Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse

Lacrosse, Canada’s national summer sport, is a sport anchored in first nations’ tradition. Its growing popularity in North America has not been reflected by a similar interest in the scientific literature more specifically on the biomechanics of the lumbar spine with its throwing motion. The aim of...

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Bibliographic Details
Main Author: Renaud, Susie
Format: Thesis
Language:English
Published: 2013
Subjects:
Biomechanics
Throwing
Lacrosse
Lumbar spine
First Nations
Online Access:http://hdl.handle.net/10393/30319
id ftcanadathes:oai:collectionscanada.gc.ca:OOU.#10393/30319
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spelling ftcanadathes:oai:collectionscanada.gc.ca:OOU.#10393/30319 2023-05-15T16:16:53+02:00 Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse Renaud, Susie 2013-12-13T15:51:26Z http://hdl.handle.net/10393/30319 en eng http://hdl.handle.net/10393/30319 Biomechanics Throwing Lacrosse Lumbar spine Thèse / Thesis 2013 ftcanadathes 2014-06-14T23:47:59Z Lacrosse, Canada’s national summer sport, is a sport anchored in first nations’ tradition. Its growing popularity in North America has not been reflected by a similar interest in the scientific literature more specifically on the biomechanics of the lumbar spine with its throwing motion. The aim of this study was to describe the motions, forces and muscle actions of the lumbar spine with the hybrid, overhand and sidearm throw. Twelve subjects were asked to throw at maximal speed while captured by a 3D motion analysis system. Flexion, extension and axial rotation angular velocities as well as positive and negative powers in the two planes were calculated. The first research question pertained to consistency in angular velocities and powers between trials of a given throwing technique. Subjects showed a fairly high variation on all variables but mostly with the angular velocities in extension and the peak positive power in flexion/extension which had high coefficient of variations (CVs). The contralateral rotation velocity and the positive rotation power had the lowest CVs. Overall the CVs for powers exceeded the angular velocities’. The second research question addressed if a difference in variables was present between the three throwing methods. A significant difference was observed in the peak negative power in flexion/extension and the peak positive power in rotation. The contralateral rotation angular velocity also showed a significant difference but the sphericity assumption failed. No other variable showed a significant difference but the observed power for those variables was also quite small. Due to the lack of power and the further need for controlling some unforeseen sources of error, this study can be used as a pilot study to further define and improve future studies in the field of lacrosse biomechanics. Thesis First Nations Theses Canada/Thèses Canada (Library and Archives Canada)
institution Open Polar
collection Theses Canada/Thèses Canada (Library and Archives Canada)
op_collection_id ftcanadathes
language English
topic Biomechanics
Throwing
Lacrosse
Lumbar spine
spellingShingle Biomechanics
Throwing
Lacrosse
Lumbar spine
Renaud, Susie
Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse
topic_facet Biomechanics
Throwing
Lacrosse
Lumbar spine
description Lacrosse, Canada’s national summer sport, is a sport anchored in first nations’ tradition. Its growing popularity in North America has not been reflected by a similar interest in the scientific literature more specifically on the biomechanics of the lumbar spine with its throwing motion. The aim of this study was to describe the motions, forces and muscle actions of the lumbar spine with the hybrid, overhand and sidearm throw. Twelve subjects were asked to throw at maximal speed while captured by a 3D motion analysis system. Flexion, extension and axial rotation angular velocities as well as positive and negative powers in the two planes were calculated. The first research question pertained to consistency in angular velocities and powers between trials of a given throwing technique. Subjects showed a fairly high variation on all variables but mostly with the angular velocities in extension and the peak positive power in flexion/extension which had high coefficient of variations (CVs). The contralateral rotation velocity and the positive rotation power had the lowest CVs. Overall the CVs for powers exceeded the angular velocities’. The second research question addressed if a difference in variables was present between the three throwing methods. A significant difference was observed in the peak negative power in flexion/extension and the peak positive power in rotation. The contralateral rotation angular velocity also showed a significant difference but the sphericity assumption failed. No other variable showed a significant difference but the observed power for those variables was also quite small. Due to the lack of power and the further need for controlling some unforeseen sources of error, this study can be used as a pilot study to further define and improve future studies in the field of lacrosse biomechanics.
format Thesis
author Renaud, Susie
author_facet Renaud, Susie
author_sort Renaud, Susie
title Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse
title_short Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse
title_full Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse
title_fullStr Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse
title_full_unstemmed Kinetics and Kinematics of the Overhand, Hybrid and Sidearm Shot of Lacrosse
title_sort kinetics and kinematics of the overhand, hybrid and sidearm shot of lacrosse
publishDate 2013
url http://hdl.handle.net/10393/30319
genre First Nations
genre_facet First Nations
op_relation http://hdl.handle.net/10393/30319
_version_ 1766002738685018112

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