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Computer Methods in Biomechanics and Biomedical Engineering Volume 24, 2021 - Issue 1
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Research Article

Validation of a finite element model with six-year-old child anatomical characteristics as specified in Euro NCAP Pedestrian Human Model Certification (TB024)

Haiyan Lia International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaCorrespondence[email protected]
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Kun Lia International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaView further author information
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Yongqiang Huanga International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaView further author information
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Wenle Lva International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaView further author information
,
Shihai Cuia International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaView further author information
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Lijuan Hea International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaView further author information
,
Jesse Shijie Ruana International Research Association on Emerging Automotive Safety Technology, Tianjin, China;b College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin, ChinaView further author information
&
Chunxiang Wangc Medical Imaging Department, Tianjin Children's Hospital, Tianjin, ChinaView further author information
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Pages 76-90 | Received 26 Mar 2020, Accepted 12 Aug 2020, Published online: 02 Sep 2020

References

  • Arbogast KB, Balasubramanian S, Seacrist T, Maltese MR, García-España JF, Hopely T, Constans E, Lopez-Valdes FJ, Kent RW, Tanji H, et al. 2009. Comparison of kinematic responses of the head and spine for children and adults in low-speed frontal sled tests. Stapp Car Crash J. 53:329–372.
  • Cui S, Shan L, Li H, He L, Lv W, Ruan S. 2016. Development and Validation of a 6-year-old occupant thorax finite element model and impact injury analysis. Chin J Automotive Eng. 6(6):418–424.
  • Cui S, Chen Y, Li H, Cao D, Ruan S. 2015. Development and validation for the finite element model of child head. J Med Biomech. 30(5):452–457.
  • Euro NCAP. Euro NCAP Pedestrian Test Protocol v 8.4, 2018. https://www.euroncap.com/en/for-engineers/protocols/pedestrian-protection/.
  • Haut RC, Atkinson PJ. 1995. Insult to the human cadaver patellofemoral joint: Effects of age on fracture tolerance and occult injury. Proceeding of the 39th Stapp Car Crash Conference. 39(11):281–294.
  • Ito K, Tokuyama M, Miyazaki H, Hayashi S, Kitagawa Y, Yasuki T. 2017. Development of Child Finite Element (FE) Models and Vehicle-to-Pedestrian Collision Simulations. 25th International Technical Conference on the Enhanced Safety of Vehicles (ESV), Detroit Michigan, United State, 2017-6-5.
  • Jiang B, Cao L, Mao H, Wagner C, Marek S, Yang KH. 2014. Development of a 10-year-old pediatric thorax finite element model validated against cardiopulmonary resuscitation data. Comput Methods Biomech Biomed Eng. 17(11):1185–1197.
  • Kajzer J, Matsui Y, Ishikawa H, Matsui Y, Bosch U.1999. Shearing and bending effects at the knee joint at low-speed lateral loading. Detroit, Michigan, SAE 1999-010712, SP1432.
  • Kerrigan JR, Bhalla KS, Madeley NJ, Funk JR, Bose D, Crandall JR. 2003. Experiments for establishing pedestrian-impact lower limb injury criteria. SAE 2003 World Congress & Exhibition, Paper 2003-01-0895.
  • Klug C, Feist F, Raffler M, Sinz W, Ratingen MV. 2017. Development of a Procedure to Compare Kinematics of Human Body Models for Pedestrian Simulations. IRCOBI Conference.
  • Koizumi T, Tsujiuchi N, Uchida Y.2007. Development and Impact Analysis of 3-Year-Old Child FE Human Model, IMAC XXIII.
  • Li H, Cui Z, Cui S, Ruan S, He L. 2017a. Development and Validation of Pelvic Finite Element Model for a 6-year-old Child. Chin J Automotive Eng. 7(2):100–105.
  • Li H, Pan Y, Ruan S, Cui S, He L, Wang C. 2017b. Analysis of growth plate material property effect on knee injury of six-year-old child occupant. Yiyong Shengwu Lixue J Med Biomech. 32(3):213–219.
  • Liu XJ, Yang JK. 2002. Development of Child Pedestrian Mathematical Models and Evaluation with Accident Reconstruction. Traffic Inj Prev. 3(4):321–329.
  • Li B. 2014. Development of A 6-Year-Old Child Lower Limb Finite Element Model and analysis of Pedestrian Impact Responses. M.S [thesis]. Tianjin University of Science & Technology.
  • Li X. 2014. Finite element simulation and impact analysis of pedestrian head injury mechanisms for children. M.S [thesis]. Tianjin University of Science & Technology.
  • Luck JF, Nightingale RW, Song Y, Kait JR, Loyd AM, Myers BS, Bass CRD. 2013. Tensile failure properties of the perinatal, neonatal, and pediatric cadaveric cervical spine. Spine. 38(1):E1–E12.
  • Lv W, Ruan S, Li H, Cui S, He L, Wang C. 2016a. Development and validation of finite element model for 6-year-old pediatric neck. J Med Biomech. 31(2):95–101.
  • Lv W, Ruan S, Li H, Cui S, He L. 2015. Development and validation of a 6-year-old pedestrian thorax and abdomen finite element model and impact injury analysis. IJVS. 8(4):339–356.
  • Lv W, Ruan S, Li H, Cui S, He L, Wang C. 2016b. Injury Analysis of a Six-Year-Old Child Pedestrian Thorax in Lateral/Oblique Impact. 2016 Eighth International Conference on Measuring Technology and Mechatronics Automation (ICMTMA). IEEE Computer Society. p. 352–358.
  • Lv W, Ruan J, Li H, Cui S, He L, Ruan S. 2016c. Abdominal injury analysis of a 6-year-old pedestrian finite element model in lateral impact. IJVS. 9(1):85–100.
  • Meng Y, Pak W, Guleyupoglu B, Koya B, Gayzik FS, Untaroiu CD. 2017. A finite element model of a six-year-old child for simulating pedestrian accidents. Accid Anal Prev. 98:206–213.
  • Nahum AM. 1977. Intracranial Pressure Dynamics During Head Impact. Proc. of the, Stapp Car Crash Confproc of the, Stapp Car Crash Conf.
  • Okamoto M. 2003. Development of finite element model for child pedestrian protection. Paper presented at: Proceedings of the 18th International Conference on the Enhanced Safety of Vehicles (ESV).
  • Ouyang J, Zhu Q, Zhao W, Xu Y, Chen W, Zhong S. 2005. Biomechanical assessment of the pediatric cervical spine under bending and tensile loading. Spine. 30(24):E716–723.
  • Ouyang J, Zhao W, Xu Y, Chen W, Zhong S. 2006. Thoracic impact testing of pediatric cadaveric subjects. J Trauma. 61(6):1492–1500.
  • Ouyang J, Zhu Q, Zhao W, Xu Y, Zhong S. 2003. Experimental cadaveric study of lateral impact of the pelvis in children. Di 1 jun yi da xue xue bao Acad J First Med College PLA. 23(5):397.
  • Ouyang J, Zhu Q, Zhong S, Li Z, Liu C. 2015. Abdominal impact study on paediatric cadaveric subjects. IJVS. 8(4):287–298.
  • Prange MT, Luck JF, Dibb A, Van Ee CA, Nightingale RW, Myers BS. 2004. Mechanical properties and anthropometry of the human infant head. Stapp Car Crash J. 48:279–299.
  • Rezaei S, Bagheri Lankarani K, Karami Matin B, Bazyar M, Hamzeh B, Najafi F. 2015. Determinant of road traffic crash fatalities in Iran: a longitudinal econometric analysis. J Res Health Sci. 15(3):163–167.
  • Shan L. 2017. Thoracic and Abdominal Injury Analysis Based on Finite Element Model of a 6-Year-Old Pediatric Occupant. M.S [thesis]. Tianjin University of Science & Technology.
  • Shaw JM, Herriott RG, Mcfadden JD, Donnelly BR, Bolte JH. 2006. Oblique and lateral impact response of the PMHS thorax. Stapp Car Crash Journal. 50(1):19–24.
  • Shen M, Zhu F, Jiang B, Sanghavi V, Fan H, Cai Y, Wang Z, Kalra A, Jin X,Chou C, et al. 2015. Development and a Limited Validation of a Whole-Body Finite Element. Pedestrianand Occupant Models of a 10-Year-Old Child. IRCOBI Conference. 15–73.
  • Shen M, Mao H, Jiang B, Zhu F,Jin X, Dong L. 2016. Introduction of Two New Pediatric Finite Element Models for Pedestrian and Occupant Protections. Sae World Congress & Exhibition.
  • Traffic Safety Fact 2015. Motor Vehicle Traffic Crashes as a Leading Cause of Death in the United States.
  • Untaroiu C, Darvish K, Crandall J, Deng B, Wang J. 2005. A finite element model of the lower limb for simulating pedestrain impacts. Stapp. Car Crash Journal. 49(11):157–181.
  • Viano DC, Lau IV, Asbury C, King AI, Begeman P. 1989. Biomechanics of the human chest, abdomen, and pelvis in lateral impact. Accid Anal Prev. 21(6):553–574.
  • Wang HK. 1995. Development of a side impact finite element human thoracic model. Detroit: Wayne State University
  • Wood D, Simms C. 2000. Coefficient of friction in pedestrian throw. Impact.
  • World Health Organization 2015. Ten strategies for keeping children safe on the road.
  • World Health Organization 2018. Global status report on road safety. Geneva: World Health Organization.
  • Yamada H. 1970. Strength of biological materials. Baltimore: Williams & Wilkins.
  • Yao JF, Yang JK, Fredriksson R. 2006. Reconstruction of head-to-hood impact in an automobile-to-child-pedestrian collision. Int J Crashworthines. 11(4):387–3952.
  • Zhao JZ, Norwani G. 2007. Biomechanical analysis of hard tissue responses and injuries with finite element full human body model. ESV Conference. 9:07–0354.

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