Effect of bone distribution on vertebral strength: assessment with patient-specific nonlinear finite element analysis.
about
Computed tomography-based finite element analysis to assess fracture risk and osteoporosis treatmentPerspective on post-menopausal osteoporosis: establishing an interdisciplinary understanding of the sequence of events from the molecular level to whole bone fractures.Role of trabecular microarchitecture in whole-vertebral body biomechanical behaviorEffects of suppression of bone turnover on cortical and trabecular load sharing in the canine vertebral body.Femoral and vertebral strength improvements in postmenopausal women with osteoporosis treated with denosumab.Advanced CT based in vivo methods for the assessment of bone density, structure, and strength.Effect of trabecular bone loss on cortical strain rate during impact in an in vitro model of avian femur.Mechanical contributions of the cortical and trabecular compartments contribute to differences in age-related changes in vertebral body strength in men and women assessed by QCT-based finite element analysis.Influence of vertical trabeculae on the compressive strength of the human vertebraAnalysis of vertebral bone strength, fracture pattern, and fracture location: a validation study using a computed tomography-based nonlinear finite element analysisA biomechanical perspective on bone quality.Simulation of the behaviour of the L1 vertebra for different material properties and loading conditions.A new material mapping procedure for quantitative computed tomography-based, continuum finite element analyses of the vertebra.Comparison of quantitative computed tomography-based measures in predicting vertebral compressive strength.Locations of bone tissue at high risk of initial failure during compressive loading of the human vertebral body.Vertebral fragility and structural redundancy.Comprehensive Assessment of Osteoporosis and Bone Fragility with CT Colonography.Prediction of new clinical vertebral fractures in elderly men using finite element analysis of CT scans.Estimates of volumetric bone density from projectional measurements improve the discriminatory capability of dual X-ray absorptiometry.Comparative effects of teriparatide and risedronate in glucocorticoid-induced osteoporosis in men: 18-month results of the EuroGIOPs trialConsiderations for development of surrogate endpoints for antifracture efficacy of new treatments in osteoporosis: a perspective.Finite element analysis of the proximal femur and hip fracture risk in older menTechnology insight: noninvasive assessment of bone strength in osteoporosis.Theoretical implications of the biomechanical fracture thresholdFemoral bone strength and its relation to cortical and trabecular changes after treatment with PTH, alendronate, and their combination as assessed by finite element analysis of quantitative CT scans.Early changes in biochemical markers of bone formation during teriparatide therapy correlate with improvements in vertebral strength in men with glucocorticoid-induced osteoporosisAssessment of incident spine and hip fractures in women and men using finite element analysis of CT scansBiomechanical computed tomography-noninvasive bone strength analysis using clinical computed tomography scans.Biomechanics of vertebral fractures and the vertebral fracture cascade.Vertebral fracture risk and alendronate effects on osteoporosis assessed by a computed tomography-based nonlinear finite element method.Imaging technologies for assessment of skeletal health in men.Finite element analysis of the hip and spine based on quantitative computed tomography.Finite Element-Based Mechanical Assessment of Bone Quality on the Basis of In Vivo Images.Finite Element Analysis of Denosumab Treatment Effects on Vertebral Strength in Ovariectomized Cynomolgus Monkeys.Current methods and recent advances in the diagnosis of osteoporosis.The assessment of vertebral bone macroarchitecture with X-ray computed tomography.Contribution of the cortical shell of vertebrae to mechanical behaviour of the lumbar vertebrae with implications for predicting fracture risk.Localized damage in vertebral bone is most detrimental in regions of high strain energy density.Cortical and trabecular load sharing in the human vertebral body.Sensitivity of patient-specific vertebral finite element model from low dose imaging to material properties and loading conditions.
P2860
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P2860
Effect of bone distribution on vertebral strength: assessment with patient-specific nonlinear finite element analysis.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年学术文章
@wuu
1991年学术文章
@zh
1991年学术文章
@zh-cn
1991年学术文章
@zh-hans
1991年学术文章
@zh-my
1991年学术文章
@zh-sg
1991年學術文章
@yue
1991年學術文章
@zh-hant
name
Effect of bone distribution on ...... inear finite element analysis.
@en
Effect of bone distribution on ...... inear finite element analysis.
@nl
type
label
Effect of bone distribution on ...... inear finite element analysis.
@en
Effect of bone distribution on ...... inear finite element analysis.
@nl
prefLabel
Effect of bone distribution on ...... inear finite element analysis.
@en
Effect of bone distribution on ...... inear finite element analysis.
@nl
P2093
P1433
P1476
Effect of bone distribution on ...... inear finite element analysis.
@en
P2093
P304
P356
10.1148/RADIOLOGY.179.3.2027972
P407
P577
1991-06-01T00:00:00Z