|
|
Abstract In this study, the software ANSYS ICEM CFD and HYPERMESH was used to develop a finite element (FE) model for 10 year old child head with detailed anatomical characteristics. The MADYMO models of crash dummies were used to simulate the dynamic responses of an injured child in a typical falling accident from three different heights, and the motion parameters of orientation and velocity of the child head at the moment of impact were calculated. These parameters were input into the 10 year old child head finite element model to simulate the head response during the fall impact and analyze the injuryrelated biomechanics parameters. Results showed that the location of maximum vonmises stress and maximum vonmises strain in the skull matched well with the impact site located on the right side of the occipital, but within their limits of tolerance. The intracranial pressure could accurately predict the injury level, while the vonmises stress could approximately recognize the traumatic location. The accident reconstruction results indicate that the constructed model has a good biofidelity and can be used for the further study of the child head injury mechanism.
|
|
|
|
|
|
[1]全球儿童安全网络(中国).儿童道路交通伤害状况[R/OL]. http://safekidschina.org. 2007-11-27/2013-4-22.
[2]张良,周继红,李国林,等. 2000-2006年重庆地区0~19岁人群道路交通伤害特点与趋势[J]. 创伤外科杂志, 2011, 13(3): 212-215
[3]蒋彬辉.儿童胸部损伤机理[D].长沙:湖南大学, 2013.
[4]Roth S, Vappou J, Raul JS, et al. Child head injury criteria investigation through numerical simulation of real world trauma[J]. Computer Methods and Programs in Biomedicine, 2009, 93(1): 32-45.
[5]Nahum AM, Smith R, Ward C. Intracranial pressure dynamics during head impact[C]//Proceedings of the 21st Stapp Car Crash Conference. Warrendale: SAE International Society of Automotive Engineers, 1977:339-366.
[6]阮世捷,李盼东,李海岩,等. 6岁儿童头部有限元模型的构建与验证[J].中国生物医学工程学报, 2012,31(4):502-506.
[7]曹立波,高海涛,冒浩杰. 三岁儿童头部有限元模型的建立及验证[J]. 汽车工程, 2013, 35(1): 56-59.
[8]Dekaban AS. Tables of cranial and orbital measurements, cranial volume, and derived indexes in males and females from 7 days to 20 years of age[J]. Annals of Neurology, 1977, 2(6): 485-491.
[9]Wittek A, Omori K. Parametric study of effects of brainskull boundary conditions and brain material properties on responses of simplified finite element brain model under angular acceleration impulse in sagittal plane[J]. JSME International Journal Series C, 2003, 46(4): 1388-1399.
[10]Motherway JA, Verschueren P, Van der Perre G, et al. The mechanical properties of cranial bone: the effect of loading rate and cranial sampling position[J]. Journal of Biomechanics, 2009, 42(13): 2129-2135.
[11]Davis MT, Loyd AM, Shen HH, et al. The mechanical and morphological properties of 6 yearold cranial bone[J]. Journal of Biomechanics, 2012,45(15):2493-2498.[12]Prange MT, Luck JF, Dibb A, et al. Mechanical properties and anthropometry of the human infant head[J]. Stapp Car Crash Journal, 2004, 48:279-299.
[13]Margulies SS, Thibault KL. Infant skull and suture properties: Measurements and implications for mechanisms of pediatric brain injury [J]. Journal of Biomechanical Engineering, 2000, 122(4): 364-371.
[14]Weber W. Biomechanical fragility of the infant skull[J]. Journal of Legal Medicine, 1985, 94(2): 87-94.
[15]McPherson GK, Kriewall TJ. The elastic modulus of fetal cranial bone: a first step towards an understanding of the biomechanics of fetal head molding[J]. Journal of Biomechanics, 1980, 13(1): 9-16.
[16]McElhaney JH, Fogle JL, Melvin JW, et al. Mechanical properties of cranial bone[J]. Journal of Biomechanics, 1970, 3(5): 495-511.
[17]Yang KH, Hu J, White NA, et al. Development of numerical models for injury biomechanics research: a review of 50 years of publications in the Stapp Car Crash Conference[J]. Stapp Car Crash Journal, 2006, 50: 429-490.
[18]Plunkett J. Fatal pediatric head injuries caused by shortdistance falls[J]. The American Journal of Forensic Medicine and Pathology, 2001, 22(1): 1-12.
[19]Yang JK. Review of injury biomechanics in carpedestrian collisions[J]. International Journal of Vehicle Safety, 2005, 1(1) : 100-117.
[20]Ward CC, Chan M, Nahum AM. Intracranial pressure—a brain injury criterion[C]// Proceeding of the 24th Stapp Car Crash Conferences. Troy: Society of Automotive Engineers, 1980:347-360.
[21]Miller RT, Margulies SS, Leoni M, et al. Finite element modeling approaches for predicting injury in an experimental model of severe diffuse axonal injury[J]. SAE Transactions, 1998, 107(6): 2798-2810.
[22]Kang HS, Willinger R, Diaw BM, et al. Validation of a 3D anatomic human head model and replication of head impact in motorcycle accident by finite element modeling[C]//Proceedings of Stapp Car Crash Conference. Florida: Society of Automotive Engineers SAE, 1997: 329-338.
[23]Aomura S, Fujiwara S, Ikoma T. Study on the influence of different interface conditions on the response of finite element human head models under occipital impact loading[J]. JSME International Journal Series C, 2003, 46(2): 583-593.
|
|
|
