The trunk is exploited for energy transfers of maximal instep soccer kick: A power flow study

The trunk is exploited for energy transfers of maximal instep soccer kick: A power flow study

The purpose of this study was to investigate the angular kinetic energy transfers and expenditure among the trunk (bisegmented), the pelvis and the kick limb during maximal soccer instep kicking, and to characterize kicking kinetics and kinematics. Eighteen adult male amateur soccer players (24.0 ± ...

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Veröffentlicht in:Journal of biomechanics 2021-05, Vol.121, p.110425-110425, Article 110425
Hauptverfasser: Carvalho, Diego da Silva, Ocarino, Juliana Melo, Cruz, Aline de Castro, Barsante, Leonardo Drumond, Teixeira, Breno Gonçalves, Resende, Renan Alves, Fonseca, Sérgio Teixeira, Souza, Thales Rezende
Format: Artikel
Sprache:eng
Schlagworte:
Ankle
Biomechanics
Contact angle
Data collection
Deceleration
Energy
Energy expenditure
Energy flow
Hip
Joints (anatomy)
Kinematics
Kinetic chain
Kinetic energy
Kinetics
Mechanical energy
Pelvis
Power flow
Segments
Soccer
Soccer kicking
Software
Thigh
Velocity
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container_end_page 110425
container_issue
container_start_page 110425
container_title Journal of biomechanics
container_volume 121
creator Carvalho, Diego da Silva
Ocarino, Juliana Melo
Cruz, Aline de Castro
Barsante, Leonardo Drumond
Teixeira, Breno Gonçalves
Resende, Renan Alves
Fonseca, Sérgio Teixeira
Souza, Thales Rezende
description The purpose of this study was to investigate the angular kinetic energy transfers and expenditure among the trunk (bisegmented), the pelvis and the kick limb during maximal soccer instep kicking, and to characterize kicking kinetics and kinematics. Eighteen adult male amateur soccer players (24.0 ± 4.1 years old) were assessed. Three-dimensional kinematics and ground reaction force were measured. A 6-degrees-of-freedom model was assumed, comprising the upper trunk, lower trunk, pelvis, thigh, shank and foot, and the thoraco-lumbar, lumbo-pelvic, hip, knee, and ankle joints. Angular kinematics and joint moments were computed. Power flow analysis was done by calculating the joint powers (to describe joint-to-segments energy transfers) and the proximal and distal segment powers (to describe segment-to-segment transfers). Power, kinematic and kinetic time series were presented to describe the energy flows’ directions. The total mechanical energy expenditure (TMEE) at each joint was also calculated. The TMEEs pointed to substantial energy expenditure at the trunk (27% of the summed work produced by the analyzed joints). In the initial phases of kicking, the trunk generates downward energy flows from the upper to the lower trunk and from the lower trunk to the pelvis, and then to the lower limb, sequentially, which favors angular motions for ball contact. There is a formation and release of a tension arc only at the hip joint, and deceleration of the segments slightly sooner than ball contact, differently from theoretical accounts. There are energy flows, hitherto unknown, among the trunk, pelvis and kick limb, revealing mechanical strategies of kicking.
doi_str_mv 10.1016/j.jbiomech.2021.110425
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Eighteen adult male amateur soccer players (24.0 ± 4.1 years old) were assessed. Three-dimensional kinematics and ground reaction force were measured. A 6-degrees-of-freedom model was assumed, comprising the upper trunk, lower trunk, pelvis, thigh, shank and foot, and the thoraco-lumbar, lumbo-pelvic, hip, knee, and ankle joints. Angular kinematics and joint moments were computed. Power flow analysis was done by calculating the joint powers (to describe joint-to-segments energy transfers) and the proximal and distal segment powers (to describe segment-to-segment transfers). Power, kinematic and kinetic time series were presented to describe the energy flows’ directions. The total mechanical energy expenditure (TMEE) at each joint was also calculated. The TMEEs pointed to substantial energy expenditure at the trunk (27% of the summed work produced by the analyzed joints). 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subjects Ankle
Biomechanics
Contact angle
Data collection
Deceleration
Energy
Energy expenditure
Energy flow
Hip
Joints (anatomy)
Kinematics
Kinetic chain
Kinetic energy
Kinetics
Mechanical energy
Pelvis
Power flow
Segments
Soccer
Soccer kicking
Software
Thigh
Velocity
title The trunk is exploited for energy transfers of maximal instep soccer kick: A power flow study
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