Positioning and bracing of the lower leg during emergency braking: a volunteer study

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Owen, C.¹; Roberts, A.¹; Manning, P.²; Lowne, R.¹

Positioning and bracing of the lower leg during emergency braking: a volunteer study

Proceedings of the 1998 International IRCOBI Conference on the Biomechanics of Impact

Affiliations

¹Transport Research Laboratory - UK

²University of Nottingham - UK
Abstract

Lower leg injuries in road traffic accidents are increasingly being recognised as an important cause of both serious and long term impairment. The mechanism of lower leg injury is considered to be significantly affected by the position of the foot, and the degree of muscular bracing of the.lower leg prior to an impact. To provide a quantifiable measure of bracing and of foot and ankle position during an emergency braking event, twenty four human volunteers each undertook a 30 minute driving task on the TRL driving simulator. During the simulation each volunteer was confronted with two different emergency events requiring sudden braking. The degree of dorsi flexion/plantar flexion of the driver’s right foot was measured by an electronic goniometer. Two hidden infra-red video cameras recorded the position of the driver’s feet throughout the drive. The brake pedal force was measured to allow the applied fore foot force to be calculated. The paper presents the measured values of applied brake pedal force and the orientation of the feet during the "impact" event, and draws conclusions about the implications for foot and ankle injury in crashes.

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Cited By (14)

Year	Entry
2001	Funk JR, Crandall JR, Tourret LJ, MacMahon CB, Bass CR, Khaewpong N, Eppinger RH. The effect of active muscle tension on the axial injury tolerance of the human foot/ankle complex. In: Proceedings of the 17th International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 4-7, 2001; Amsterdam, The Netherlands.
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2011	Iwamoto M, Nakahira Y, Sugiyama T. Investigation of pre-impact bracing effects for injury outcome using an active human FE model with 3D geometry of muscles. In: Proceedings of the 22nd International Technical Conference on the Enhanced Safety of Vehicles (ESV). June 13-16, 2011; Washington, DC.
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2016	Kim S, Lee I, Lee D, Cho YK, Kim HJ, Song L, Lim D. In vivo responses of human subjects under low‐velocity collision loadings. In: Proceedings of the 2016 International IRCOBI Asia Conference on the Biomechanics of Injury. May 16-18, 2016; Seoul, South Korea.92-93.
2002	Funk JR, Srinivasan SCM, Crandall JR, Khaewpong N, Eppinger RH, Jaffredo AS, Potier P, Petit PY. The effects of axial preload and dorsiflexion on the tolerance of the ankle/subtalar joint to dynamic inversion and eversion. Stapp Car Crash J. 2002;46:245-265. SAE 2002-22-0013.
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2002	Funk JR, Crandall JR, Tourret LJ, MacMahon CB, Bass CR, Patrie JT, Khaewpong N, Eppinger RH. The axial injury tolerance of the human foot/ankle complex and the effect of Achilles tension. J Biomech Eng. 2002;124(6):750-757.
2006	Behr M, Arnoux P-J, Serre T, Thollon L, Brunet C. Tonic finite element model of the lower limb. J Biomech Eng. April 2006;128(2):223-228.
2019	de Lange J. Biomechanical Tools for Assessing Foot and Ankle Injury Risk in Frontal Automotive Collisions [Master's thesis]. Hamilton, ON: McMaster University; 2019.
2000	Funk JR. The Effect of Active Muscle Tension on the Axial Impact Tolerance of the Human Foot/ankle Complex [PhD thesis]. Charlottesville, VA: University of Virginia; August 2000.
2008	Bose D. Numerical Estimation of Occupant State Parameters in a Dynamic Loading Environment [PhD thesis]. Charlottesville, VA: University of Virginia; August 2008.
2011	Shin J. Injury and Response of Human Ankle and Subtalar Joints Under Complex Loading [PhD thesis]. Charlottesville, VA: University of Virginia; December 2011.