Human spine behaviour under thoracic and pelvic lateral impacts comparison with worldsid dummy behaviour

Compigne, Sabine; Bouquet, Robert; Caire, Yves; Quesnel, Thierry; Verriest, Jean-Pierre

Affiliations

¹INRETS - Institut National de Recherche sur les Transports et leur Sécurité - Bron, France

Abstract and keywords

Human spine behaviour under lateral impacts was studied through Post Mortem Human Subject (PMHS) experiments carried out within the European project SIBER (SIB, 2000) and previous tests conducted in a French PREDIT Program (BOUQUET, 1994). The aim of these experiments is to characterise the coupling between the upper and lower torso created by the lumbar spine. For this purpose, PMHSs were struck to the thorax and then to the pelvis at different velocities: 5 thoracic impacts were conducted at 4 m/s, 5 pelvic tests at 6.6 m/s. In addition, previous tests carried out in similar conditions were re-analysed (5 thoracic impacts at 3.3 m/s, 5 others at 5.5 m/s and 10 pelvic impacts at 6.6 m/s). Impactor force, subject accelerations at T1, T4, T8, T12 and sacrum were recorded, while 2D motion of the subject’s spine was filmed. Two WorldSID dummies (prototype and pre-production version) were submitted to the same type of impacts to assess their lumbar spine behaviour.

The dummy responses were evaluated against corridors defined from PMHS responses. The WorldSID dummy showed an improvement with respect to the current European regulatory dummy. Its lumbar spine allowed a more biofidelic coupling between its upper and lower torso which created a more human-like kinematics.

Keywords: Biomechanics; Cadavers; Crash test dummy; Lumbar spine; Side impact

Cited Works (3)

Year	Entry
1994	Bouquet R, Ramet M, Bermond F, Cesari D. Thoracic and pelvis human response to impact. In: Proceedings of the 14th International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 23-26, 1994; Munich, Germany.100-109.
1984	Mertz HJ. A procedure for normalizing impact response data. In: Proceedings of the SAE Government/industry Meeting & Exposition. May 21-24, 1984; Washington, DC. Warrendale, PA: Society of Automotive Engineers:1-8. SAE 840884.
1983	Schneider LW, Robbins DH, Pflüg MA, Snyder RG. Development of Anthropometrically Based Design Specifications for an Advanced Adult Anthropomorphic Dummy Family, Volume 1. Ann Arbor, MI: University of Michigan Traffic Research Institute (UMTRI); December 1983. UMTRI Publication UMTRI-83-53-1.

Cited By (5)

Year	Entry
2011	Sunnevång C, Subit D, Kindig M, Lessley D, Lamp J, Boström O, Kent R. Response of the worldwide side impact dummy (WorldSID) to localized constant-speed impacts. In: 55th Annual Proceedings, Association for the Advancement of Automotive Medicine (AAAM). October 3-5, 2011; Paris, France.231-241.
2024	Agnew AM, Baker GH, Marcallini A Jr, Bendig A, Moorhouse K, Rhule H, Bolte JH IV, Kang Y-S. Small female post-mortem human subject (PMHS) thoracic responses to simplified oblique and lateral loading. In: Proceedings of the 2024 International IRCOBI Conference on the Biomechanics of Injury. September 11-13, 2024; Stockholm, Sweden.274-291.
2009	Petitjean A, Trosseille X, Petit P, Irwin A, Hassan J, Praxl N. Injury risk curves for the worldSID 50th male dummy. Stapp Car Crash J. 2009;53:443-476. SAE 2009-22-0016.
2011	Yoganandan N, Humm JR, Pintar FA, Brasel K. Region-specific deflection responses of WorldSID and ES2-re devices in pure lateral and oblique side impacts. Stapp Car Crash J. 2011;55:351-378.
2008	von Merten K. Verringerung des Risikos von Thoraxverletzungen beim PKW-Seitenaufprall: FEM Simulationen mit dem Mensch-Modell HUMOS [PhD thesis]. Ludwig Maximilian University of Munich; 2008.