INTRODUCTIONUnderstanding the mechanism of osteoporotic femoral neck fractures is important for improving diagnosis and treatments of osteoporosis. Time-elapsed micro-CT imaging, step-wise loading and Digital Volume Correlation (DVC) can provide the volumetric deformation in small bone specimens [1] and vertebral bodies [2], but its application to the proximal human femur is challenging. This study aims at developing a protocol to measure volumetric strain distribution from synchrotron micro-CT images of the human proximal femur, while subjected to incremental loading up to fracture
Understanding the mechanical properties of human femora is of great importance for the development o...
none3siThe spine is the first site for incidence of bone metastasis. Thus, the vertebrae have a high...
Imaging the bone microstructure under progressively increasing loads allows for observing the micros...
Understanding the mechanism of osteoporotic femoral neck fractures is important for improving diagno...
none4siThe strain distribution in vertebral body has been measured in vitro in the elastic regime bu...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
Understanding bone mechanics at different hierarchical levels is fundamental to improve preclinical ...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Time-lapsed micro-computed-tomography (micro-CT) with concomitant mechanical testing is increasingly...
Micro-CT scanning of murine femurs before and after uniaxial compression produce 3-dimensional image...
Digital Volume Correlation (DVC) has become popular for measuring the strain distribution inside bon...
An improved understanding of the mechanical properties of human femurs is a milestone towards a more...
AbstractDigital Volume Correlation (DVC) has become popular for measuring the strain distribution in...
The complexity of bone tissue, its hierarchical multi-scale structure and the delicate mechanobiolog...
Time-elapsed micro-computed-tomography (μCT) imaging allows studying bone micromechanics. However, n...
Understanding the mechanical properties of human femora is of great importance for the development o...
none3siThe spine is the first site for incidence of bone metastasis. Thus, the vertebrae have a high...
Imaging the bone microstructure under progressively increasing loads allows for observing the micros...
Understanding the mechanism of osteoporotic femoral neck fractures is important for improving diagno...
none4siThe strain distribution in vertebral body has been measured in vitro in the elastic regime bu...
AbstractFull-field measurement of deformation in biological structures such as bones is a promising ...
Understanding bone mechanics at different hierarchical levels is fundamental to improve preclinical ...
Digital Volume Correlation (DVC) has emerged recently as an innovative approach to full volume (i.e....
Time-lapsed micro-computed-tomography (micro-CT) with concomitant mechanical testing is increasingly...
Micro-CT scanning of murine femurs before and after uniaxial compression produce 3-dimensional image...
Digital Volume Correlation (DVC) has become popular for measuring the strain distribution inside bon...
An improved understanding of the mechanical properties of human femurs is a milestone towards a more...
AbstractDigital Volume Correlation (DVC) has become popular for measuring the strain distribution in...
The complexity of bone tissue, its hierarchical multi-scale structure and the delicate mechanobiolog...
Time-elapsed micro-computed-tomography (μCT) imaging allows studying bone micromechanics. However, n...
Understanding the mechanical properties of human femora is of great importance for the development o...
none3siThe spine is the first site for incidence of bone metastasis. Thus, the vertebrae have a high...
Imaging the bone microstructure under progressively increasing loads allows for observing the micros...
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