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DeWitt, D S; Jenkins, L W; Prough, D S (1995) Enhanced vulnerability to secondary ischemic insults after experimental traumatic brain injury. New Horiz 3:376-83
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Povlishock, J T; Jenkins, L W (1995) Are the pathobiological changes evoked by traumatic brain injury immediate and irreversible? Brain Pathol 5:415-26
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Lyeth, B G; Jiang, J Y; Robinson, S E et al. (1993) Hypothermia blunts acetylcholine increase in CSF of traumatically brain injured rats. Mol Chem Neuropathol 18:247-56
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Phillips, L L; Belardo, E T (1992) Expression of c-fos in the hippocampus following mild and moderate fluid percussion brain injury. J Neurotrauma 9:323-33
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Jiang, J Y; Lyeth, B G; Kapasi, M Z et al. (1992) Moderate hypothermia reduces blood-brain barrier disruption following traumatic brain injury in the rat. Acta Neuropathol 84:495-500
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Hayes, R L; Jenkins, L W; Lyeth, B G (1992) Neurotransmitter-mediated mechanisms of traumatic brain injury: acetylcholine and excitatory amino acids. J Neurotrauma 9 Suppl 1:S173-87
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Delahunty, T M (1992) Mild traumatic brain injury enhances muscarinic receptor-linked inositol phosphate production in rat hippocampus. Brain Res 594:307-10
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Miller, L P; Lyeth, B G; Jenkins, L W et al. (1990) Excitatory amino acid receptor subtype binding following traumatic brain injury. Brain Res 526:103-7
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Jenkins, L W; Moszynski, K; Lyeth, B G et al. (1989) Increased vulnerability of the mildly traumatized rat brain to cerebral ischemia: the use of controlled secondary ischemia as a research tool to identify common or different mechanisms contributing to mechanical and ischemic brain injury. Brain Res 477:211-24
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Jenkins, L W; Lyeth, B G; Lewelt, W et al. (1988) Combined pretrauma scopolamine and phencyclidine attenuate posttraumatic increased sensitivity to delayed secondary ischemia. J Neurotrauma 5:275-87
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