P, Caimi M, Hoogland T, Claes LE. 1999. New in vivo measurements of pressures in the intervertebral disc in daily life. Spine. 24(8):755–762.
  • Woltring HJ, Long K, Osterbauer PJ, Fuhr AW. 1994. Instantaneous helical axis estimation from 3-D video data in neck kinematics for whiplash diagnostics. J Biomech. 27(12):1415–1432.
  • Yamamoto I, Panjabi MM, Crisco T, Oxland T. 1989. Three-dimensional movements of the whole lumbar spine and lumbosacral joint. Spine. 14(11):1256–1260.
  • Zarei V, Liu CJ, Claeson AA, Akkin T, Barocas VH. 2017. Image-based multiscale mechanical modeling shows the importance of structural heterogeneity in the human lumbar facet capsular ligament. Biomech Model Mechanobiol. 16(4):1425–1438.
  • Zarei V, Zhang S, Winkelstein BA, Barocas VH. 2017. Tissue loading and microstructure regulate the deformation of embedded nerve fibres: predictions from single-scale and multiscale simulations. J R Soc Interface. 14(135):20170326.

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