When muscles contract, they bulge in thickness or in width to maintain a (nearly) constant volume. These dynamic shape changes are tightly linked to the internal constraints placed on individual muscle fibers and play a key functional role in modulating the mechanical performance of skeletal muscle by increasing its range of operating velocities. Yet to date we have a limited understanding of the nature and functional implications of in vivo dynamic muscle shape change under submaximal conditions. This study determined how the in vivo changes in medial gastrocnemius (MG) fascicle velocity, pennation angle, muscle thickness, and subsequent muscle gearing varied as a function of force and velocity. To do this, we obtained recordings of MG ten...
In the present study we investigated in vivo length changes in the fascicles and tendon of the human...
Muscles are required to perform or absorb mechanical work under different conditions. However the ab...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Skeletal muscle bulges when it contracts. These three-dimensional (3D) dynamic shape changes play an...
In skeletal muscle, interactions between contractile and connective tissue elements at multiple scal...
Humans walk and run over a wide range of speeds with remarkable efficiency. For steady locomotion, m...
Ultrasound imaging has recently been used to distinguish the length changes of muscle fascicles from...
Changes in muscle shape could play an important role during contraction allowing to circumvent some ...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
There are few comprehensive investigations of the changes in muscle architecture that accompany musc...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
The maximum force capacity of a muscle is dependent on the lengths and velocities of its contractile...
The maximum force-generating capacity of a muscle is dependent on the lengths and velocities of its ...
Humans naturally select a cadence that minimizes metabolic cost at a constant walking velocity. The ...
In the present study we investigated in vivo length changes in the fascicles and tendon of the human...
Muscles are required to perform or absorb mechanical work under different conditions. However the ab...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Skeletal muscle bulges when it contracts. These three-dimensional (3D) dynamic shape changes play an...
In skeletal muscle, interactions between contractile and connective tissue elements at multiple scal...
Humans walk and run over a wide range of speeds with remarkable efficiency. For steady locomotion, m...
Ultrasound imaging has recently been used to distinguish the length changes of muscle fascicles from...
Changes in muscle shape could play an important role during contraction allowing to circumvent some ...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
There are few comprehensive investigations of the changes in muscle architecture that accompany musc...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
The maximum force capacity of a muscle is dependent on the lengths and velocities of its contractile...
The maximum force-generating capacity of a muscle is dependent on the lengths and velocities of its ...
Humans naturally select a cadence that minimizes metabolic cost at a constant walking velocity. The ...
In the present study we investigated in vivo length changes in the fascicles and tendon of the human...
Muscles are required to perform or absorb mechanical work under different conditions. However the ab...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...