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The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. Suh, S. W., J. W. Chen, M. Motamedi, B. Bell, K. Listiak, N. F. Pons, G. Danscher, and C. J. Frederickson. 2000. Evidence that synaptically-released zinc contributes to neuronal injury after traumatic brain injury. Brain Research 852(2):268–273. Takeda, A., H. Itoh, K. Yamada, H. Tamano, and N. Oku. 2008. Enhancement of hippocampal mossy fiber activity in zinc deficiency and its influence on behavior. Biometals 21(5):545–552. Tapiero, H., and K. D. Tew. 2003. Trace elements in human physiology and pathology: Zinc and metallothioneins. Biomedicine and Pharmacotherapy 57(9):399–411. Tassabehji, N. M., R. S. Corniola, A. Alshingiti, and C. W. Levenson. 2008. Zinc deficiency induces depression-like symptoms in adult rats. Physiology and Behavior 95(3):365–369. Yeiser, E. C., A. A. Lerant, R. M. Casto, and C. W. Levenson. 1999. Free zinc increases at the site of injury after cortical stab wounds in mature but not immature rat brain. Neuroscience Letters 277(2):75–78. Yeiser, E. C., J. W. Vanlandingham, and C. W. Levenson. 2002. Moderate zinc deficiency increases cell death after brain injury in the rat. Nutritional Neuroscience 5(5):345–352. Young, A. B., L. G. Ott, D. Beard, R. J. Dempsey, P. A. Tibbs, and C. J. McClain. 1988. The acute-phase response of the brain-injured patient. Journal of Neurosurgery 69(3):375–380. Young, B., L. Ott, E. Kasarskis, R. Rapp, K. Moles, R. J. Dempsey, P. A. Tibbs, R. Kryscio, and C. McClain. 1996. Zinc supplementation is associated with improved neurologic recovery rate and visceral protein levels of patients with severe closed head injury. Journal of Neurotrauma 13(1):25–34.
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