Epub 2015 Jan 31The objective of this study was to characterize the mechanics of maximal running sprint acceleration in high-level athletes. Four elite (100-m best time 9.95-10.29 s) and five sub-elite (10.40-10.60 s) sprinters performed seven sprints in overground conditions. A single virtual 40-m sprint was reconstructed and kinetics parameters were calculated for each step using a force platform system and video analyses. Anteroposterior force (FY), power (PY), and the ratio of the horizontal force component to the resultant (total) force (RF, which reflects the orientation of the resultant ground reaction force for each support phase) were computed as a function of velocity (V). FY-V, RF-V, and PY-V relationships were well described by ...
The effect of variations in joint kinetics on sprint performance in individual athletes is not yet k...
Abstract Sprint mechanics and field 100-m perfor-mances were tested in 13 subjects including 9 non-s...
Sprinting is a fundamental activity in many team sports such as soccer, rugby, football, field hocke...
Epub 2015 Jan 31The objective of this study was to characterize the mechanics of maximal running spr...
The aim of this study was to explore the sprint mechanical and kinematic characteristics of sub-elit...
To obtain more in-depth insights in biomechanical factors determining performance during sprint runn...
As the effect of performance level on sprinting mechanics has not been fully studied, we examined me...
Sprint acceleration is a key feature in many sports performance. It is a direct determinant of perfo...
Sprint running and change of direction (COD) present similar mechanical demands, involving an accele...
This study aimed to show changes in step-to-step ground reaction forces around the first transition ...
Purpose The best sprint performances are usually reached between the ages of 20 and 30 yr; however, ...
In this review, we examine the literature in light of the mechanical principles that govern linear a...
Sprinting is a complex task that places a high neuromuscular demand on the performer and requires hi...
Epub ahead of printThis study aimed to compare the force (F)-velocity (v)-power (P)-time (t) relatio...
The effect of variations in joint kinetics on sprint performance in individual athletes is not yet k...
Abstract Sprint mechanics and field 100-m perfor-mances were tested in 13 subjects including 9 non-s...
Sprinting is a fundamental activity in many team sports such as soccer, rugby, football, field hocke...
Epub 2015 Jan 31The objective of this study was to characterize the mechanics of maximal running spr...
The aim of this study was to explore the sprint mechanical and kinematic characteristics of sub-elit...
To obtain more in-depth insights in biomechanical factors determining performance during sprint runn...
As the effect of performance level on sprinting mechanics has not been fully studied, we examined me...
Sprint acceleration is a key feature in many sports performance. It is a direct determinant of perfo...
Sprint running and change of direction (COD) present similar mechanical demands, involving an accele...
This study aimed to show changes in step-to-step ground reaction forces around the first transition ...
Purpose The best sprint performances are usually reached between the ages of 20 and 30 yr; however, ...
In this review, we examine the literature in light of the mechanical principles that govern linear a...
Sprinting is a complex task that places a high neuromuscular demand on the performer and requires hi...
Epub ahead of printThis study aimed to compare the force (F)-velocity (v)-power (P)-time (t) relatio...
The effect of variations in joint kinetics on sprint performance in individual athletes is not yet k...
Abstract Sprint mechanics and field 100-m perfor-mances were tested in 13 subjects including 9 non-s...
Sprinting is a fundamental activity in many team sports such as soccer, rugby, football, field hocke...