Poroelastic Characteristics of Intervertebral Disc Under Intermittent Load

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Journal of Northeastern University ›› 2013, Vol. 34 ›› Issue (4): 573-577.DOI: -

• Mechanical Engineering • Previous Articles Next Articles

Poroelastic Characteristics of Intervertebral Disc Under Intermittent Load

LI Rui， GUO Lixin

School of Mechanical Engineering ＆ Automation， Northeastern University， Shenyang 110819， China.

Received:2012-11-27 Revised:2012-11-27 Online:2013-04-15 Published:2013-06-19
Contact: GUO Lixin
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Abstract

Abstract: A poroelastic finite element model was developed to analyze the biomechanical characteristics of the human spine L4/L5 segment under continuous/intermittent loads， and the results were compared with those of a degenerated model under the same working conditions. The results showed that with the existence of the resting time， the deformation and the effective stress of the intervertebral disc decreased， while the pore pressure increased. Moreover， due to the increased stiffness and the decreased height and initial pore ratio of the degenerated disc， the changing rate of the pore pressure and the effective stress are faster than those of the healthy disc.

Key words: intervertebral disc, poroelastic finite element model, intermittent load, L4/L5 lumbar segment, degenerated disc

CLC Number:

TB17

LI Rui， GUO Lixin. Poroelastic Characteristics of Intervertebral Disc Under Intermittent Load[J]. Journal of Northeastern University, 2013, 34(4): 573-577.

References

[1] Adams M A，Dolan P，Hutton W C.Diurnal variations in the stresses on the lumbar spine［J］.Spine，1987，12(2):130/137.
[2] ShiraziAdl A，Parnianpour M.Loadbearing and stress analysis of the human spine under a novel wrapping compression loading［J］.Clinical Biomechanics，2000，15:718/725.
[3] Little J P，Pearcy M J，Pettet G J.Parametric equations to represent the profile of the human intervertebral disc in the transverse plane［J］.Medical Biological Engineering ＆ Computing，2007，45(10):939/945.
[4] Guo L X，Zhang Y M，Zhang M.Finite element modeling and modal analysis of the human spine vibration configuration［J］.IEEE Transactions on Biomedical Engineering，2011，58(10):2987/2990.
[5] Wu J S S，Chen J H.Clarification of the mechanical behavior of spinal motion segments through a threedimensional poroelastic mixed finite element model［J］.Medical Engineering ＆ Physics，1996，18(3):215/244.
[6] Schmidt H，ShiraziAdl A，Galbusera F，et al.Response analysis of the lumbar spine during regular daily activities—a finite element analysis［J］.Journal of Biomechanics，2010，43(12):1849/1856.
[7] Thompson J P，Pearce R H，Schechter M T，et al.Preliminary evaluation of a scheme for grading the gross morphology of the human intervertebral disc［J］.Spine，1990，15(5):411/415.
[8] Argoubi M，ShiraziAdl A.Poroelastic creep response analysis of a lumbar motion segment in compression［J］.Journal of Biomechanics，1996，29(10):1331/1339.
[9] Cheung J T M，Zhang M，Chow D H K.Biomechanical responses of the intervertebral joints to static and vibrational loading:a finite element study［J］.Clinical Biomechanics，2003，18:790/799.
[10] Ferguson S J，Ito K，Nolte L P.Fluid flow and convective transport of solutes within the intervertebral disc［J］.Journal of Biomechanics，2004，37(2):213/221.

Poroelastic Characteristics of Intervertebral Disc Under Intermittent Load

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