Vespa, P., M. Prins, E. Ronne-Engstrom, M. Caron, E. Shalmon, D. A. Hovda, N. A. Martin, and D. P. Becker. 1998. Increase in extracellular glutamate caused by reduced cerebral perfusion pressure and seizures after human traumatic brain injury: A microdialysis study. Journal of Neurosurgery 89(6):971-982.

Viano, D. C., A. Hamberger, H. Bolouri, and A. Saljo. 2012. Evaluation of three animal models for concussion and serious brain injury. Annals of Biomedical Engineering 40(1): 212-226.

Vink, R., P. G. Mullins, M. D. Temple, W. Bao, and A. I. Faden. 2001. Small shifts in craniotomy position in the lateral fluid percussion injury model are associated with differential lesion development. Journal of Neurotrauma 18(8):839-847.

Wada, K., K. Chatzipanteli, S. Kraydieh, R. Busto, and W. D. Dietrich. 1998. Inducible nitric oxide synthase expression after traumatic brain injury and neuroprotection with amino-guanidine treatment in rats. Neurosurgery 43(6):1427-1436.

Wall, W. J., and M. Shani. 2008. Are animal models as good as we think? Theriogenology 69(1):2-9.

Werner, C., and K. Engelhard. 2007. Pathophysiology of traumatic brain injury. British Journal of Anaesthesia 99(1):4-9.

Worley, G., J. M. Hoffman, S. S. Paine, S. L. Kalman, S. J. Claerhout, O. B. Boyko, R. S. Kandt, C. C. Santos, M. W. Hanson, and W. J. Oakes. 1995. 18-Flurodeoxyglucose positron emission tomography in children and adolescents with traumatic brain injury. Developmental Medicine and Child Neurology 37(3):213-220.

Xiong, Y., A. Mahmood, and M. Chopp. 2013. Animal models of traumatic brain injury. Nature Reviews Neuroscience 14(2):128-142.

Yakovlev, P. I., and A. R. Lecours. 1967. The myelogenetic cycles of regional maturation of the brain. In Regional Development of the Brain in Early Life, edited by A. Minkowski. Oxford: Blackwell Scientific. Pp. 3-70.

Yoshino, A., D. A. Hovda, T. Kawamata, Y. Katayama, and D. P. Becker. 1991. Dynamic changes in local cerebral glucose utilization following cerebral conclusion in rats: Evidence of a hyper- and subsequent hypometabolic state. Brain Research 561(1):106-119.

Yoshino, A., D. A. Hovda, T. Kawamata, Y. Katayama, and D. P. Becker. 1992. Hippocampal CA3 lesion prevents postconcussive metabolic dysfunction in CA1. Journal of Cerebral Blood Flow and Metabolism 12(6):996-1006.

Zemper, E. D. 2003. Two-year prospective study of relative risk of a second cerebral concussion. American Journal of Physical Medicine and Rehabilitation 82(9):653-659.

Zhou, C., S. A. Eucker, T. Durduran, G. Yu, J. Ralston, S. H. Friess, R. N. Ichord, S. S. Margulies, and A. G. Yodh. 2009. Diffuse optical monitoring of hemodynamic changes in piglet brain with closed head injury. Journal of Biomedical Optics 14(3):034015.

Zhu, Q., M. Prange, and S. Margulies. 2006. Predicting unconsciousness from a pediatric brain injury threshold. Developmental Neuroscience 28(4-5):388-395.

Zuckerman, S. L., Y. M. Lee, M. J. Odom, G. S. Solomon, J. A. Forbes, and A. K. Sills. 2012. Recovery from sports-related concussion: Days to return to neurocognitive baseline in adolescents versus young adults. Surgical Neurology International 3:130.

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