Fife, Gabriel P; O'Sullivan, David M; Pieter, Willy; Cook, David P; Kaminski, Thomas W
Effects of Olympic-style taekwondo kicks on an instrumented head-form and resultant injury measures Journal Article
In: British Journal of Sports Medicine, vol. 47, no. 18, pp. 1161–1165, 2013, ISBN: 0306-3674.
Abstract | Links | BibTeX | Tags: Anatomic, Brain Concussion -- Etiology, Brain Concussion -- Physiopathology, Equipment Design, Foot -- Physiology, human, Kinematics -- Physiology, Male, Martial Arts, Models, Motion, Movement -- Physiology, Sports Medicine -- Equipment and Supplies, Young Adult
@article{Fife2013b,
title = {Effects of Olympic-style taekwondo kicks on an instrumented head-form and resultant injury measures},
author = {Fife, Gabriel P and O'Sullivan, David M and Pieter, Willy and Cook, David P and Kaminski, Thomas W},
doi = {10.1136/bjsports-2012-090979},
isbn = {0306-3674},
year = {2013},
date = {2013-01-01},
journal = {British Journal of Sports Medicine},
volume = {47},
number = {18},
pages = {1161--1165},
publisher = {BMJ Publishing Group},
abstract = {OBJECTIVE: The objective of this study was to assess the effect of taekwondo kicks and peak foot velocity (FVEL) on resultant head linear acceleration (RLA), head injury criterion (HIC15) and head velocity (HVEL). METHODS: Each subject (n=12) randomly performed five repetitions of the turning kick (TK), clench axe kick (CA), front leg axe kick, jump back kick (JB) and jump spinning hook kick (JH) at the average standing head height for competitors in their weight division. A Hybrid II Crash Test Dummy head was fitted with a protective taekwondo helmet and instrumented with a triaxial accelerometer and fixed to a height-adjustable frame. Resultant head linear acceleration, HVEL, FVEL data were captured and processed using Qualysis Track Manager. RESULTS: The TK (130.11±51.67 g) produced a higher RLA than the CA (54.95±20.08 g, p\<0.001},
keywords = {Anatomic, Brain Concussion -- Etiology, Brain Concussion -- Physiopathology, Equipment Design, Foot -- Physiology, human, Kinematics -- Physiology, Male, Martial Arts, Models, Motion, Movement -- Physiology, Sports Medicine -- Equipment and Supplies, Young Adult},
pubstate = {published},
tppubtype = {article}
}
Fife, Gabriel P; O'Sullivan, David M; Pieter, Willy; Cook, David P; Kaminski, Thomas W
Effects of Olympic-style taekwondo kicks on an instrumented head-form and resultant injury measures Journal Article
In: British Journal of Sports Medicine, vol. 47, no. 18, pp. 1161–1165, 2013, ISBN: 0306-3674.
@article{Fife2013b,
title = {Effects of Olympic-style taekwondo kicks on an instrumented head-form and resultant injury measures},
author = {Fife, Gabriel P and O'Sullivan, David M and Pieter, Willy and Cook, David P and Kaminski, Thomas W},
doi = {10.1136/bjsports-2012-090979},
isbn = {0306-3674},
year = {2013},
date = {2013-01-01},
journal = {British Journal of Sports Medicine},
volume = {47},
number = {18},
pages = {1161--1165},
publisher = {BMJ Publishing Group},
abstract = {OBJECTIVE: The objective of this study was to assess the effect of taekwondo kicks and peak foot velocity (FVEL) on resultant head linear acceleration (RLA), head injury criterion (HIC15) and head velocity (HVEL). METHODS: Each subject (n=12) randomly performed five repetitions of the turning kick (TK), clench axe kick (CA), front leg axe kick, jump back kick (JB) and jump spinning hook kick (JH) at the average standing head height for competitors in their weight division. A Hybrid II Crash Test Dummy head was fitted with a protective taekwondo helmet and instrumented with a triaxial accelerometer and fixed to a height-adjustable frame. Resultant head linear acceleration, HVEL, FVEL data were captured and processed using Qualysis Track Manager. RESULTS: The TK (130.11±51.67 g) produced a higher RLA than the CA (54.95±20.08 g, p\<0.001},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Fife, Gabriel P; O'Sullivan, David M; Pieter, Willy; Cook, David P; Kaminski, Thomas W
Effects of Olympic-style taekwondo kicks on an instrumented head-form and resultant injury measures Journal Article
In: British Journal of Sports Medicine, vol. 47, no. 18, pp. 1161–1165, 2013, ISBN: 0306-3674.
Abstract | Links | BibTeX | Tags: Anatomic, Brain Concussion -- Etiology, Brain Concussion -- Physiopathology, Equipment Design, Foot -- Physiology, human, Kinematics -- Physiology, Male, Martial Arts, Models, Motion, Movement -- Physiology, Sports Medicine -- Equipment and Supplies, Young Adult
@article{Fife2013b,
title = {Effects of Olympic-style taekwondo kicks on an instrumented head-form and resultant injury measures},
author = {Fife, Gabriel P and O'Sullivan, David M and Pieter, Willy and Cook, David P and Kaminski, Thomas W},
doi = {10.1136/bjsports-2012-090979},
isbn = {0306-3674},
year = {2013},
date = {2013-01-01},
journal = {British Journal of Sports Medicine},
volume = {47},
number = {18},
pages = {1161--1165},
publisher = {BMJ Publishing Group},
abstract = {OBJECTIVE: The objective of this study was to assess the effect of taekwondo kicks and peak foot velocity (FVEL) on resultant head linear acceleration (RLA), head injury criterion (HIC15) and head velocity (HVEL). METHODS: Each subject (n=12) randomly performed five repetitions of the turning kick (TK), clench axe kick (CA), front leg axe kick, jump back kick (JB) and jump spinning hook kick (JH) at the average standing head height for competitors in their weight division. A Hybrid II Crash Test Dummy head was fitted with a protective taekwondo helmet and instrumented with a triaxial accelerometer and fixed to a height-adjustable frame. Resultant head linear acceleration, HVEL, FVEL data were captured and processed using Qualysis Track Manager. RESULTS: The TK (130.11±51.67 g) produced a higher RLA than the CA (54.95±20.08 g, p\<0.001},
keywords = {Anatomic, Brain Concussion -- Etiology, Brain Concussion -- Physiopathology, Equipment Design, Foot -- Physiology, human, Kinematics -- Physiology, Male, Martial Arts, Models, Motion, Movement -- Physiology, Sports Medicine -- Equipment and Supplies, Young Adult},
pubstate = {published},
tppubtype = {article}
}