Static deformation and volume changes in the human skull

wbldb

Thomas, L. M.¹; Sezgin, Y.¹; Hodgson, V. R.¹; Cheng, L. K.¹; Gurdjian, E. S.¹

Static deformation and volume changes in the human skull

Proceedings of the 12th Stapp Car Crash Conference

Affiliations

¹Wayne State University
Abstract

Three human male cadaver heads were statically loaded along anteroposterior, posterioanterior, side to side, and vertex to base lines of action, while simultaneously measuring skull deflections at four or five locations and intracranial volume changes. Volume changes due to loading along the long (A-P) axis were small and either increased or decreased, while loads transverse to the A-P axis decreased the volume. Transverse loads produced volume changes on the order of 10 times larger than those due to A-P forces. Two skulls loaded to fracture in the A-P direction, failed at 1150 and 2200 lb, respectively, into the right orbit. These magnitudes and linear fracture direction correspond to four fractures produced by impact to the frontal bone of intact cadavers in previous work.
Links

DOI: 10.4271/680782

SAE: 680782

Cited Works (5)

Year	Entry
1968	Hodgson VR. Head Impact Response of Several Mammals Including the Human Cadaver [PhD thesis]. Detroit, MI: Wayne State University; 1968.
1953	Gurdjian ES, Lissner HR, Latimer FR, Haddad BF, Webster JE. Quantitative determination of acceleration and intracranial pressure in experimental head injury: preliminary report. Neurology. 1953;3(6):417-423.
1958	Gross AG. A new theory on the dynamics of brain concussion and brain injury. J Neurosurg. September 1958;15(5):548-561.
1970	Gurdjian ES, Gonzales D, Hodgson VR, Thomas LM, Greenberg SW. Comparisons of research in inanimate and biologic material: artifacts and pitfalls. In: Gurdjian ES, Lange WA, Patrick LM, Thomas LM, eds. Impact Injury and Crash Protection. Springfield, IL: Charles C. Thomas; 1970:234-253.
1967	Hodgson VR. Tolerance of the facial bones to impact. Am J Anat. 1967;120(1):113-122.

Cited By (9)

Year	Entry
1986	Gibson TJ, Hinrichs RW, McLean AJ. Pedestrian head impacts: development and validation of a mathematical model. In: Proceedings of the 1986 International IRCOBI Conference on the Biomechanics of Impact. September 2-4, 1986; Zurich, Switzerland.165-176.
1969	Brinn J. Two anthropometric test forms: the frontal bone of the skull and a typical facial bone. In: Proceedings of the 13th Stapp Car Crash Conference. December 2-4, 1969; Boston, MA. Warrendale, PA: Society of Automotive Engineers:381-399. SAE 690816.
1974	Alem NM. Simulation of head injury due to combined rotation and translation of the brain. In: Proceedings of the 18th Stapp Car Crash Conference. December 4-5, 1974; Ann Arbor, MI. Warrendale, PA: Society of Automotive Engineers:579-598. SAE 741192.
2004	Prange MT, Luck JF, Dibb A, Van Ee CA, Nightingale RW, Myers BS. Mechanical properties and anthropometry of the human infant head. Stapp Car Crash J. 2004;48:279-299. SAE 2004-22-0013.
2011	Loyd AM. Studies of the Human Head from Neonate to Adult: An Inertial, Geometrical and Structural Analysis With Comparisons to the ATD Head [PhD thesis]. Duke University; 2011.
2010	Delye H. Better Bicycle Head Protection by Improving the Knowledge of the Biomechanics of Head Injuries [PhD thesis]. Leuven, Belgium: Katholieke Universiteit Leuven; March 2010.
2008	Fijalkowski RJ. Rotational Acceleration Pulse Characteristics Affect Mild Diffuse Brain Injury Severity [PhD thesis]. Marquette University; May 2008.
2001	Zhang L. Computational Biomechanics of Traumatic Brain Injury: An Investigation of Head Impact Response and American Football Head Injury [PhD thesis]. Detroit, MI: Wayne State University; May 2001.
2008	Raymond DE. Biomechanics of Blunt Ballistic Temporo-Parietal Head Impact [PhD thesis]. Detroit, MI: Wayne State University; August 2008.