Does inside passing contribute to the high incidence of groin injuries in soccer?: A biomechanical analysis

Thomas Dupré; Johannes Funken; Ralf Müller; Kristian R. L. Mortensen; Filip Gertz Lysdal; Markus Braun; Hartmut Krahl; Wolfgang Potthast

doi:10.1080/02640414.2017.1423193

Does inside passing contribute to the high incidence of groin injuries in soccer? A biomechanical analysis

Thomas Dupré, Johannes Funken, Ralf Müller, Kristian R. L. Mortensen, Filip Gertz Lysdal, Markus Braun, Hartmut Krahl, Wolfgang Potthast

Research output: Contribution to journal › Journal article › Research › peer-review

16 Citations (Scopus)

Abstract

Groin injuries are common in soccer and often cause time-loss from training. While groin injuries have been linked to full effort kicking, the role of inside passing is unclear. Therefore, the purpose of this study was to investigate hip joint kinematics and muscle force, stress and contraction velocity for adductor longus and gracilis during inside passing. 3D kinematics of ten soccer players (23.4 yrs; 77.5 kg; 1.81 m) were captured with a motion capture system inside a Footbonaut. Muscle force and contraction velocity were determined with AnyBody Modelling System. Gracilis muscle forces were 9% lower compared to adductor longus (p = 0.005), but muscle stress was 183% higher in gracilis (p = 0.005). Contraction velocity reveals eccentric contraction of gracilis in the last quarter of the swing phase. Considering the combination of eccentric contraction, high muscle stress and the repetitive nature of inside passing, gracilis accumulates high loads in matches and training. These results indicate that the high incidence of groin injuries in soccer could be linked to isolated pass training. Practitioners need to be aware of the risk and refrain from sudden increases in the amount of pass training. This gives the musculoskeletal system time to adapt and might avoid career threatening injuries.

Original language	English
Journal	Journal of Sports Sciences
Volume	36
Issue number	16
Pages (from-to)	1827-1835
Number of pages	9
ISSN	0264-0414
DOIs	https://doi.org/10.1080/02640414.2017.1423193
Publication status	Published - Aug 2018

Keywords

Footbonaut
injury risk
muscle modelling
osteitis pubis
tendinopathy
Motor Skills/physiology
Cross-Sectional Studies
Groin/injuries
Hip Joint/physiology
Humans
Thigh
Soccer/injuries
Gracilis Muscle/physiology
Male
Incidence
Young Adult
Biomechanical Phenomena
Weight-Bearing/physiology
Time and Motion Studies
Muscle Contraction/physiology
Muscle, Skeletal/physiology

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10.1080/02640414.2017.1423193

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title = "Does inside passing contribute to the high incidence of groin injuries in soccer?: A biomechanical analysis",

abstract = "Groin injuries are common in soccer and often cause time-loss from training. While groin injuries have been linked to full effort kicking, the role of inside passing is unclear. Therefore, the purpose of this study was to investigate hip joint kinematics and muscle force, stress and contraction velocity for adductor longus and gracilis during inside passing. 3D kinematics of ten soccer players (23.4 yrs; 77.5 kg; 1.81 m) were captured with a motion capture system inside a Footbonaut. Muscle force and contraction velocity were determined with AnyBody Modelling System. Gracilis muscle forces were 9% lower compared to adductor longus (p = 0.005), but muscle stress was 183% higher in gracilis (p = 0.005). Contraction velocity reveals eccentric contraction of gracilis in the last quarter of the swing phase. Considering the combination of eccentric contraction, high muscle stress and the repetitive nature of inside passing, gracilis accumulates high loads in matches and training. These results indicate that the high incidence of groin injuries in soccer could be linked to isolated pass training. Practitioners need to be aware of the risk and refrain from sudden increases in the amount of pass training. This gives the musculoskeletal system time to adapt and might avoid career threatening injuries.",

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author = "Thomas Dupr{\'e} and Johannes Funken and Ralf M{\"u}ller and Mortensen, {Kristian R. L.} and Lysdal, {Filip Gertz} and Markus Braun and Hartmut Krahl and Wolfgang Potthast",

year = "2018",

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T2 - A biomechanical analysis

AU - Dupré, Thomas

AU - Funken, Johannes

AU - Müller, Ralf

AU - Mortensen, Kristian R. L.

AU - Lysdal, Filip Gertz

AU - Braun, Markus

AU - Krahl, Hartmut

AU - Potthast, Wolfgang

PY - 2018/8

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N2 - Groin injuries are common in soccer and often cause time-loss from training. While groin injuries have been linked to full effort kicking, the role of inside passing is unclear. Therefore, the purpose of this study was to investigate hip joint kinematics and muscle force, stress and contraction velocity for adductor longus and gracilis during inside passing. 3D kinematics of ten soccer players (23.4 yrs; 77.5 kg; 1.81 m) were captured with a motion capture system inside a Footbonaut. Muscle force and contraction velocity were determined with AnyBody Modelling System. Gracilis muscle forces were 9% lower compared to adductor longus (p = 0.005), but muscle stress was 183% higher in gracilis (p = 0.005). Contraction velocity reveals eccentric contraction of gracilis in the last quarter of the swing phase. Considering the combination of eccentric contraction, high muscle stress and the repetitive nature of inside passing, gracilis accumulates high loads in matches and training. These results indicate that the high incidence of groin injuries in soccer could be linked to isolated pass training. Practitioners need to be aware of the risk and refrain from sudden increases in the amount of pass training. This gives the musculoskeletal system time to adapt and might avoid career threatening injuries.

AB - Groin injuries are common in soccer and often cause time-loss from training. While groin injuries have been linked to full effort kicking, the role of inside passing is unclear. Therefore, the purpose of this study was to investigate hip joint kinematics and muscle force, stress and contraction velocity for adductor longus and gracilis during inside passing. 3D kinematics of ten soccer players (23.4 yrs; 77.5 kg; 1.81 m) were captured with a motion capture system inside a Footbonaut. Muscle force and contraction velocity were determined with AnyBody Modelling System. Gracilis muscle forces were 9% lower compared to adductor longus (p = 0.005), but muscle stress was 183% higher in gracilis (p = 0.005). Contraction velocity reveals eccentric contraction of gracilis in the last quarter of the swing phase. Considering the combination of eccentric contraction, high muscle stress and the repetitive nature of inside passing, gracilis accumulates high loads in matches and training. These results indicate that the high incidence of groin injuries in soccer could be linked to isolated pass training. Practitioners need to be aware of the risk and refrain from sudden increases in the amount of pass training. This gives the musculoskeletal system time to adapt and might avoid career threatening injuries.

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KW - Groin/injuries

KW - Hip Joint/physiology

KW - Humans

KW - Thigh

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KW - Gracilis Muscle/physiology

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KW - Incidence

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DO - 10.1080/02640414.2017.1423193

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SN - 0264-0414

VL - 36

SP - 1827

EP - 1835

JO - Journal of Sports Sciences

JF - Journal of Sports Sciences

IS - 16

ER -

Does inside passing contribute to the high incidence of groin injuries in soccer? A biomechanical analysis

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Groin Injuries in Soccer - A Biomechanical Perspective

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Does inside passing contribute to the high incidence of groin injuries in soccer? A biomechanical analysis

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Groin Injuries in Soccer - A Biomechanical Perspective

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