Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models are used to estimate bone mechanical properties at tissue level. However, their validation remains challenging. Recent improvements in the quantification of displacements in bone tissue biopsies subjected to staged compression, using refined Digital Volume Correlation (DVC) techniques, now provide a full field displacement information accurate enough to be used for microFE validation. In this study, three specimens (two humans and one bovine) were tested with two different experimental set-ups, and the resulting data processed with the same DVC algorithm. The resulting displacement vector field was compared to that predicted by microFE models solved...
A micromechanical characterization of biomaterials for bone tissue engineering is essential to under...
Quantitative computed tomography-based finite element (QCT-FE) modeling is a computational tool for ...
The accurate measurement of local strain is necessary to study bone mechanics and to validate micro ...
AbstractNon-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models...
Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models are use...
Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) model is popul...
The estimation of local and structural mechanical properties of bones with micro Finite Element (mic...
The mouse tibia is a common site to investigate bone adaptation. Micro-Finite Element (microFE) mode...
The estimation of local and structural mechanical properties of bones with micro Finite Element (mic...
Understanding bone mechanics at different hierarchical levels is fundamental to improve preclinical ...
The evaluation of the local mechanical behavior as a result of metastatic lesions is fundamental for...
Different digital volume correlation (DVC) approaches are currently available or under development f...
Different digital volume correlation (DVC) approaches are currently available or under development f...
Accurate measurement of local strain in heterogeneous and anisotropic bone tissue is fundamental to ...
Digital Volume Correlation (DVC) has become popular for measuring the strain distribution inside bon...
A micromechanical characterization of biomaterials for bone tissue engineering is essential to under...
Quantitative computed tomography-based finite element (QCT-FE) modeling is a computational tool for ...
The accurate measurement of local strain is necessary to study bone mechanics and to validate micro ...
AbstractNon-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models...
Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models are use...
Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) model is popul...
The estimation of local and structural mechanical properties of bones with micro Finite Element (mic...
The mouse tibia is a common site to investigate bone adaptation. Micro-Finite Element (microFE) mode...
The estimation of local and structural mechanical properties of bones with micro Finite Element (mic...
Understanding bone mechanics at different hierarchical levels is fundamental to improve preclinical ...
The evaluation of the local mechanical behavior as a result of metastatic lesions is fundamental for...
Different digital volume correlation (DVC) approaches are currently available or under development f...
Different digital volume correlation (DVC) approaches are currently available or under development f...
Accurate measurement of local strain in heterogeneous and anisotropic bone tissue is fundamental to ...
Digital Volume Correlation (DVC) has become popular for measuring the strain distribution inside bon...
A micromechanical characterization of biomaterials for bone tissue engineering is essential to under...
Quantitative computed tomography-based finite element (QCT-FE) modeling is a computational tool for ...
The accurate measurement of local strain is necessary to study bone mechanics and to validate micro ...