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Computer Methods in Biomechanics and Biomedical Engineering Volume 17, 2014 - Issue 15
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Articles

Biomechanical implications of lumbar spinal ligament transection

Gregory A. Von ForellDepartment of Mechanical Engineering, Brigham Young University, Provo, UT84602, USA
&
Anton E. BowdenDepartment of Mechanical Engineering, Brigham Young University, Provo, UT84602, USACorrespondence[email protected]
Pages 1685-1695 | Received 10 Apr 2012, Accepted 03 Jan 2013, Published online: 12 Mar 2013

References

  • AdamsMA, HuttonWC. 1981. The relevance of torsion to the mechanical derangement of the lumbar spine. Spine (Phila Pa 1796). 6(3):241–248.
  • AyturkUM, PuttlitzCM. 2011. Parametric convergence sensitivity and validation of a finite element model of the human lumbar spine. Comput Methods Biomech Biomed Eng.14(8):695–705.
  • BougheraraH, BureauMN, YahiaL. 2010. Bone remodeling in a new biomimetic polymer-composite hip stem. J Biomed Mater Res A.92(1):164–174.
  • BowdenAE. 2006. Finite element modeling of the spine. Spine technology handbook. London (England): Elsevier Academic Press.
  • BowdenAE, GuerinHL, VillarragaML, PatwardhanAG, OchoaJA. 2008. Quality of motion considerations in numerical analysis of motion restoring implants of the spine. Clin Biomech (Bristol, Avon). 23(5):536–544.
  • CakirB, RichterM, SchmoelzW, SchmidtR, ReichelH, WilkeHJ. 2009. Resect or not to resect: the role of posterior longitudinal ligament in lumbar total disc replacement. Eur Spine J.21(Suppl 5):S592–S598.
  • ChazalJ, TanguyA, BourgesM, GaurelG, EscandeG, GuillotM, VanneuvilleG. 1985. Biomechanical properties of spinal ligaments and a histological study of the supraspinal ligament in traction. J Biomech.18(3):167–176.
  • DabirrahmaniD, BeckerS, HoggM, AppleyardR, BaroudG, GilliesM. 2012. Mechanical variables affecting balloon kyphoplasty outcome – a finite element study. Comput Methods Biomech Biomed Eng.15(3):211–220.
  • ElliottDM, SettonLA. 2001. Anisotropic and inhomogeneous tensile behavior of the human anulus fibrosus: experimental measurement and material model predictions. J Biomech Eng.123(3):256–263.
  • FreiH, OxlandTR, RathonyiGC, NolteLP. 2001. The effect of nucleotomy on lumbar spine mechanics in compression and shear loading. Spine (Phila Pa 1976). 26(19):2080–2089.
  • FyhrieDP, CarterDR. 1986. A unifying principle relating stress to trabecular bone morphology. J Orthop Res.4(3):304–317.
  • GillespieKA, DickeyJP. 2004. Biomechanical role of lumbar spine ligaments in flexion and extension: determination using a parallel linkage robot and a porcine model. Spine (Phila Pa 1976). 29(11):1208–1216.
  • GoelVK, ClausenJD. 1998. Prediction of load sharing among spinal components of a C5-C6 motion segment using the finite element approach. Spine (Phila Pa 1976). 23(6):684–691.
  • GoelVK, GilbertsonLG. 1995. Applications of the finite element method to thoracolumbar spinal research – past, present, and future. Spine (Phila Pa 1976). 20(15):1719–1727.
  • GoelVK, MonroeBT, GilbertsonLG, BrinckmannP. 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. 20:689–698.
  • GuanY, YoganandanN, ZhangJ, PintarFA, CusickJF, WolflaCE, MaimanDJ. 2006. Validation of a clinical finite element model of the human lumbosacral spine. Med Biol Eng Comput.44(8):633–641.
  • GudavalliMR, TrianoJJ. 1999. An analytical model of lumbar motion segment in flexion. J Manipulative Physiol Ther.22(4):201–208.
  • HeuerF, SchmidtH, ClaesL, WilkeHJ. 2007. Stepwise reduction of functional spinal structures increase vertebral translation and intradiscal pressure. J Biomech.40(4):795–803.
  • HopkinsTJ, WhiteAA, 3rd. 1993. Rehabilitation of athletes following spine injury. Clin Sports Med.12(3):603–619.
  • HuiskesR, WeinansH, GrootenboerHJ, DalstraM, FudalaB, SlooffTJ. 1987. Adaptive bone-remodeling theory applied to prosthetic-design analysis. J Biomech.20(11–12):1135–1150.
  • KhooLT, PalmerS, LaichDT, FesslerRG. 2002. Minimally invasive percutaneous posterior lumbar interbody fusion. Neurosurgery. 51(Suppl 5):S166–S181.
  • KimCH, ChungCK. 2011. Endoscopic interlaminar lumbar discectomy with splitting of the ligament flavum under visual control. J Spinal Disord Tech.25(4):210–217.
  • LeeCK, KimYE, LeeCS, HongYM, JungJM, GoelVK. 2000. Impact response of the intervertebral disc in a finite-element model. Spine (Phila Pa 1976). 25(19):2431–2439.
  • LittleJS, KhalsaPS. 2005. Material properties of the human lumbar facet joint capsule. J Biomech Eng.127(1):15–24.
  • LoTP, Jr, SalernoSS, ColohanAR. 2010. Interlaminar spacer: a review of its mechanism, application, and efficacy. World Neurosurg.74(6):617–626.
  • LSTC. 2011. LS-DYNA KEYWORD User's Manual. 1. Livermore, CA: Livermore Software Technology Corp.
  • MackerleJ. 2006. Finite element modeling and simulations in orthopedics: a bibliography 1998–2005. Comput Methods Biomech Biomed Eng.9(3):149–199.
  • MorganEF, BayraktarHH, KeavenyTM. 2003. Trabecular bone modulus-density relationships depend on anatomic site. J Biomech.36(7):897–904.
  • NgHW, TeoEC, ZhangQ. 2005. Influence of cervical disc degeneration after posterior surgical techniques in combined flexion-extension – a nonlinear analytical study. J Biomech Eng.127(1):186–192.
  • NoaillyJ, LacroixD, PlanellJA. 2005. Finite element study of a novel intervertebral disc substitute. Spine (Phila Pa 1976). 30(20):2257–2264.
  • O'haraLJ, MarshallRW. 1997. Far lateral lumbar disc herniation. The key to the intertransverse approach. J Bone Joint Surg Br.79(6):943–947.
  • PanjabiMM, GoelVK, TakataK. 1982. Physiologic strains in the lumbar spinal ligaments. An in vitro biomechanical study 1981 Volvo Award in Biomechanics. Spine (Phila Pa 1976). 7(3):192–203.
  • PanjabiMM, OxlandTR, YamamotoI, CriscoJJ. 1994. Mechanical behavior of the human lumbar and lumbosacral spine as shown by three-dimensional load-displacement curves. J Bone Joint Surg Am.76(3):413–424.
  • PatwardhanAG, HaveyRM, CarandangG, SimondsJ, VoronovLI, GhanayemAJ, MeadeKP, GavinTM, PaxinosO. 2003. Effect of compressive follower preload on the flexion-extension response of the human lumbar spine. J Orthop Res.21(3):540–546.
  • PearcyMJ, BogdukN. 1988. Instantaneous axes of rotation of the lumbar intervertebral joints. Spine (Phila Pa 1976). 13(9):1033–1041.
  • PolikeitA, NolteLP, FergusonSJ. 2003. The effect of cement augmentation on the load transfer in an osteoporotic functional spinal unit: finite-element analysis. Spine (Phila Pa 1976). 28(10):991–996.
  • RohlmannA, BurraNK, ZanderT, BergmannG. 2007. Comparison of the effects of bilateral posterior dynamic and rigid fixation devices on the loads in the lumbar spine: a finite element analysis. Eur Spine J.16(8):1223–1231.
  • RundellSA, AuerbachJD, BalderstonRA, KurtzSM. 2008. Total disc replacement positioning affects facet contact forces and vertebral body strains. Spine (Phila Pa 1976). 33(23):2510–2517.
  • RundellSA, GuerinHL, AuerbachJD, KurtzSM. 2009. Effect of nucleus replacement device properties on lumbar spine mechanics. Spine (Phila Pa 1976). 34(19):2022–2032.
  • SairyoK, GoelVK, MasudaA, VishnubhotlaS, FaizanA, BiyaniA, EbraheimN, YonekuraD, MurakamiR, TeraiT. 2006. Three dimensional finite element analysis of the pediatric lumbar spine. Part II: biomechanical change as the initiating factor for pediatric isthmic spondylolisthesis at the growth plate. Eur Spine J.15(6):930–935.
  • SchmidtH, GalbuseraF, RohlmannA, ZanderT, WilkeHJ. 2010. Effect of multilevel lumbar disc arthroplasty on spine kinematics and facet joint loads in flexion and extension: a finite element analysis. Eur Spine J.21(Suppl 5):S663–S674.
  • SchmidtH, HeuerF, DrummJ, KlezlZ, ClaesL, WilkeHJ. 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.
  • SharmaM, LangranaNA, RodriguezJ. 1995. Role of ligaments and facets in lumbar spinal stability. Spine (Phila Pa 1976). 20(8):887–900.
  • Shirazi-AdlA. 1994. Biomechanics of the lumbar spine in sagittal/lateral moments. Spine (Phila Pa 1976). 19(21):2407–2414.
  • SizerPS, Jr, PhelpsV, MatthijsO. 2001. Pain generators of the lumbar spine. Pain Pract.1(3):255–273.
  • SongJ, ParkY. 2000. Ligament-sparing lumbar microdiscectomy: technical note. Surg Neurol.53(6):592–596, discussion 596–597.
  • TomaszewskiPK, VerdonschotN, BulstraSK, VerkerkeGJ. 2010. A comparative finite-element analysis of bone failure and load transfer of osseointegrated prostheses fixations. Ann Biomed Eng.38(7):2418–2427.
  • UlrichD, Van RietbergenB, LaibA, RuegseggerP. 1999. The ability of three-dimensional structural indices to reflect mechanical aspects of trabecular bone. Bone. 25(1):55–60.
  • VicecontiM, OlsenS, NolteLP, BurtonK. 2005. Extracting clinically relevant data from finite element simulations. Clin Biomech (Bristol, Avon). 20(5):451–454.
  • VoorMJ, MehtaS, WangM, ZhangYM, MahanJ, JohnsonJR. 1998. Biomechanical evaluation of posterior and anterior lumbar interbody fusion techniques. J Spinal Disord.11(4):328–334.
  • WhiteAA, PanjabiMM. 1990. Clinical biomechanics of the spine. Philadelphia (PA): Lippincott.
  • ZanderT, RohlmannA, BergmannG. 2004. Analysis of simulated single ligament transection on the mechanical behaviour of a lumbar functional spinal unit. Biomed Tech (Berl). 49(1–2):27–32.
  • ZanderT, RohlmannA, CalisseJ, BergmannG. 2001. Estimation of muscle forces in the lumbar spine during upper-body inclination. Clin Biomech (Bristol, Avon). 16(Suppl 1):S73–S80.

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