prediction of human vertebral compressive strength using quantitative computed tomography based nonlinear finite element method
Authors
abstract
introduction: because of the importance of vertebral compressive fracture (vcf) role in increasing the patients’ death rate and reducing their quality of life, many studies have been conducted for a noninvasive prediction of vertebral compressive strength based on bone mineral density (bmd) determination and recently finite element analysis. in this study, qct-voxel based nonlinear finite element method is used for predicting vertebral compressive strength. material and methods: four thoracolumbar vertebrae were excised from 3 cadavers with an average age of 42 years. they were then put in a water phantom and were scanned using the qct. using a computer program prepared in matlab, detailed voxel based geometry and mechanical characteristics of the vertebra were extracted from the ct images. the three dimensional finite element models of the samples were created using ansys computer program. the compressive strength of each vertebra body was calculated based on a linearly elastic-linearly plastic model and large deformation analysis in ansys and was compared to the value measured experimentally for that sample. results: based on the obtained results the qct-voxel based nonlinear finite element method (fem) can predict vertebral compressive strength more effectively and accurately than the common qct-voxel based linear fem. the difference between the predicted strength values using this method and the measured ones was less than 1 kn for all the samples. discussion and conclusion: it seems that the qct-voxel based nonlinear fem used in this study can predict more effectively and accurately the vertebral strengths based on every vertebrae specification by considering their detailed geometric and densitometric characteristics.
similar resources
Prediction of Human Vertebral Compressive Strength Using Quantitative Computed Tomography Based Nonlinear Finite Element Method
Introduction: Because of the importance of vertebral compressive fracture (VCF) role in increasing the patients’ death rate and reducing their quality of life, many studies have been conducted for a noninvasive prediction of vertebral compressive strength based on bone mineral density (BMD) determination and recently finite element analysis. In this study, QCT-voxel based nonlinear finite eleme...
full textComparison of quantitative computed tomography-based measures in predicting vertebral compressive strength.
Patient-specific measures derived from quantitative computed tomography (QCT) scans are currently being developed as a clinical tool for vertebral strength prediction. QCT-based measurement techniques vary greatly in structural complexity and generally fall into one of three categories: (1) bone mineral density (BMD), (2) "mechanics of solids" (MOS) models, such as minimum axial rigidity (the p...
full textDiscordance between Prevalent Vertebral Fracture and Vertebral Strength Estimated by the Finite Element Method Based on Quantitative Computed Tomography in Patients with Type 2 Diabetes Mellitus
BACKGROUND Bone fragility is increased in patients with type 2 diabetes mellitus (T2DM), but a useful method to estimate bone fragility in T2DM patients is lacking because bone mineral density alone is not sufficient to assess the risk of fracture. This study investigated the association between prevalent vertebral fractures (VFs) and the vertebral strength index estimated by the quantitative c...
full textQuantitative computed tomography-based finite element models of the human lumbar vertebral body: effect of element size on stiffness, damage, and fracture strength predictions.
This study investigated the numerical convergence characteristics of specimen-specific "voxel-based" finite element models of 14 excised human cadaveric lumbar vertebral bodies (age: 37-87; M = 6, F = 8) that were generated automatically from clinical-type CT scans. With eventual clinical applications in mind, the ability of the model stiffness to predict the experimentally measured compressive...
full textEffects of Scan Resolutions and Element Sizes on Bovine Vertebral Mechanical Parameters from Quantitative Computed Tomography-Based Finite Element Analysis
Quantitative computed tomography-based finite element analysis (QCT/FEA) has been developed to predict vertebral strength. However, QCT/FEA models may be different with scan resolutions and element sizes. The aim of this study was to explore the effects of scan resolutions and element sizes on QCT/FEA outcomes. Nine bovine vertebral bodies were scanned using the clinical CT scanner and reconstr...
full textPrediction of Vertebral Strength Under Loading Conditions of Daily Life Using a CT-Based Finite Element Method
INTRODUCTION: Osteoporotic vertebral fractures occasionally occur slowly and asymptomatically, that appear to be caused by loading on the spine during activities of daily living that exceed the vertebral strength of the osteoporotic individual. The most common type of vertebral fracture is reportedly wedge-shaped fracture caused by axial and bending loads. To assess the strength of osteoporotic...
full textMy Resources
Save resource for easier access later
Journal title:
iranian journal of medical physicsجلد ۴، شماره Issue ۳,۴، صفحات ۱۹-۳۲
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023