Examination of the relationship between peak linear and angular accelerations to brain deformation metrics in hockey helmet impacts

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Post, Andrew¹; Oeur, Anna¹; Hoshizaki, Blaine¹; Gilchrist, Michael D.²

Examination of the relationship between peak linear and angular accelerations to brain deformation metrics in hockey helmet impacts

Comput Methods Biomech Biomed Eng. 2013;16(5):511-519

©2013 Taylor & Francis

Affiliations

¹School of Human Kinetics, University of Ottawa, 200 Lees Ave., room A106, Ottawa, Ontario; K1N 6N5 Canada

²School of Mechanical & Materials Engineering, University College Dublin Belfield, Dublin 4, Ireland
Abstract and keywords

Ice hockey is a contact sport which has a high incidence of brain injury. The current methods of evaluating protective devices use peak resultant linear acceleration as their pass/fail criteria, which are not fully representative of brain injuries as a whole. The purpose of this study was to examine how the linear and angular acceleration loading curves from a helmeted impact influence currently used brain deformation injury metrics. A helmeted Hybrid III headform was impacted in five centric and non-centric impact sites to elicit linear and angular acceleration responses. These responses were examined through the use of a brain model. The results indicated that when the helmet is examined using peak resultant linear acceleration alone, they are similar and protective, but when a 3D brain deformation response is used to examine the helmets, there are risks of brain injury with lower linear accelerations which would pass standard certifications for safety.

Keywords: neurotrauma; impact biomechanics; concussion; ice hockey
Links

DOI: 10.1080/10255842.2011.627559

PubMed: 22185521

WoS: 000319107700006
History

Received: 2011-06-27

Revised: 2011-09-24

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Cited By (7)

Year	Entry
2016	Post A, De Grau S, Ignacy T, Meehan A, Zemek R, Hoshizaki B, Gilchrist MD. Comparison of helmeted head impact in youth and adult ice hockey. In: Proceedings of the 2016 International IRCOBI Conference on the Biomechanics of Injury. September 14-16, 2016; Malaga, Spain.194-204.
2020	Jesunathadas M, Gould TE, Plaisted TA, Edwards ED, Piland SG. Describing headform pose and impact location for blunt impact testing. J Biomech. August 26, 2020;109:109923.
2022	Renyard N. Evaluating the Combined Effect of Thermoplastic Polyurethane Material in Ice Hockey Goaltender Helmets and Cervical Muscle Strength in Mitigating Concussion Risk During Simulated Horizontal Head Collisions [Master's thesis]. Thunder Bay, ON: Lakehead University; 2022.
2020	Elabd K. Biomechanical Analysis and Simulation of Backward Falls With Head Impact in Older Adults [Master's thesis]. Simon Fraser University; 2020.
2018	Adanty K. A Comparison Between Two Oblique Test Protocols for Cycling Helmets [Master's thesis]. University of Ottawa; 2018.
2022	Krbavac BP. Comparing Brain Trauma Profiles for U15 Ice Hockey Leagues With Standard and Modified Body Contact Rules [Master's thesis]. University of Ottawa; 2022.
2022	Lowther S. Effect of Rule Changes Occurring Between 2003 and 2016 on Head Impact Frequency and Brain Strain Magnitude in North American Professional Ice Hockey [Master's thesis]. University of Ottawa; 2022.