editorial reviewedFinite element analysis (FEA) is a computational method used to predict the behaviour (stresses, strains, and deformation) of a structure under predefined loading conditions. It can be applied to biological structures such as bone to study defined biomechanical scenarios. However, as muscle is an extremely complex structure to model, biologists usually model muscle forces indirectly. In 2007, the Boneload MATLAB routine was developed to distribute muscle forces on a surface defined by the user. This routine needs to be coupled with a pre-existing FEA software (e.g., Strand7) to perform the analyses, and has been widely used ever since. Here, we demonstrate a new method to run muscle-driven finite element simulations on bon...
Osteoporosis is a serious and multifactorial disease. The number of people affected with osteoporosi...
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...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
Abstract- Biomechanics is the study of the structure and function of biological systems by means of ...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
Finite element analysis has been used extensively in the study of bone loading and implant performan...
By the means of finite element analysis (FEa), biomechanical behaviors of human mandible have been w...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...
Muscle is the fundamental “motor ” that drives all animal motion. We propose that changes in shape o...
Mammalian skeletal muscle is a very complicated biological structure to model due to its non-homogen...
Concurrent multiscale simulation strategies are required in computational biomechanics to study the ...
This thesis examines muscle function through the process of making computer ani-mation and developin...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
Osteoporosis is a serious and multifactorial disease. The number of people affected with osteoporosi...
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...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
Abstract- Biomechanics is the study of the structure and function of biological systems by means of ...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
The introduction of finite element analysis (FEA) into orthopaedic biomechanics allowed continuum st...
Finite element analysis has been used extensively in the study of bone loading and implant performan...
By the means of finite element analysis (FEa), biomechanical behaviors of human mandible have been w...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...
Muscle is the fundamental “motor ” that drives all animal motion. We propose that changes in shape o...
Mammalian skeletal muscle is a very complicated biological structure to model due to its non-homogen...
Concurrent multiscale simulation strategies are required in computational biomechanics to study the ...
This thesis examines muscle function through the process of making computer ani-mation and developin...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
Osteoporosis is a serious and multifactorial disease. The number of people affected with osteoporosi...
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...