Mesh Development of an Infant Finite Element Model for Predicting Skull Fracture and Intracranial Hemorrhage in Children from Low Height Falls

Traumatic brain injury is a leading cause of injury related deaths in the United States and children aged zero to four years are among the most likely to sustain such an injury. The most common cause is a fall; however, abuse is another common cause. Doctors are often required to determine if a child’s injuries were accidental or the results of abuse. To help clinicians make the differential diagnosis a finite element model of a human infant head can be used to simulate impacts from falls and identify scenarios likely to cause skull fracture or internal hemorrhaging. Producing an accurate finite element model of an infant’s head is difficult, and one of the challenges that must be overcome is the development of a stable and accurate mesh that conforms to the detailed geometry of the brain. A new meshing scheme was developed that produces geometrically accurate three-dimensional meshes of the several components present in a human head from computed tomography and magnetic resonance images. A convergence study was performed, and an appropriate mesh density that produced converged results was selected. Future work will develop an integrated finite element model of the infant head to run the simulations of low height falls for predicting head injury.

Year	Entry
1999	Willinger R, Kang H-S, Diaw B. Three-dimensional human head finite-element model validation against two experimental impacts. Ann Biomed Eng. May–June 1999;27(3):403-410.
2006	Boyd SK, Müller R. Smooth surface meshing for automated finite element model generation from 3D image data. J Biomech. 2006;39(7):1287-1295.
2007	Coats B, Margulies SS, Ji S. Parametric study of head impact in the infant. Stapp Car Crash J. 2007;51:1-15. SAE 2007-22-0001.
2006	Coats B, Margulies SS. Material properties of human infant skull and suture at high rates. J Neurotrauma. August 2006;23(8):1222-1232.
1995	DiMasi FP, Eppinger RH, Bandak FA. Computational analysis of head impact response under car crash loadings. In: Proceedings of the 39th Stapp Car Crash Conference. November 8-10, 1995; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:425-438. SAE 952718.
1980	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 Biomech. 1980;13(1):9-16.
2007	Coats B. Mechanics of Head Impact in Infants [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2007.
1977	Khalil TB, Hubbard RP. Parametric study of head response by finite element modeling. J Biomech. 1977;10(2):119-132.
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.
2008	Takhounts EG, Ridella SA, Hasija V, Tannous RE, Campbell JQ, Malone D, Danelson K, Stitzel J, Rowson S, Duma S. Investigation of traumatic brain injuries using the next generation of Simulated Injury Monitor (SIMon) finite element head model. Stapp Car Crash J. 2008;52:1-31. SAE 2008-22-0001.
1970	Galford JE, McElhaney JH. A viscoelastic study of scalp, brain, and dura. J Biomech. 1970;3(2):211-221.
1970	McElhaney JH, Fogle JL, Melvin JW, Haynes RR, Roberts VL, Alem NM. Mechanical properties of cranial bone. J Biomech. 1970;3(5):495-511.
2008	Roth S, Raul J-S, Willinger R. Biofidelic child head FE model to simulate real world trauma. Comput Methods Prog Biomed. June 2008;90(3):262-274.
2002	Prange MT, Margulies SS. Regional, directional, and age-dependent properties of the brain undergoing large deformation. J Biomech Eng. 2002;124(2):244-252.

Year

Entry

1999

Willinger R, Kang H-S, Diaw B. Three-dimensional human head finite-element model validation against two experimental impacts. Ann Biomed Eng. May–June 1999;27(3):403-410.

2006

Boyd SK, Müller R. Smooth surface meshing for automated finite element model generation from 3D image data. J Biomech. 2006;39(7):1287-1295.

2007

Coats B, Margulies SS, Ji S. Parametric study of head impact in the infant. Stapp Car Crash J. 2007;51:1-15. SAE 2007-22-0001.

2006

Coats B, Margulies SS. Material properties of human infant skull and suture at high rates. J Neurotrauma. August 2006;23(8):1222-1232.

1995

DiMasi FP, Eppinger RH, Bandak FA. Computational analysis of head impact response under car crash loadings. In: Proceedings of the 39th Stapp Car Crash Conference. November 8-10, 1995; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:425-438. SAE 952718.