Journal article 830 views 331 downloads
Changes to horizontal force-velocity and impulse measures during sprint running acceleration with thigh and shank wearable resistance
Erin H. Feser,
Neil Bezodis 
,
Jono Neville,
Paul Macadam,
Aaron M. Uthoff,
Ryu Nagahara,
Farhan Tinwala,
Kenneth Clark,
John B. Cronin
,
Jono Neville,
Paul Macadam,
Aaron M. Uthoff,
Ryu Nagahara,
Farhan Tinwala,
Kenneth Clark,
John B. Cronin
Journal of Sports Sciences, Volume: 39, Issue: 13, Pages: 1519 - 1527
Swansea University Author:
Neil Bezodis
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DOI (Published version): 10.1080/02640414.2021.1882771
Abstract
This study determined the effects of two wearable resistance (WR) placements (i.e. thigh and shank) on horizontal force-velocity and impulse measures during sprint running acceleration. Eleven male athletes performed 50 m sprints either unloaded or with WR of 2% body mass attached to the thigh or sh...
| Published in: | Journal of Sports Sciences |
|---|---|
| ISSN: | 0264-0414 1466-447X |
| Published: |
Informa UK Limited
2021
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| Online Access: |
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa56141 |
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| Abstract: |
This study determined the effects of two wearable resistance (WR) placements (i.e. thigh and shank) on horizontal force-velocity and impulse measures during sprint running acceleration. Eleven male athletes performed 50 m sprints either unloaded or with WR of 2% body mass attached to the thigh or shank. In-ground force platforms were used to measure ground reaction forces and determine dependent variables of interest. The main findings were: 1) increases in sprint times and reductions in maximum velocity were trivial to small when using thigh WR (0.00–1.93%) and small to moderate with shank WR (1.56–3.33%); 2) athletes maintained or significantly increased horizontal force-velocity mechanical variables with WR (effect size = 0.32–1.23), except for theoretical maximal velocity with thigh WR, and peak power, theoretical maximal velocity and maximal ratio of force with shank WR; 3) greater increases to braking and vertical impulses were observed with shank WR (2.72–26.3% compared to unloaded) than with thigh WR (2.17–12.1% compared to unloaded) when considering the entire acceleration phase; and, 4) no clear trends were observed in many of the individual responses. These findings highlight the velocity-specific nature of this resistance training method and provide insight into what mechanical components are overloaded by lower-limb WR. |
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| Keywords: |
Limb loading, velocity, sport specificity, acceleration |
| College: |
Faculty of Science and Engineering |
| Issue: |
13 |
| Start Page: |
1519 |
| End Page: |
1527 |