For a physiologically realistic range of joint motion and therefore range of muscle fiber lengths, only part of the force-length curve can be used in vivo; i.e., the section of the force-length curve that is expressed can vary. The purpose of this study was to determine the expressed section of the force-length relationship of the gastrocnemius for humans. Fourteen male and fourteen female subjects aged 18-27 performed maximal isometric plantar flexions in a Biodex dynamometer. Plantar flexion moments were recorded at five ankle angles:-15 degrees , 0 degrees , 15 degrees , 30 degrees , and 40 degrees , with negative angles defined as dorsiflexion. These measurements were repeated for four randomly ordered knee angles over two testing sessi...
Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The...
In the present experiment we obtained the tensile properties of the human gastrocnemius tendon, a hi...
The increase in passive torque during muscle stretching may constrain the range of motion of a joint...
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...
In this study, the force-length characteristics of the in vivo medial (GM) and lateral (GL) heads of...
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...
Human length-tension curves are traditionally constructed using a model that assumes passive tension...
INTRODUCTION: Synergistic muscle have different architecture, and therefore could have different for...
1. Human gastrocnemius medialis architecture was analysed in vivo, by ultrasonography, as a function...
Background: For understanding the relationship between skeletal muscle architecture and muscle funct...
In the present study, the in vivo force-length relations of the human soleus (SOL) and tibialis ante...
The aim of this study was to assess whether the in vivo specific force and architectural characteris...
In the present experiment we obtained the tensile properties of the human gastrocnemius tendon, a hi...
Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The...
In the present experiment we obtained the tensile properties of the human gastrocnemius tendon, a hi...
The increase in passive torque during muscle stretching may constrain the range of motion of a joint...
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...
In this study, the force-length characteristics of the in vivo medial (GM) and lateral (GL) heads of...
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...
Human length-tension curves are traditionally constructed using a model that assumes passive tension...
INTRODUCTION: Synergistic muscle have different architecture, and therefore could have different for...
1. Human gastrocnemius medialis architecture was analysed in vivo, by ultrasonography, as a function...
Background: For understanding the relationship between skeletal muscle architecture and muscle funct...
In the present study, the in vivo force-length relations of the human soleus (SOL) and tibialis ante...
The aim of this study was to assess whether the in vivo specific force and architectural characteris...
In the present experiment we obtained the tensile properties of the human gastrocnemius tendon, a hi...
Precise estimates of muscle architecture are necessary to understand and model muscle mechanics. The...
In the present experiment we obtained the tensile properties of the human gastrocnemius tendon, a hi...
The increase in passive torque during muscle stretching may constrain the range of motion of a joint...