Research on thorax impact injury of children at different ages based on finite element models_Journal of Biomedical Engineering

Authors：

CUI Shihai ^1,2 , HAN Xu ¹ ,  LI Haiyan ^1,2 , LU Wenle ^1,2 , HE Lijuan ^1,2 , RUAN Shijie ^1,2

1. College of Mechanical Engineering, Tianjin University of Science and Technology, Tianjin 300222, P.R.China;
2. Tianjin Key Laboratory of Integrated Design and On-line Monitoring for Light Industry & Food Machinery and Equipment, Tianjin 300222, P.R.China;

Corresponding author：

LI Haiyan, Email: lihaiyan@tust.edu.cn

Keywords：

pediatric thorax and abdomen finite element model; mechanical properties of thorax organs; geometrical anatomical characteristics; impact simulation; thorax injury

DOI：

10.7507/1001-5515.201712041

Video：

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Abstract Full text Figures/Tables Video References Cited by

The pediatric cadaver impact experiments were reconstructed using the validated finite element(FE) models of the 3-year-old and 6-year-old children. The effect of parameters, such as hammer size, material parameters and thorax anatomical structure characteristics, on the impact mechanical responses of 3-year-old and 6-year-old pediatric thorax was discussed by designing reasonable finite element simulation experiments. The research results showed that the variation of thorax contact peak force for 3-year-old group was far larger than that of 6-year-old group when the child was impacted by hammers with different size, which meant that 3-year-old child was more sensitive to hammer size. The mechanical properties of thoracic organs had little influence on the thorax injury because of the small difference between 3-year-old and 6-year-old child in this research. During the impact, rib deformation led to different impact location and deformation of internal organs because the 3-year-old and 6-year-old children had different geometrical anatomical structures, such as different size of internal organs. Therefore, the injury of internal organs in the two groups was obviously different. It is of great significance to develop children finite element models with high biofidelity according to its real anatomical structures.

Citation： CUI Shihai, HAN Xu, LI Haiyan, LU Wenle, HE Lijuan, RUAN Shijie. Research on thorax impact injury of children at different ages based on finite element models. Journal of Biomedical Engineering, 2018, 35(5): 713-719. doi: 10.7507/1001-5515.201712041 Copy

1.	郭庆祥, 王楠, 董传林, 等. 正面碰撞中座椅对儿童伤害的影响研究. 公路与汽运, 2016, (1): 11-13.
2.	公安部交通管理局. 2013 中华人民共和国道路交通统计年报. 北京: 人民交通出版社, 2014.
3.	Kent R, Salzar R, Kerrigan J, et al. Pediatric thoracoabdominal biomechanics. Stapp Car Crash J, 2009, 53: 373-401.
4.	Sinha C K, Lander A. Trauma in children: abdomen and thorax. Surgery, 2013, 31(3): 123-129.
5.	Ouyang J, Zhao Weidong, Xu Yongqing, et al. Thoracic impact testing of pediatric cadaveric subjects. Journal of Trauma-Injury Infection and Critical Care, 2006, 61(6): 1492-1500.
6.	Mizuno K, Iwata K, Deguchi Takashi, et al. Development of a three-year-old child FE model. Traffic Inj Prev, 2005, 6(4): 361-371.
7.	蒋彬辉. 儿童胸部有限元模型开发及损伤机理研究. 长沙: 湖南大学, 2013.
8.	Lv Wenle, Ruan Shijie, Li Haiyan, et al. Development and validation of a 6-year-old pedestrian thorax and abdomen finite element model and impact injury analysis. International Journal of Vehicle Safety, 2015, 8(4): 339.
9.	崔世海, 单蕾蕾, 李海岩, 等. 6 岁儿童乘员胸部有限元模型验证及损伤分析. 汽车工程学报, 2016, 6(6): 418-424.
10.	崔世海, 单蕾蕾, 李海岩, 等. 肌肉生物仿真度对六岁儿童胸部碰撞生物力学响应的影响. 生物医学工程学杂志, 2017, 34(1): 41-47.
11.	Burdi A R, Huelke D F, Snyder R G, et al. Infants and children in the adult world of automobile safety design: pediatric and anatomical considerations for design of child restraints. Journal of Biomechanics, 1969, 2(3): 267-280.
12.	Franklyn M, Peiris S, Huber C, et al. Pediatric material properties: a review of human child and animal surrogates. Crit Rev Biomed Eng, 2007, 35(3/4): 197-342.
13.	Kent R, Lee S H, Darvish K, et al. Structural and material changes in the aging thorax and their role in crash protection for older occupants. Stapp Car Crash J, 2005, 49: 231-249.
14.	梁云飞. 三岁儿童乘员胸部有限元模型的构建及损伤分析. 天津: 天津科技大学, 2016.
15.	芦瑞瑞. 三岁儿童乘员腹部有限元模型的构建及损伤分析. 天津: 天津科技大学, 2015.
16.	Gayzik F S, Hoth J J, Duma S M, et al. Development of a finite element based injury metric for pulmonary contusion. Stapp Car Crash J, 2008, 49(49): 271-289.
17.	Yamada H. Strength of biological materials. Baltimore: Williams and Wilkins, 1970.

1. 郭庆祥, 王楠, 董传林, 等. 正面碰撞中座椅对儿童伤害的影响研究. 公路与汽运, 2016, (1): 11-13.
2. 公安部交通管理局. 2013 中华人民共和国道路交通统计年报. 北京: 人民交通出版社, 2014.
3. Kent R, Salzar R, Kerrigan J, et al. Pediatric thoracoabdominal biomechanics. Stapp Car Crash J, 2009, 53: 373-401.
4. Sinha C K, Lander A. Trauma in children: abdomen and thorax. Surgery, 2013, 31(3): 123-129.
5. Ouyang J, Zhao Weidong, Xu Yongqing, et al. Thoracic impact testing of pediatric cadaveric subjects. Journal of Trauma-Injury Infection and Critical Care, 2006, 61(6): 1492-1500.
6. Mizuno K, Iwata K, Deguchi Takashi, et al. Development of a three-year-old child FE model. Traffic Inj Prev, 2005, 6(4): 361-371.
7. 蒋彬辉. 儿童胸部有限元模型开发及损伤机理研究. 长沙: 湖南大学, 2013.
8. Lv Wenle, Ruan Shijie, Li Haiyan, et al. Development and validation of a 6-year-old pedestrian thorax and abdomen finite element model and impact injury analysis. International Journal of Vehicle Safety, 2015, 8(4): 339.
9. 崔世海, 单蕾蕾, 李海岩, 等. 6 岁儿童乘员胸部有限元模型验证及损伤分析. 汽车工程学报, 2016, 6(6): 418-424.
10. 崔世海, 单蕾蕾, 李海岩, 等. 肌肉生物仿真度对六岁儿童胸部碰撞生物力学响应的影响. 生物医学工程学杂志, 2017, 34(1): 41-47.
11. Burdi A R, Huelke D F, Snyder R G, et al. Infants and children in the adult world of automobile safety design: pediatric and anatomical considerations for design of child restraints. Journal of Biomechanics, 1969, 2(3): 267-280.
12. Franklyn M, Peiris S, Huber C, et al. Pediatric material properties: a review of human child and animal surrogates. Crit Rev Biomed Eng, 2007, 35(3/4): 197-342.
13. Kent R, Lee S H, Darvish K, et al. Structural and material changes in the aging thorax and their role in crash protection for older occupants. Stapp Car Crash J, 2005, 49: 231-249.
14. 梁云飞. 三岁儿童乘员胸部有限元模型的构建及损伤分析. 天津: 天津科技大学, 2016.
15. 芦瑞瑞. 三岁儿童乘员腹部有限元模型的构建及损伤分析. 天津: 天津科技大学, 2015.
16. Gayzik F S, Hoth J J, Duma S M, et al. Development of a finite element based injury metric for pulmonary contusion. Stapp Car Crash J, 2008, 49(49): 271-289.
17. Yamada H. Strength of biological materials. Baltimore: Williams and Wilkins, 1970.

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