An important assumption in 2D numerical models of skeletal muscle contraction involves deformation in the third dimension of the included muscle section. The present paper studies the often used plane strain description. Therefore, 3D muscle surface deformation is measured from marker displacements during isometric contractions at various muscle lengths. Longitudinal strains at superficial muscle fibers( - 14 +/- 2.6% at L-0, n = 57) and aponeurosis (0.8 +/- 0.9% at L-0) decrease with increasing muscle length. The same holds for transverse muscle surface strains in superficial muscle fibers and aponeurosis, which are comparable at intermediate muscle length, but differ at long and short muscle length. Because transverse strains during isome...
Numerical models of contracting muscle offer a powerful tool to study local mechanical load. For val...
Key points: In reduced muscle preparations, the slack length and passive stiffness of muscle fibres ...
The factors that drive variable aponeurosis behaviors in active versus passive muscle may alter the ...
An important assumption in 2D numerical models of skeletal muscle contraction involves deformation i...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
Background. Muscles not only shorten during contraction to perform mechanical work, but they also bu...
During contraction the energy of muscle tissue increases due to energy from the hydrolysis of ATP. T...
In this study we examined how the strain energies within a muscle are related to changes in longitud...
Of the plethora of work performed analyzing skeletal muscle tissue, relatively little has been done ...
The main objective of the study was to investigate skeletal muscle force production during isometric...
Muscle is a unique material that converts chemical energy into mechanical work. Additionally, skelet...
In this study, the deformation of different fibers of the rat m. plantaris during "isometric" contra...
© 2016 Elsevier Ltd The passive tensile properties of skeletal muscle play a key role in its physiol...
In this study, the deformation of different fibers of the rat m. plantaris during isometric contract...
Numerical models of contracting muscle offer a powerful tool to study local mechanical load. For val...
Key points: In reduced muscle preparations, the slack length and passive stiffness of muscle fibres ...
The factors that drive variable aponeurosis behaviors in active versus passive muscle may alter the ...
An important assumption in 2D numerical models of skeletal muscle contraction involves deformation i...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
Background. Muscles not only shorten during contraction to perform mechanical work, but they also bu...
During contraction the energy of muscle tissue increases due to energy from the hydrolysis of ATP. T...
In this study we examined how the strain energies within a muscle are related to changes in longitud...
Of the plethora of work performed analyzing skeletal muscle tissue, relatively little has been done ...
The main objective of the study was to investigate skeletal muscle force production during isometric...
Muscle is a unique material that converts chemical energy into mechanical work. Additionally, skelet...
In this study, the deformation of different fibers of the rat m. plantaris during "isometric" contra...
© 2016 Elsevier Ltd The passive tensile properties of skeletal muscle play a key role in its physiol...
In this study, the deformation of different fibers of the rat m. plantaris during isometric contract...
Numerical models of contracting muscle offer a powerful tool to study local mechanical load. For val...
Key points: In reduced muscle preparations, the slack length and passive stiffness of muscle fibres ...
The factors that drive variable aponeurosis behaviors in active versus passive muscle may alter the ...