Add to ORKGAbstract: A simplified finite element model of the human lumbar intervertebral disc was utilized for understanding nucleus pulposus implant mechanics. The model was used to assess the effect of nucleus implant parameter variations on the resulting compressive biomechanics of the lumbar anterior column unit. The effects of nucleus implant material (modulus and Poisson’s ratio) and geometrical (height and diameter) parameters on the mechanical behavior of the disc were investigated. The model predicted that variations in implant modulus contribute less to the compressive disc mechanics compared to the implant geometrical parameters, for the ranges examined. It was concluded that some threshold exists for the nucleus implant modulus, below whi...
If patient-specific finite element models of the spine could be developed, they would offer enormous...
Low-back pain is one of the chief complaints of patients to their primary physicians, and its main c...
Abstract — An anatomically realistic three-dimensional (3D) finite element (FE) model of L4-L5 motio...
The aim of this article was to present the results of a preliminary study on the stress distribution...
[EN] Study design: Biomechanical study of a nucleus replacement with a finite element model. Objecti...
The intervertebral disc performs the mechanical roles of supporting loads, permitting motion, and di...
The intervertebral disc has a complex fibrocartilaginous structure, comprised of a jel-like nucleus ...
Abstract only availableThe objective is to create an accurate finite element model of the interverte...
In the current study, finite element analyses were conducted to examine the biomechanical capability...
Intervertebral disc degeneration is one of the leading causes of back pain, but treatment options re...
Finite element models are advantageous in the study of intervertebral disc mechanics as the stress-s...
Finite element (FE) models have become an important tool to study load distribution in the healthy a...
Target of the study was to predict the biomechanics of the instrumented and adjacent levels due to ...
A detailed three-dimensional solid model of the full cervical spine (C1-C7 levels) and the finite el...
Background: To find treatment options for lower back pain, one must gain insight in the spinal anato...
If patient-specific finite element models of the spine could be developed, they would offer enormous...
Low-back pain is one of the chief complaints of patients to their primary physicians, and its main c...
Abstract — An anatomically realistic three-dimensional (3D) finite element (FE) model of L4-L5 motio...
The aim of this article was to present the results of a preliminary study on the stress distribution...
[EN] Study design: Biomechanical study of a nucleus replacement with a finite element model. Objecti...
The intervertebral disc performs the mechanical roles of supporting loads, permitting motion, and di...
The intervertebral disc has a complex fibrocartilaginous structure, comprised of a jel-like nucleus ...
Abstract only availableThe objective is to create an accurate finite element model of the interverte...
In the current study, finite element analyses were conducted to examine the biomechanical capability...
Intervertebral disc degeneration is one of the leading causes of back pain, but treatment options re...
Finite element models are advantageous in the study of intervertebral disc mechanics as the stress-s...
Finite element (FE) models have become an important tool to study load distribution in the healthy a...
Target of the study was to predict the biomechanics of the instrumented and adjacent levels due to ...
A detailed three-dimensional solid model of the full cervical spine (C1-C7 levels) and the finite el...
Background: To find treatment options for lower back pain, one must gain insight in the spinal anato...
If patient-specific finite element models of the spine could be developed, they would offer enormous...
Low-back pain is one of the chief complaints of patients to their primary physicians, and its main c...
Abstract — An anatomically realistic three-dimensional (3D) finite element (FE) model of L4-L5 motio...