In previous applications of the finite element method in modeling mechanical behavior of skeletal muscle, the passive and active properties of muscle tissue were lumped in one finite element. Although this approach yields increased understanding of effects of force transmission, it does not support an assessment of the interaction between the intracellular structures and extracellular matrix. In the present study, skeletal muscle is considered in two domains: (1) the intracellular domain and (2) extracellular matrix domain. The two domains are represented by two separate meshes that are linked elastically to account for the trans-sarcolemmal attachments of the muscle fibers' cytoskeleton and extracellular matrix. With this approach a finite...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In addition to providing a great advantage that geometrically highly complex structures can be model...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
A finite element muscle model to study the principles of intermuscular myofascial force transmission...
Skeletal muscle tissues are highly hierarchical materials with multifarious fibre bundles embedded i...
To describe the mechanical behaviour of biological tissues and transport processes in biological tis...
In this contribution we create three-dimensional (3D) finite element models from a series of histolo...
The forces that allow body movement can be divided into active (generated by sarcomeric contractile ...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
This dissertation describes the role of extracellular matrix (ECM) in the lateral transmission of fo...
A three-dimensional constitutive model for muscle and tendon tissues is developed. Muscle and tendon...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In addition to providing a great advantage that geometrically highly complex structures can be model...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
A finite element muscle model to study the principles of intermuscular myofascial force transmission...
Skeletal muscle tissues are highly hierarchical materials with multifarious fibre bundles embedded i...
To describe the mechanical behaviour of biological tissues and transport processes in biological tis...
In this contribution we create three-dimensional (3D) finite element models from a series of histolo...
The forces that allow body movement can be divided into active (generated by sarcomeric contractile ...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
This dissertation describes the role of extracellular matrix (ECM) in the lateral transmission of fo...
A three-dimensional constitutive model for muscle and tendon tissues is developed. Muscle and tendon...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...