Understanding the kinematics of the lumbosacral spine and the individual functional spinal units (FSU) is essential in assessing spine mechanics and implant performance. The lumbosacral spine and the FSU are comprised of bones and complex soft tissues such as intervertebral discs (IVD) and ligaments. Prior studies have focused on the behavior of isolated structures, but the contribution of each structure to the overall kinematics of the spine needs to be further understood. In this study, the behavior of various structural conditions was determined by experimentally dissecting each ligament in a stepwise fasion until only the IVD remained, and applying loading conditions to the FSU. The FE model was validated through optimization to match the in vitro load-deflection characteristics and contact mechanics for the various structural configurations.
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ASME 2013 Conference on Frontiers in Medical Devices: Applications of Computer Modeling and Simulation
September 11–13, 2013
Washington, DC, USA
Conference Sponsors:
- Bioengineering Division
ISBN:
978-0-7918-5600-0
PROCEEDINGS PAPER
Stepwise Validated Finite Element Model of the Human Lumbar Spine
Michael Bushelow,
Michael Bushelow
DePuy Synthes, West Chester, PA
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Paul Rullkoetter
Paul Rullkoetter
University of Denver, Denver, CO
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Dana Coombs
DePuy Synthes, West Chester, PA
Michael Bushelow
DePuy Synthes, West Chester, PA
Peter Laz
University of Denver, Denver, CO
Milind Rao
University of Denver, Denver, CO
Paul Rullkoetter
University of Denver, Denver, CO
Paper No:
FMD2013-16167, V001T01A004; 2 pages
Published Online:
February 19, 2014
Citation
Coombs, D, Bushelow, M, Laz, P, Rao, M, & Rullkoetter, P. "Stepwise Validated Finite Element Model of the Human Lumbar Spine." Proceedings of the ASME 2013 Conference on Frontiers in Medical Devices: Applications of Computer Modeling and Simulation. ASME 2013 Conference on Frontiers in Medical Devices: Applications of Computer Modeling and Simulation. Washington, DC, USA. September 11–13, 2013. V001T01A004. ASME. https://doi.org/10.1115/FMD2013-16167
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