**Chapter 9**

*Advancement and New Understanding in Brain Injury*

influence of anisotropy on brain injury prediction, Journal of Biomechanics,

[17] Wood Jack L., Dynamic response of bone, J. Biomechanics, Vol. 4. pp. I- 12.

Melvin J.W., Haynes R.R., Roberts V.L., and Alem, N.M. (1970). Mechanical properties of cranial bone. Journal of

[19] Koricho E.G., "Implementation of composite and plastics materials for vehicle light weight", PH. D. Thesis,

[20] Siegmund G.P., Jean-Sébastien Blouin J.S, Head and neck control varies with perturbation acceleration but not jerk: implications for whiplash injuries, J Physiol. Apr2009 ;587(Pt 8): 1829-1842.

[21] Rowson, S., Duma, S.M. Brain Injury Prediction: Assessing the Combined Probability of Concussion Using Linear and Rotational Head Acceleration. Ann Biomed Eng 41, 873-

[22] Grafman and A.M. Salazar, Editors: Handbook of Clinical Neurology, Vol. 127 (3rd series) Traumatic Brain Injury,

Computational Methods in Engineering,

Part I; © 2015 Elsevier B.V.

24(4), pp. 979-1031.

[23] Dixit, P., and Liu, G. R., 2016, "A Review on Recent Development of Finite Element Models for Head Injury Simulations," Archives of

[18] McElhaney J.H., Fogle J.L.,

Biomechanics 3:495-511.

2012, p 44-74.

882 (2013).

47(2014)1052-1059

1971

**152**
