Tendon elasticity is important for economical locomotion; however it is unknown whether tendon stiffness is appropriate to achieve an optimal efficiency in various muscles. Here we test the hypothesis that the Achilles tendon is of an appropriate stiffness to maximise medial gastrocnemius muscle efficiency during locomotion with different power requirements. To test this hypothesis we used a three element Hill muscle model to determine how muscle fascicles would be required to change length if the series elastic element stiffness is varied, whilst the limb kinematics and muscle properties are held constant. We applied a model of muscle energetics to these data to predict muscle efficiency for a range of stiffness values in both walking and ...
Compliant tendons act as energy stores, which benefit the energetics and power output of a muscle-te...
Tendinous structures often exhibit reduced stiffness following repeated loading via static muscular ...
The interaction between the muscle fascicle and tendon components of the human soleus (SO) muscle in...
Tendon elasticity is important for economical locomotion; however it is unknown whether tendon stiff...
Muscles generate force to resist gravitational and inertial forces and/or to undertake work, e.g. on...
© 2015 Dr. Adrian LaiDespite the common view that muscles and tendons are two separate entities of t...
The mechanical output of the muscle-tendon unit (MTU) is in part governed by the viscoelastic nature...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
Background: During the stance phase of running, the elasticity of the Achilles tendon enables the u...
The interaction between the Achilles tendon and the triceps surae muscles seems to be modulated diff...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
<div><p>Humans employ a high degree of redundancy in joint actuation, with different combinations of...
Muscles are required to perform or absorb mechanical work under different conditions. However the ab...
In the human lower limb, muscles and tendon tend to interact in an efficient manner during common mo...
Muscle power output and efficiency during cyclical contractions are influenced by the timing and dur...
Compliant tendons act as energy stores, which benefit the energetics and power output of a muscle-te...
Tendinous structures often exhibit reduced stiffness following repeated loading via static muscular ...
The interaction between the muscle fascicle and tendon components of the human soleus (SO) muscle in...
Tendon elasticity is important for economical locomotion; however it is unknown whether tendon stiff...
Muscles generate force to resist gravitational and inertial forces and/or to undertake work, e.g. on...
© 2015 Dr. Adrian LaiDespite the common view that muscles and tendons are two separate entities of t...
The mechanical output of the muscle-tendon unit (MTU) is in part governed by the viscoelastic nature...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
Background: During the stance phase of running, the elasticity of the Achilles tendon enables the u...
The interaction between the Achilles tendon and the triceps surae muscles seems to be modulated diff...
This article was supported by the German Research Foundation (DFG) and the Open Access Publication F...
<div><p>Humans employ a high degree of redundancy in joint actuation, with different combinations of...
Muscles are required to perform or absorb mechanical work under different conditions. However the ab...
In the human lower limb, muscles and tendon tend to interact in an efficient manner during common mo...
Muscle power output and efficiency during cyclical contractions are influenced by the timing and dur...
Compliant tendons act as energy stores, which benefit the energetics and power output of a muscle-te...
Tendinous structures often exhibit reduced stiffness following repeated loading via static muscular ...
The interaction between the muscle fascicle and tendon components of the human soleus (SO) muscle in...