A 3D finite element model of damage and augmentation of the human vertebral body


Project Acronym Projekt Kurzbezeichnung
OSTEOSIM
 
Project Title (de) Projekttitel (de)
A 3D finite element model of damage and augmentation of the human vertebral body
 
Project Title (en) Projekttitel (en)
A 3D finite element model of damage and augmentation of the human vertebral body
 
Consortium Coordinator Koordinator des Konsortiums
 
Principal Investigator Projektleiter_in
 
Funder/Funding Agency Fördergeber
Vereine, Stiftungen, Preise

Publications

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PreviewAuthor(s)TitleTypeIssue Date
1Chevalier, Yan ; Pahr, Dieter H. ; Zysset, Philippe K. How Cement Modulus and Distribution Change Damage Accumulation after Vertebroplasty: A Nonlinear Finite Element Study Accounting for Cortex and Trabecular FabricPräsentation Presentation2009
2Chevalier, Yan ; Charlebois, Mathieu ; Heini, Paul ; Schneider, Erich ; Zysset, Philippe K. Cement Distribution, Volume and Compliance in Vertebroplasty: Some Answers from an Anatomy-Based Finite Element StudyPräsentation Presentation2008
3Chevalier, Yan ; Charlebois, Mathieu ; Heini, Paul ; Schneider, Erich ; Zysset, Philippe K. Patient-Specific Finite Element Models For Prediction of Stiffness and Strength Increase of Osteoporotic Vertebral Bodies Following VertebroplastyPräsentation Presentation2007
4Chevalier, Yan ; Pahr, Dieter H. ; Heini, Paul ; Schneider, Erich ; Zysset, Philippe K. Biomechanical Analysis of Vertebroplasty Using Anatomy-Based Finite ElementModelsPräsentation Presentation2006
5Chevalier, Yan ; Varga, Peter ; Pahr, Dieter H. ; Schneider, Erich ; Zysset, Philippe K. Calibrated Finite Element Voxel Models Based on High-Resolution CT Predict in vitro Vertebral Strength Better than DEXAPräsentation Presentation2006