In addition to providing a great advantage that geometrically highly complex structures can be modeled, the finite element method also allows addressing complex mechanics concepts such as nonlinear material properties and large deformations. These capabilities are highly valuable for studying skeletal muscle mechanics and were successfully implemented by several researchers. Certainly, those models made an important contribution to our understanding of fundamental muscle physiology. A common modeling consideration was that the myotendinous force transmission was regarded as the exclusive mechanism of exertion of muscle force. However, if muscular structures are considered to operate within the context of fascial integrity (the condition in ...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
This dissertation investigates force generation in muscle using a finite element (FE) approach to mo...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
Mammalian skeletal muscle is a very complicated biological structure to model due to its non-homogen...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
A finite element muscle model to study the principles of intermuscular myofascial force transmission...
The specific aim of this paper is to review the effects of epimuscular myofascial force transmission...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
The specific aim of this paper is to review the effects of epimuscular myofascial force transmission...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
Skeletal muscle tissues are highly hierarchical materials with multifarious fibre bundles embedded i...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
This dissertation investigates force generation in muscle using a finite element (FE) approach to mo...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Skeletal muscle tissue has a highly complex and heterogeneous structure comprising several physical ...
Mammalian skeletal muscle is a very complicated biological structure to model due to its non-homogen...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
A finite element muscle model to study the principles of intermuscular myofascial force transmission...
The specific aim of this paper is to review the effects of epimuscular myofascial force transmission...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
The specific aim of this paper is to review the effects of epimuscular myofascial force transmission...
Finite elements analysis (FEA) is now used routinely to interpret skeletal form in terms of function...
Skeletal muscle tissues are highly hierarchical materials with multifarious fibre bundles embedded i...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
International audienceThis paper presents a novel approach for simulating 3D muscle deformations wit...
Even though no direct physiologic evidence proving that myo-tendinous junctions at the end of myofib...
This dissertation investigates force generation in muscle using a finite element (FE) approach to mo...