Different digital volume correlation (DVC) approaches are currently available or under development for bone tissue micromechanics. The aim of this study was to compare accuracy and precision errors of three DVC approaches for a particular three-dimensional (3D) zero-strain condition. Trabecular and cortical bone specimens were repeatedly scanned with a micro-computed tomography (CT). The errors affecting computed displacements and strains were extracted for a known virtual translation, as well as for repeated scans. Three DVC strategies were tested: two local approaches, based on fast-Fourier-transform (DaVis-FFT) or direct-correlation (DaVis-DC), and a global approach based on elastic registration and a finite element (FE) solver (ShIRT-FE...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
AbstractNon-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models...
A micromechanical characterization of biomaterials for bone tissue engineering is essential to under...
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 ...
The accurate measurement of local strain is necessary to study bone mechanics and to validate micro ...
Understanding bone mechanics at different hierarchical levels is fundamental to improve preclinical ...
Digital Volume Correlation (DVC) has become popular for measuring the strain distribution inside bon...
AbstractDigital Volume Correlation (DVC) has become popular for measuring the strain distribution in...
none6siCombination of micro-focus computed tomography (micro-CT) in conjunction with in situ mechani...
Digital Volume Correlation (DVC) is used to measure internal displacements and strains in bone. Rece...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Micro-CT scanning of murine femurs before and after uniaxial compression produce 3-dimensional image...
Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models are use...
none7siDigital Volume Correlation (DVC) has become popular for measuring the strain distribution ins...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
AbstractNon-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models...
A micromechanical characterization of biomaterials for bone tissue engineering is essential to under...
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 ...
The accurate measurement of local strain is necessary to study bone mechanics and to validate micro ...
Understanding bone mechanics at different hierarchical levels is fundamental to improve preclinical ...
Digital Volume Correlation (DVC) has become popular for measuring the strain distribution inside bon...
AbstractDigital Volume Correlation (DVC) has become popular for measuring the strain distribution in...
none6siCombination of micro-focus computed tomography (micro-CT) in conjunction with in situ mechani...
Digital Volume Correlation (DVC) is used to measure internal displacements and strains in bone. Rece...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Micro-CT scanning of murine femurs before and after uniaxial compression produce 3-dimensional image...
Non-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models are use...
none7siDigital Volume Correlation (DVC) has become popular for measuring the strain distribution ins...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
AbstractNon-destructive 3D micro-computed tomography (microCT) based finite element (microFE) models...
A micromechanical characterization of biomaterials for bone tissue engineering is essential to under...