We sought to provide a more comprehensive understanding of how the individual leg muscles act synergistically to generate a ground force impulse and maximize the change in forward momentum of the body during accelerated sprinting. We combined musculoskeletal modelling with gait data to simulate the majority of the acceleration phase (19 foot contacts) of a maximal sprint over ground. Individual muscle contributions to the ground force impulse were found by evaluating each muscle's contribution to the vertical and fore-aft components of the ground force (termed “supporter” and “accelerator/brake,” respectively). The ankle plantarflexors played a major role in achieving maximal-effort accelerated sprinting. Soleus acted primarily as a support...
,Muscles actuate walking-by providing vertical support and forward progression of the mass center. T...
The purpose of this study was to analyze the load condition on hamstring muscles during stance and s...
The purpose of this study was to estimate the transfer of mechanical power from hip to knee, and fro...
The best results in a sprint running are based upon covering the distance in the shortest possible t...
We explored how humans adjust the stance phase mechanical function of their major lower-limb joints ...
Background: At the beginning of a sprint, the acceleration of the body center of mass (COM) is drive...
The aim of this study was to relate the contribution of lower limb joint moments and individual musc...
The compliant nature of distal limb muscle-tendon units is traditionally considered suboptimal in ex...
The purpose of this investigation was to understand how the athlete produces acceleration during the...
Purpose We combined a full-body musculoskeletal model with dynamic optimization theory to predict t...
Purpose: An understanding of hamstring mechanics during sprinting is important for elucidating why t...
Epub 2015 Jan 31The objective of this study was to characterize the mechanics of maximal running spr...
The purpose of this study was to investigate the torques around the hip, knee and ankle joints in sp...
,Muscles actuate walking-by providing vertical support and forward progression of the mass center. T...
The purpose of this study was to analyze the load condition on hamstring muscles during stance and s...
The purpose of this study was to estimate the transfer of mechanical power from hip to knee, and fro...
The best results in a sprint running are based upon covering the distance in the shortest possible t...
We explored how humans adjust the stance phase mechanical function of their major lower-limb joints ...
Background: At the beginning of a sprint, the acceleration of the body center of mass (COM) is drive...
The aim of this study was to relate the contribution of lower limb joint moments and individual musc...
The compliant nature of distal limb muscle-tendon units is traditionally considered suboptimal in ex...
The purpose of this investigation was to understand how the athlete produces acceleration during the...
Purpose We combined a full-body musculoskeletal model with dynamic optimization theory to predict t...
Purpose: An understanding of hamstring mechanics during sprinting is important for elucidating why t...
Epub 2015 Jan 31The objective of this study was to characterize the mechanics of maximal running spr...
The purpose of this study was to investigate the torques around the hip, knee and ankle joints in sp...
,Muscles actuate walking-by providing vertical support and forward progression of the mass center. T...
The purpose of this study was to analyze the load condition on hamstring muscles during stance and s...
The purpose of this study was to estimate the transfer of mechanical power from hip to knee, and fro...