A 3D finite element model of an implanted scapula: Importance of a multiparametric validation using experimental data

Journal of Biomechanics

Volumn 38, Issue 9, 2005, Pages 1865-1872

  Maurel, N ^a   Diop, A ^a   Grimberg, J ^b  

^a ARTS ET MÉTIERS PARISTECH   (France)

^b Association Francilienne de Traumatologie du Sport   (France)

Author keywords

Experimental validation; Finite element model; Implanted gleno d; Shoulder

Indexed keywords

FINITE ELEMENT METHOD; MATHEMATICAL MODELS; PROSTHETICS; STRAIN;

SCAPULA; SURFACE CONTACT ELEMENTS; VITRO EXPERIMENTS;

BONE;

ARTICLE; COMPUTER ASSISTED TOMOGRAPHY; CONTROLLED STUDY; CORTICAL BONE; FINITE ELEMENT ANALYSIS; HUMAN; HUMAN TISSUE; IMAGE ANALYSIS; IMPLANT; MALE; MOLECULAR MODEL; MUSCLE MASS; PRIORITY JOURNAL; PROSTHESIS LOOSENING; SCAPULA; SHOULDER; STRESS STRAIN RELATIONSHIP; SURFACE PROPERTY; THREE DIMENSIONAL IMAGING; VALIDATION PROCESS;

AGED; AGED, 80 AND OVER; COMPUTER SIMULATION; DIAGNOSIS, COMPUTER-ASSISTED; ELASTICITY; EQUIPMENT FAILURE ANALYSIS; FINITE ELEMENT ANALYSIS; HUMANS; IMAGING, THREE-DIMENSIONAL; JOINT PROSTHESIS; MALE; MODELS, BIOLOGICAL; PROSTHESIS FAILURE; PROSTHESIS FITTING; RADIOGRAPHIC IMAGE INTERPRETATION, COMPUTER-ASSISTED; RISK ASSESSMENT; RISK FACTORS; SCAPULA; STRESS, MECHANICAL; WEIGHT-BEARING;

EID: 22044432465     PISSN: 00219290     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jbiomech.2004.08.019     Document Type: Article

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