Through much of the anatomical and clinical literature bone is studied with a focus on its structural architecture, while it is rare for bone to be modelled using a structural mechanics as opposed to a continuum mechanics approach in the engineering literature. A novel mesoscale structural model of the femur is presented in which truss and shell elements are used to represent trabecular and cortical bone, respectively. Structural optimisation using a strain-based bone adaptation algorithm is incorporated within a musculoskeletal and finite element modelling framework to predict the structure of the femur subjected to two loading scenarios; a single load case corresponding to the frame of maximum hip joint contact force during walking and a ...
Bone possesses a complex hierarchical architecture with characteristic arrangement of material struc...
Multi-scale simulations, combining muscle and joint contact force (JCF) from musculoskeletal simulat...
Osteoporosis reduces bone mass and impairs the load-bearing capacity of the bone structure. This mic...
From the earliest records on skeletal research, there has never been a doubt about the interrelation...
Functional adaptation of the femur has been investigated in several studies by embedding bone remode...
This study presents the development of a number of finite element (FE) models of the pelvis using di...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
The internal architecture of the femur and its fracture behaviour vary greatly between subjects. Fem...
In this study, the changes in the bone density of human femur model as a result of differ-ent loadin...
Bone functional tissue adaptation is a multiaspect physiological process driven by interrelated mech...
Due to remodeling of bone architecture, an optimal structure is created that minimizes bone mass and...
Knowledge of the micromechanics of the human proximal femur is fundamental to improving clinical ass...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
Bone is a tissue with the remarkable capacity to adapt its structure to an optimized microstructural...
Bone possesses a complex hierarchical architecture with characteristic arrangement of material struc...
Multi-scale simulations, combining muscle and joint contact force (JCF) from musculoskeletal simulat...
Osteoporosis reduces bone mass and impairs the load-bearing capacity of the bone structure. This mic...
From the earliest records on skeletal research, there has never been a doubt about the interrelation...
Functional adaptation of the femur has been investigated in several studies by embedding bone remode...
This study presents the development of a number of finite element (FE) models of the pelvis using di...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
It is still unclear how bones manage to generate and adapt their complex trabecular structures, what...
The internal architecture of the femur and its fracture behaviour vary greatly between subjects. Fem...
In this study, the changes in the bone density of human femur model as a result of differ-ent loadin...
Bone functional tissue adaptation is a multiaspect physiological process driven by interrelated mech...
Due to remodeling of bone architecture, an optimal structure is created that minimizes bone mass and...
Knowledge of the micromechanics of the human proximal femur is fundamental to improving clinical ass...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
Bone is a tissue with the remarkable capacity to adapt its structure to an optimized microstructural...
Bone possesses a complex hierarchical architecture with characteristic arrangement of material struc...
Multi-scale simulations, combining muscle and joint contact force (JCF) from musculoskeletal simulat...
Osteoporosis reduces bone mass and impairs the load-bearing capacity of the bone structure. This mic...