Skeletal muscle bulges when it contracts. These three-dimensional (3D) dynamic shape changes play an important role in muscle performance by altering the range of fascicle velocities over which a muscle operates. However traditional muscle models are one-dimensional (1D) and cannot fully explain in vivo shape changes. In this study we compared medial gastrocnemius behaviour during human cycling (fascicle length changes and rotations) predicted by a traditional 1D Hill-type model and by models that incorporate two-dimensional (2D) and 3D geometric constraints to in vivo measurements from B-mode ultrasound during a range of mechanical conditions ranging from 14 to 44 N m and 80 to 140 r.p.m. We found that a 1D model predicted fascicle lengths...
Muscle architecture is an important aspect of muscle functioning. Hence, geometry and material prope...
An important assumption in 2D numerical models of skeletal muscle contraction involves deformation i...
The maximum force capacity of a muscle is dependent on the lengths and velocities of its contractile...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
When muscles contract, they bulge in thickness or in width to maintain a (nearly) constant volume. T...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...
The mechanisms by which skeletal muscles lengthen and shorten are potentially complex. When the rela...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
There are few comprehensive investigations of the changes in muscle architecture that accompany musc...
Background. Muscles not only shorten during contraction to perform mechanical work, but they also bu...
Hill-type models are ubiquitous in the field of biomechanics, providing estimates of a muscle's forc...
Ultrasound imaging has recently been used to distinguish the length changes of muscle fascicles from...
In vivo measurements of muscle architecture provide insight into inter-individual differences in mus...
Muscle fascicle architecture is an important parameter affecting the mechanical function of skeletal...
Muscle architecture is an important aspect of muscle functioning. Hence, geometry and material prope...
An important assumption in 2D numerical models of skeletal muscle contraction involves deformation i...
The maximum force capacity of a muscle is dependent on the lengths and velocities of its contractile...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
When muscles contract, they bulge in thickness or in width to maintain a (nearly) constant volume. T...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...
The mechanisms by which skeletal muscles lengthen and shorten are potentially complex. When the rela...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
There are few comprehensive investigations of the changes in muscle architecture that accompany musc...
Background. Muscles not only shorten during contraction to perform mechanical work, but they also bu...
Hill-type models are ubiquitous in the field of biomechanics, providing estimates of a muscle's forc...
Ultrasound imaging has recently been used to distinguish the length changes of muscle fascicles from...
In vivo measurements of muscle architecture provide insight into inter-individual differences in mus...
Muscle fascicle architecture is an important parameter affecting the mechanical function of skeletal...
Muscle architecture is an important aspect of muscle functioning. Hence, geometry and material prope...
An important assumption in 2D numerical models of skeletal muscle contraction involves deformation i...
The maximum force capacity of a muscle is dependent on the lengths and velocities of its contractile...