Human length-tension curves are traditionally constructed using a model that assumes passive tension does not change during contraction (model A) even though the animal literature suggests that passive tension can decrease (model B). The study's aims were threefold: 1) measure differences in human medial gastrocnemius length-tension curves using model A vs. model B, 2) test the reliability of ultrasound constructed length-tension curves, and 3) test the robustness of fascicle length-generated length-tension curves to variations between the angle and fascicle length relationship. An isokinetic dynamometer manipulated and measured ankle angle while ultrasound was used to measure medial gastrocnemius fascicle length. Supramaximal tibial nerve ...
The mechanisms by which skeletal muscles lengthen and shorten are potentially complex. When the rela...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...
Human length-tension curves are traditionally constructed using a model that assumes passive tension...
For a physiologically realistic range of joint motion and therefore range of muscle fiber lengths, o...
INTRODUCTION: Synergistic muscle have different architecture, and therefore could have different for...
In this study, the force-length characteristics of the in vivo medial (GM) and lateral (GL) heads of...
Copyright © The Company of Biologists Ltd 2007This study provides the first in vivo measures of the ...
Hill-type models are ubiquitous in the field of biomechanics, providing estimates of a muscle's forc...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
For a physiologically realistic range of joint motion and therefore range of muscle fiber lengths, o...
The muscle fiber force-length relationship has been explained in terms of the cross-bridge theory at...
For a physiologically realistic joint range of motion and therefore range of muscle fiber lengths, o...
Introduction: The aim of this study was to compare, at a given level of electromyographic (EMG) acti...
International audienceAlthough muscle–tendon slack length is a crucial parameter used in muscle mode...
The mechanisms by which skeletal muscles lengthen and shorten are potentially complex. When the rela...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...
Human length-tension curves are traditionally constructed using a model that assumes passive tension...
For a physiologically realistic range of joint motion and therefore range of muscle fiber lengths, o...
INTRODUCTION: Synergistic muscle have different architecture, and therefore could have different for...
In this study, the force-length characteristics of the in vivo medial (GM) and lateral (GL) heads of...
Copyright © The Company of Biologists Ltd 2007This study provides the first in vivo measures of the ...
Hill-type models are ubiquitous in the field of biomechanics, providing estimates of a muscle's forc...
Skeletal muscle is the engine that produces force to power movement in humans and animals alike. To ...
For a physiologically realistic range of joint motion and therefore range of muscle fiber lengths, o...
The muscle fiber force-length relationship has been explained in terms of the cross-bridge theory at...
For a physiologically realistic joint range of motion and therefore range of muscle fiber lengths, o...
Introduction: The aim of this study was to compare, at a given level of electromyographic (EMG) acti...
International audienceAlthough muscle–tendon slack length is a crucial parameter used in muscle mode...
The mechanisms by which skeletal muscles lengthen and shorten are potentially complex. When the rela...
Skeletal muscle bulges when it contracts. These 3-dimensional (3D) dynamic shape changes play an imp...
Key points: The human gastrocnemius muscle is slack at its shortest lengths in vivo. We hypothesised...