Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running

Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running

<strong>Background and Aims:</strong> More than 60 % of runners suffer from overuse injuries each year. Exercise and Running surfaces can prevent injuries and/or improve performance. The present study aims to investigate the effect of three types of running surfaces (Polyvinyl Chloride (...

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Main Authors: Mohamadbagher Mohamadpanah, Seyyed Esmaeil Hoseininejad, Fatemeh Salari Esker
Format: Article
Language:fas
Published: Shahid Beheshti University of Medical Sciences 2021-05-01
Series:Ṭibb-i Tavānbakhshī
Subjects:
sand
artificial turf
polyvinyl chloride
loading rate
free moment
Online Access:http://medrehab.sbmu.ac.ir/article_1101074_cb77c9457292e582924a91c012a9dd4d.pdf
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spelling doaj-7b4338f70f0d401c8115f73babb9e9012021-09-14T06:57:58ZfasShahid Beheshti University of Medical SciencesṬibb-i Tavānbakhshī2251-84012252-04142021-05-0110223424510.22037/jrm.2020.113485.23771101074Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of RunningMohamadbagher Mohamadpanah0Seyyed Esmaeil Hoseininejad1Fatemeh Salari Esker2Department of Sport Biomechanics and Motor Behavior, Faculty of Sport Sciences, University of Mazandaran, Mazandaran, Iran.Department of Sport Biomechanics and Motor Behavior, Faculty of Sport Sciences, University of Mazandaran, Mazandaran, Iran.Department of Sport Biomechanics and Motor Behavior, Faculty of Sport Sciences, University of Mazandaran, Mazandaran, Iran.<strong>Background and Aims:</strong> More than 60 % of runners suffer from overuse injuries each year. Exercise and Running surfaces can prevent injuries and/or improve performance. The present study aims to investigate the effect of three types of running surfaces (Polyvinyl Chloride (PVC), artificial turf, and sand) on the Ground Reaction Force (GRF) components in the stance phase of running.<br /><strong>Methods:</strong> Impact force, loading rate, and free moment of 15 men were recorded while running barefoot on three PVC, artificial turf, and sand surfaces at a speed of 3±0.2 m/s (Average of 5 correct attempts). Comparison between different conditions was performed using repeated measures ANOVA and Bonferroni’s Post-Hoc Test.<br /><strong>Results:</strong> The sand surface significantly reduced the impact force compared to the PVC and artificial turf. Both sand and artificial turf caused a significant reduction in the force loading rate compared to the PVC surface. The second peak of vertical GRF (propulsive force) increased at sand (P=0.001) and artificial turf (P=0.005) surfaces compared to the PVC surface. Moreover, the sand surface reduced adductor torque compared to the PVC (P<0.001) and artificial turf (P=0.003) surfaces, while the artificial turf reduced abductor torque compared to the PVC surface (P=0.011).<br /><strong>Conclusion:</strong> Sand is a safer surface for preventing running injuries due to eliminating impact force, reducing loading rate, and having high shock absorption. Training on a sand surface may improve performance on harder surfaces.http://medrehab.sbmu.ac.ir/article_1101074_cb77c9457292e582924a91c012a9dd4d.pdfsandartificial turfpolyvinyl chlorideloading ratefree moment
collection DOAJ
language fas
format Article
sources DOAJ
author Mohamadbagher Mohamadpanah
Seyyed Esmaeil Hoseininejad
Fatemeh Salari Esker
spellingShingle Mohamadbagher Mohamadpanah
Seyyed Esmaeil Hoseininejad
Fatemeh Salari Esker
Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running
Ṭibb-i Tavānbakhshī
sand
artificial turf
polyvinyl chloride
loading rate
free moment
author_facet Mohamadbagher Mohamadpanah
Seyyed Esmaeil Hoseininejad
Fatemeh Salari Esker
author_sort Mohamadbagher Mohamadpanah
title Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running
title_short Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running
title_full Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running
title_fullStr Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running
title_full_unstemmed Effect of Surface Type on Impact Force, Loading Rate, and Free Moment during Stance Phase of Running
title_sort effect of surface type on impact force, loading rate, and free moment during stance phase of running
publisher Shahid Beheshti University of Medical Sciences
series Ṭibb-i Tavānbakhshī
issn 2251-8401
2252-0414
publishDate 2021-05-01
description <strong>Background and Aims:</strong> More than 60 % of runners suffer from overuse injuries each year. Exercise and Running surfaces can prevent injuries and/or improve performance. The present study aims to investigate the effect of three types of running surfaces (Polyvinyl Chloride (PVC), artificial turf, and sand) on the Ground Reaction Force (GRF) components in the stance phase of running.<br /><strong>Methods:</strong> Impact force, loading rate, and free moment of 15 men were recorded while running barefoot on three PVC, artificial turf, and sand surfaces at a speed of 3±0.2 m/s (Average of 5 correct attempts). Comparison between different conditions was performed using repeated measures ANOVA and Bonferroni’s Post-Hoc Test.<br /><strong>Results:</strong> The sand surface significantly reduced the impact force compared to the PVC and artificial turf. Both sand and artificial turf caused a significant reduction in the force loading rate compared to the PVC surface. The second peak of vertical GRF (propulsive force) increased at sand (P=0.001) and artificial turf (P=0.005) surfaces compared to the PVC surface. Moreover, the sand surface reduced adductor torque compared to the PVC (P<0.001) and artificial turf (P=0.003) surfaces, while the artificial turf reduced abductor torque compared to the PVC surface (P=0.011).<br /><strong>Conclusion:</strong> Sand is a safer surface for preventing running injuries due to eliminating impact force, reducing loading rate, and having high shock absorption. Training on a sand surface may improve performance on harder surfaces.
topic sand
artificial turf
polyvinyl chloride
loading rate
free moment
url http://medrehab.sbmu.ac.ir/article_1101074_cb77c9457292e582924a91c012a9dd4d.pdf
work_keys_str_mv AT mohamadbaghermohamadpanah effectofsurfacetypeonimpactforceloadingrateandfreemomentduringstancephaseofrunning
AT seyyedesmaeilhoseininejad effectofsurfacetypeonimpactforceloadingrateandfreemomentduringstancephaseofrunning
AT fatemehsalariesker effectofsurfacetypeonimpactforceloadingrateandfreemomentduringstancephaseofrunning
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