Effects of idealized joint geometry on finite element predictions of cartilage contact stresses in the hip.
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Hip Joint Stresses Due to Cam-Type Femoroacetabular Impingement: A Systematic Review of Finite Element SimulationsArticular Contact Mechanics from an Asymptotic Modeling Perspective: A ReviewSubject-specific analysis of joint contact mechanics: application to the study of osteoarthritis and surgical planningFinite element prediction of cartilage contact stresses in normal human hips.Computationally efficient magnetic resonance imaging based surface contact modeling as a tool to evaluate joint injuries and outcomes of surgical interventions compared to finite element modelingBiomechanical factors in planning of periacetabular osteotomyStudy of the polycarbonate-urethane/metal contact in different positions during gait cycleComputed tomography arthrography with traction in the human hip for three-dimensional reconstruction of cartilage and the acetabular labrumBiphasic investigation of contact mechanics in natural human hips during activities.Toward patient-specific articular contact mechanicsMen and women have similarly shaped carpometacarpal joint bones.Accuracy of 3D dual echo steady state (DESS) MR arthrography to quantify acetabular cartilage thickness.Multiscale mechanics of articular cartilage: potentials and challenges of coupling musculoskeletal, joint, and microscale computational models.Three-dimensional quantification of femoral head shape in controls and patients with cam-type femoroacetabular impingement.Specimen-specific predictions of contact stress under physiological loading in the human hip: validation and sensitivity studies.Finite element prediction of transchondral stress and strain in the human hip.A new sensor for measurement of dynamic contact stress in the hip.Patient-specific analysis of cartilage and labrum mechanics in human hips with acetabular dysplasia.Correlations between the alpha angle and femoral head asphericity: Implications and recommendations for the diagnosis of cam femoroacetabular impingementComputational modelling of the natural hip: a review of finite element and multibody simulations.Does increasing applied load lead to contact changes indicative of knee osteoarthritis? A subject-specific FEA study.Toward modeling locomotion using electromyography-informed 3D models: application to cerebral palsy.A method to investigate the biomechanical alterations in Perthes' disease by hip joint contact modeling.Experimental validation of a new biphasic model of the contact mechanics of the porcine hip.Quantitative comparison of cortical bone thickness using correspondence-based shape modeling in patients with cam femoroacetabular impingement.The influence of size, clearance, cartilage properties, thickness and hemiarthroplasty on the contact mechanics of the hip joint with biphasic layers.A new discrete element analysis method for predicting hip joint contact stresses.Assessment of cartilage contact pressure and loading in the hip joint during split posture.The effects of geometric uncertainties on computational modelling of knee biomechanics.The influence of the representation of collagen fibre organisation on the cartilage contact mechanics of the hip joint.Finite Element Analysis Examining the Effects of Cam FAI on Hip Joint Mechanical Loading Using Subject-Specific Geometries During Standing and Maximum SquatGeometric parameterisation of pelvic bone and cartilage in contact analysis of the natural hip: an initial study.Influence of clearance on the time-dependent performance of the hip following hemiarthroplasty: a finite element study with biphasic acetabular cartilage propertiesProtrusio acetabuli: joint loading with severe pincer impingement and its theoretical implications for surgical therapy.A hyperelastic biphasic fibre-reinforced model of articular cartilage considering distributed collagen fibre orientations: continuum basis, computational aspects and applications.Three-dimensional assessment of impingement risk in geometrically parameterised hips compared with clinical measures.Discrete element analysis is a valid method for computing joint contact stress in the hip before and after acetabular fracture.Trapeziometacarpal joint contact varies between men and women during three isometric functional tasks.Application of a semi-automatic cartilage segmentation method for biomechanical modeling of the knee joint.Optimization of the position of the acetabulum in a ganz periacetabular osteotomy by finite element analysis.
P2860
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P2860
Effects of idealized joint geometry on finite element predictions of cartilage contact stresses in the hip.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Effects of idealized joint geo ...... e contact stresses in the hip.
@ast
Effects of idealized joint geo ...... e contact stresses in the hip.
@en
type
label
Effects of idealized joint geo ...... e contact stresses in the hip.
@ast
Effects of idealized joint geo ...... e contact stresses in the hip.
@en
prefLabel
Effects of idealized joint geo ...... e contact stresses in the hip.
@ast
Effects of idealized joint geo ...... e contact stresses in the hip.
@en
P2093
P2860
P1476
Effects of idealized joint geo ...... e contact stresses in the hip.
@en
P2093
Andrew E Anderson
Benjamin J Ellis
Jeffrey A Weiss
Steve A Maas
P2860
P304
P356
10.1016/J.JBIOMECH.2010.01.010
P577
2010-02-21T00:00:00Z