Functional adaptation of the femur has been investigated in several studies by embedding bone remodelling algorithms in finite element (FE) models, with simpli- fications often made to the representation of bone’s material symmetry and mechanical environment. An orthotropic strain-driven adaptation algorithm is proposed in order to predict the femur’s volumetric material property distribution and directionality of its internal structures within a continuum. The algorithm was applied to a FE model of the femur, with muscles, ligaments and joints included explicitly. Multiple load cases representing distinct frames of two activities of daily living (walking and stair climbing) were considered. It is hypothesised that low shear moduli occur in...
This study investigates the behaviour of bone when it is subjected to mechanical loading. This is im...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
AbstractPatient-specific simulations of bone remodelling could enable predicting how bone micro-stru...
<p>Orthotropic Finite Element Femur Model</p> <p> </p> <p>Open-source. Please reference the followin...
Through much of the anatomical and clinical literature bone is studied with a focus on its structura...
This study presents the development of a number of finite element (FE) models of the pelvis using di...
Topology optimization is presently used in most diverse scientific, technologic and industrial areas...
We compared equivalent stress and strain energy density (SED) to bone mineral density (BMD) in the f...
Recent developments in computational mechanics and of high speed digital computers have lead to the ...
This works aims to simulate bone formation under natural loading using evolutionary structural optim...
Due to remodeling of bone architecture, an optimal structure is created that minimizes bone mass and...
Background: There are several numerical investigations on bone remodelling after total hip arthropla...
A custom algorithm was developed to simulate adaptive boneremodeling. The process of adaptive bone r...
The study presented attempts to prove the concept that mechanical changes in the structure of a bone...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
This study investigates the behaviour of bone when it is subjected to mechanical loading. This is im...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
AbstractPatient-specific simulations of bone remodelling could enable predicting how bone micro-stru...
<p>Orthotropic Finite Element Femur Model</p> <p> </p> <p>Open-source. Please reference the followin...
Through much of the anatomical and clinical literature bone is studied with a focus on its structura...
This study presents the development of a number of finite element (FE) models of the pelvis using di...
Topology optimization is presently used in most diverse scientific, technologic and industrial areas...
We compared equivalent stress and strain energy density (SED) to bone mineral density (BMD) in the f...
Recent developments in computational mechanics and of high speed digital computers have lead to the ...
This works aims to simulate bone formation under natural loading using evolutionary structural optim...
Due to remodeling of bone architecture, an optimal structure is created that minimizes bone mass and...
Background: There are several numerical investigations on bone remodelling after total hip arthropla...
A custom algorithm was developed to simulate adaptive boneremodeling. The process of adaptive bone r...
The study presented attempts to prove the concept that mechanical changes in the structure of a bone...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
This study investigates the behaviour of bone when it is subjected to mechanical loading. This is im...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
AbstractPatient-specific simulations of bone remodelling could enable predicting how bone micro-stru...