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Simulation of the disc degeneration with a poroelastic finite element model

  • Materials and Design Engineering
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Abstract

To predict the degeneration process in the intervertebral disc, a finite element model of the spinal motion segment model was developed. The relationship between the biomechanical characteristics of fluid and solid matrix of the disc and cancellous core of the vertebral body, modeled as 20 node poroelastic elements, during the degeneration process was investigated. Excess von Mises stress in the disc element was assumed to be a possible source of degeneration under compressive loading condition. Recursive calculation was continued until the desired convergence was attained by changing the permeability and void ratio of those elements. The degenerated disc model showed that relatively small compressive stresses were generated in the nucleus elements compared to normal disc. Its distribution along the sagittal plane was consistent with a previously reported experimental result. Contrasts to this result, pore pressures in the nucleus were higher than those in the normal disc. Total stress, sum of compressive stress and pore pressure, indicated similar values for two different models. This study presented a new approach to study the likely mechanism responsible for the initiation and progression of the degenerative process within the intervertebral disc.

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Authors and Affiliations

  1. Graduate School, Yonsei University Wonju, 220-710, Korea

    Daegon Woo

  2. Dept. of Mechanical Engineering, Dankook University, 140-714, Seoul, Korea

    Young Eun Kim

  3. Graduate School, Dankook University, 140-714, Seoul, Korea

    Sootaek Kim

  4. Dept. of Biomedical Engineering, Yonsei University, 220-710, Wonju, Korea

    Hansung Kim

Authors
  1. Daegon Woo
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  2. Young Eun Kim
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  3. Sootaek Kim
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  4. Hansung Kim
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Correspondence to Young Eun Kim.

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Woo, D., Kim, Y.E., Kim, S. et al. Simulation of the disc degeneration with a poroelastic finite element model. J Mech Sci Technol 21, 1178–1183 (2007). https://doi.org/10.1007/BF03179033

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  • DOI: https://doi.org/10.1007/BF03179033

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