Soft tissues exhibit a nonlinear, essentially incompressible (visco-) elastic response; a key issue is the active nature of muscle fibres, in other words their ability to contract and relax in response to biochemical signals. Here we present a continuum model able to describe an active elastic medium
AbstractElastic-electroactive (EA) media represent a wide range of materials and physical systems se...
We present a continuum model able to describe the mechanism of muscle contractions from a macroscop...
The well-established sliding filament and cross-bridge theory explain the major biophysical mechanis...
Soft tissues exhibit a nonlinear, essentially incompressible (visco-) elastic response; a key issue ...
Soft tissues exhibit a nonlinear, essentially incompressible (visco-) elastic response; a key issue ...
A key issue in the modeling of electroactive biological tissues is the active nature of muscle fibr...
Mathematical models are widely used in biomechanics to represent the contractile activity of living ...
The perfect ability of living tissues to control and adapt their mechanical properties to varying ex...
This paper presents a modelling framework in which the mechanochemical properties of smooth muscle c...
Elastic-electroactive (EA) media represent a wide range of materials and physical systems sensitive ...
Recent advances in engineered muscle tissue attached to a synthetic substrate motivates the developm...
This chapter provides a detailed summary of the background from the nonlinear theory of continuum me...
We present a continuum model able to describe the mechanism of muscle contractions from a macroscop...
AbstractWe develop a model of an incompressible material which microscopic structure is formed by fl...
6 pages, 5 figuresMuscle cells with sarcomeric structure exhibit highly nontrivial passive mechanica...
AbstractElastic-electroactive (EA) media represent a wide range of materials and physical systems se...
We present a continuum model able to describe the mechanism of muscle contractions from a macroscop...
The well-established sliding filament and cross-bridge theory explain the major biophysical mechanis...
Soft tissues exhibit a nonlinear, essentially incompressible (visco-) elastic response; a key issue ...
Soft tissues exhibit a nonlinear, essentially incompressible (visco-) elastic response; a key issue ...
A key issue in the modeling of electroactive biological tissues is the active nature of muscle fibr...
Mathematical models are widely used in biomechanics to represent the contractile activity of living ...
The perfect ability of living tissues to control and adapt their mechanical properties to varying ex...
This paper presents a modelling framework in which the mechanochemical properties of smooth muscle c...
Elastic-electroactive (EA) media represent a wide range of materials and physical systems sensitive ...
Recent advances in engineered muscle tissue attached to a synthetic substrate motivates the developm...
This chapter provides a detailed summary of the background from the nonlinear theory of continuum me...
We present a continuum model able to describe the mechanism of muscle contractions from a macroscop...
AbstractWe develop a model of an incompressible material which microscopic structure is formed by fl...
6 pages, 5 figuresMuscle cells with sarcomeric structure exhibit highly nontrivial passive mechanica...
AbstractElastic-electroactive (EA) media represent a wide range of materials and physical systems se...
We present a continuum model able to describe the mechanism of muscle contractions from a macroscop...
The well-established sliding filament and cross-bridge theory explain the major biophysical mechanis...
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