This study presents the development of a number of finite element (FE) models of the pelvis using different continuum and structural modelling approaches. Four FE models were developed using different modelling approaches: continuum isotropic, continuum orthotropic, hybrid isotropic and hybrid orthotropic. The models were subjected to an iterative adaptation process based on the Mechanostat principle. Each model was adapted to a number of common daily living activities (walking, stair ascent, stair descent, sit-to-stand and stand-to-sit) by applying onto it joint and muscle loads derived using a musculoskeletal modelling framework. The resulting models, along with a structural model previously developed by the authors, were compared visuall...
The use of finite element analysis (FEA) to investigate the biomechanics of anatomical systems criti...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
The pelvis is a key part of the human musculoskeletal system and serious fracture can greatly incapa...
Functional adaptation of the femur has been investigated in several studies by embedding bone remode...
Due to both its shape and its structural architecture, the mechanics of the pelvic bone are complex....
Through much of the anatomical and clinical literature bone is studied with a focus on its structura...
The influence of mechanical loading upon bone growth and remodelling has been widely studied. It has...
Earlier experimental and finite element studies notwithstanding, the load transfer and stress distri...
Due to both its shape and its structural architecture, the mechanics of the pelvic bone are complex....
Abstract: Insufficiency fractures occur when physiological loads are applied to bone deficient in me...
The human femur shows a high capacity to withstand external stresses and it is due to the mass distr...
Faithful modeling of the femur accounting for bone distribution and material orthotropic behavior is...
The use of finite element analysis (FEA) to investigate the biomechanics of anatomical systems criti...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
The pelvis is a key part of the human musculoskeletal system and serious fracture can greatly incapa...
Functional adaptation of the femur has been investigated in several studies by embedding bone remode...
Due to both its shape and its structural architecture, the mechanics of the pelvic bone are complex....
Through much of the anatomical and clinical literature bone is studied with a focus on its structura...
The influence of mechanical loading upon bone growth and remodelling has been widely studied. It has...
Earlier experimental and finite element studies notwithstanding, the load transfer and stress distri...
Due to both its shape and its structural architecture, the mechanics of the pelvic bone are complex....
Abstract: Insufficiency fractures occur when physiological loads are applied to bone deficient in me...
The human femur shows a high capacity to withstand external stresses and it is due to the mass distr...
Faithful modeling of the femur accounting for bone distribution and material orthotropic behavior is...
The use of finite element analysis (FEA) to investigate the biomechanics of anatomical systems criti...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
The pelvis is a key part of the human musculoskeletal system and serious fracture can greatly incapa...