Biomechanical changes of spinous process osteotomy with different amounts of facetectomy using finite element model

K. T. Kang, K. Y. Kim, H. J. Jung, H. Y. Lee, Heoung Jae Chun, H. M. Lee, S. H. Moon, H. J. Kim

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

The aim of this study is to evaluate the biomechanical changes after Spinous Process Osteotomy (SPO) with different amounts of facetectomy of the lumbar spine and to compare the models with SPO and intact models using finite element models. Intact spine models and one decompression models (L3-4) with SPO were developed. SPO models included three different amounts of facetectomy (25%, 50%, and 75%). After validation of the models, finite element analyses were performed to investigate the ranges of motion and disc stresses at each corresponding level among three SPO models and intact lumbar spine models. The ranges of motion in the SPO models were increased more than the intact models. According to increase of amounts of facetectomy, ranges of motion were also increased. Similar to range of motion, the von Mises stress of disc in the SPO models was higher than that of intact models. Moreover, with the increase of amount of facetectomy, the disc stress increased at each segments under various moments. The decompression procedures using spinous process osteotomy has been reported to provide better postoperative stability compared to the conventional laminectomy. However, facetectomy over 50 % is likely to attenuate this advantage.

Original languageEnglish
Title of host publicationFourth International Conference on Experimental Mechanics
Volume7522
DOIs
Publication statusPublished - 2010 Dec 1
Externally publishedYes
Event4th International Conference on Experimental Mechanics - Singapore, Singapore
Duration: 2009 Nov 182009 Nov 20

Other

Other4th International Conference on Experimental Mechanics
CountrySingapore
CitySingapore
Period09/11/1809/11/20

Fingerprint

Finite Element Model
Process Model
Spine
Motion
spine
Range of data
Model
pressure reduction
Likely
Moment
Evaluate
moments

Keywords

  • Facetectomy
  • Finite element analysis
  • Spinous process osoteotomy

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics
  • Computer Science Applications
  • Applied Mathematics
  • Electrical and Electronic Engineering

Cite this

Kang, K. T., Kim, K. Y., Jung, H. J., Lee, H. Y., Chun, H. J., Lee, H. M., ... Kim, H. J. (2010). Biomechanical changes of spinous process osteotomy with different amounts of facetectomy using finite element model. In Fourth International Conference on Experimental Mechanics (Vol. 7522). [75222O] https://doi.org/10.1117/12.851319

Biomechanical changes of spinous process osteotomy with different amounts of facetectomy using finite element model. / Kang, K. T.; Kim, K. Y.; Jung, H. J.; Lee, H. Y.; Chun, Heoung Jae; Lee, H. M.; Moon, S. H.; Kim, H. J.

Fourth International Conference on Experimental Mechanics. Vol. 7522 2010. 75222O.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Kang, KT, Kim, KY, Jung, HJ, Lee, HY, Chun, HJ, Lee, HM, Moon, SH & Kim, HJ 2010, Biomechanical changes of spinous process osteotomy with different amounts of facetectomy using finite element model. in Fourth International Conference on Experimental Mechanics. vol. 7522, 75222O, 4th International Conference on Experimental Mechanics, Singapore, Singapore, 09/11/18. https://doi.org/10.1117/12.851319
Kang KT, Kim KY, Jung HJ, Lee HY, Chun HJ, Lee HM et al. Biomechanical changes of spinous process osteotomy with different amounts of facetectomy using finite element model. In Fourth International Conference on Experimental Mechanics. Vol. 7522. 2010. 75222O https://doi.org/10.1117/12.851319
Kang, K. T. ; Kim, K. Y. ; Jung, H. J. ; Lee, H. Y. ; Chun, Heoung Jae ; Lee, H. M. ; Moon, S. H. ; Kim, H. J. / Biomechanical changes of spinous process osteotomy with different amounts of facetectomy using finite element model. Fourth International Conference on Experimental Mechanics. Vol. 7522 2010.
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