Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised that when the muscle is lengthened slack is taken up progressively, first in some muscle fascicles, then in others. A new, quasi-three-dimensional ultrasound imaging method was used to test this hypothesis directly. Contrary to our prediction, the slack was taken up nearly simultaneously in muscle fascicles located throughout the gastrocnemius muscle. Dynamic three-dimensional reconstructions indicated that, over the range of lengths that was investigated, passive changes in the length of gastrocnemius muscle-tendon units are due to changes in the length of both muscle fascicles and tendinous structures, in approximately equal measure. Chang...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The...
Herbert RD, Bolsterlee B, Gandevia SC. Passive changes in muscle length. J Appl Physiol 126: 1445–14...
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...
There are few comprehensive investigations of the changes in muscle architecture that accompany musc...
INTRODUCTION Skeletal muscle is composed of structural units of decreasing size, with muscle fascicl...
Ultrasound imaging has recently been used to distinguish the length changes of muscle fascicles from...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
Key points: In reduced muscle preparations, the slack length and passive stiffness of muscle fibres ...
In vivo measurements of muscle architecture provide insight into inter-individual differences in mus...
Sarcomere length is a key physiological parameter that affects muscle force output; however, our und...
This study validates two-dimensional (2D) ultrasound measurements of muscle geometry of the human me...
Copyright © The Company of Biologists Ltd 2007This study provides the first in vivo measures of the ...
Skeletal muscle bulges when it contracts. These three-dimensional (3D) dynamic shape changes play an...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The...
Herbert RD, Bolsterlee B, Gandevia SC. Passive changes in muscle length. J Appl Physiol 126: 1445–14...
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...
There are few comprehensive investigations of the changes in muscle architecture that accompany musc...
INTRODUCTION Skeletal muscle is composed of structural units of decreasing size, with muscle fascicl...
Ultrasound imaging has recently been used to distinguish the length changes of muscle fascicles from...
Force generation is influenced by transverse shape changes of a muscle. Recent studies suggest that ...
Key points: In reduced muscle preparations, the slack length and passive stiffness of muscle fibres ...
In vivo measurements of muscle architecture provide insight into inter-individual differences in mus...
Sarcomere length is a key physiological parameter that affects muscle force output; however, our und...
This study validates two-dimensional (2D) ultrasound measurements of muscle geometry of the human me...
Copyright © The Company of Biologists Ltd 2007This study provides the first in vivo measures of the ...
Skeletal muscle bulges when it contracts. These three-dimensional (3D) dynamic shape changes play an...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The...
Herbert RD, Bolsterlee B, Gandevia SC. Passive changes in muscle length. J Appl Physiol 126: 1445–14...