Bone is a heterogeneous material and its mechanical properties vary within the body. Variations in the mechanical response of different bone samples taken from the body cannot be fully explained by only looking at local compositional information at the tissue level. Due to different states of the stress within bones, one might expect that mechanical properties change over the length of a bone; this has not been a matter of systematic research in previous studies. In this study, the distribution of the tissue elastic modulus along the bovine femur is investigated using three-point bending tests. Two bovine femora were split to seven and eight blocks from proximal to distal metaphysis, respectively and twenty beam shaped bone samples were ext...
During secondary fracture healing, various tissue types including new bone are formed. The local mec...
International audienceCortical bone properties are determined by tissue composition and structure at...
This study aimed to predict bone fracture risk during skeletal unloading through a subject-specific ...
Finite element models of bones can be created by deriving geometry from anx-ray CT scan. Material pr...
The elastic behaviour of trabecular bone is a function not only of bone volume and architecture, but...
The results obtained from the finite element analysis, apart from precise geometry, depend on the ap...
International audienceOsteoporotic hip fractures represent a major public health problem associated ...
The elastic modulus and hardness of several microstructure components of dry bovine vertebrae and ti...
Finite element (FE) models are a fast and cost-effective way to evaluate stress behavior in bone und...
International audienceThis work consists of the validation of a novel approach to estimate the local...
Cortical bone is a calcified connective tissue that comprises the rigid outer portion of bones. For ...
AbstractThe heterogeneous nature of bone material is responsible for locational variation in its mec...
Bone is a heterogeneous, hierarchical biocomposite material made of an organic matrix filled with a ...
In the present study, nano- and macro-scale characterisations on the mechanical properties of bovine...
In the present study, nano- and macro-scale characterisations on the mechanical properties of bovine...
During secondary fracture healing, various tissue types including new bone are formed. The local mec...
International audienceCortical bone properties are determined by tissue composition and structure at...
This study aimed to predict bone fracture risk during skeletal unloading through a subject-specific ...
Finite element models of bones can be created by deriving geometry from anx-ray CT scan. Material pr...
The elastic behaviour of trabecular bone is a function not only of bone volume and architecture, but...
The results obtained from the finite element analysis, apart from precise geometry, depend on the ap...
International audienceOsteoporotic hip fractures represent a major public health problem associated ...
The elastic modulus and hardness of several microstructure components of dry bovine vertebrae and ti...
Finite element (FE) models are a fast and cost-effective way to evaluate stress behavior in bone und...
International audienceThis work consists of the validation of a novel approach to estimate the local...
Cortical bone is a calcified connective tissue that comprises the rigid outer portion of bones. For ...
AbstractThe heterogeneous nature of bone material is responsible for locational variation in its mec...
Bone is a heterogeneous, hierarchical biocomposite material made of an organic matrix filled with a ...
In the present study, nano- and macro-scale characterisations on the mechanical properties of bovine...
In the present study, nano- and macro-scale characterisations on the mechanical properties of bovine...
During secondary fracture healing, various tissue types including new bone are formed. The local mec...
International audienceCortical bone properties are determined by tissue composition and structure at...
This study aimed to predict bone fracture risk during skeletal unloading through a subject-specific ...