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Referencias:

• Faul, M., Coronado, V., Epidemiology of traumatic brain injury (2015) Handb Clin Neurol, 127, pp. 3-13
• Silver, J.M., McAllister, T.W., Arciniegas, D.B., Depression and cognitive complaints following mild traumatic brain injury (2009) Am J Psych, 166 (6), pp. 653-661
• Montenigro, P.H., Corp, D.T., Stein, T.D., Cantu, R.C., Stern, R.A., Chronic traumatic encephalopathy: historical origins and current perspective (2015) Annu Rev Clin Psychol, 11, pp. 309-330
• Daneshvar, D.H., Goldstein, L.E., Kiernan, P.T., Stein, T.D., McKee, A.C., Post-traumatic neurodegeneration and chronic traumatic encephalopathy (2015) Mol Cell Neurosci, 66, pp. 81-90
• Omalu, B., Bailes, J., Hamilton, R.L., Kamboh, M.I., Hammers, J., Case, M., Fitzsimmons, R., Emerging histomorphologic phenotypes of chronic traumatic encephalopathy in American athletes (2011) Neurosurgery, 69 (1), pp. 173-183. , discussion 183
• Goldstein, L.E., Fisher, A.M., Tagge, C.A., Zhang, X.L., Velisek, L., Sullivan, J.A., Upreti, C., Wojnarowicz, M.W., Chronic traumatic encephalopathy in blast-exposed military veterans and a blast neurotrauma mouse model (2012) Sci Transl Med, 4 (134), p. 134ra60. , et al
• Creeley, C.E., Wozniak, D.F., Bayly, P.V., Olney, J.W., Lewis, L.M., Multiple episodes of mild traumatic brain injury result in impaired cognitive performance in mice (2004) Acad Emerg Med, 11 (8), pp. 809-819
• Longhi, L., Saatman, K.E., Fujimoto, S., Raghupathi, R., Meaney, D.F., Davis, J., McMillan, B.S.A., Stein, S., Temporal window of vulnerability to repetitive experimental concussive brain injury (2005) Neurosurgery, 56 (2), pp. 364-374. , discussion 364–74, et al
• Friess, S.H., Ichord, R.N., Ralston, J., Ryall, K., Helfaer, M.A., Smith, C., Margulies, S.S., Repeated traumatic brain injury affects composite cognitive function in piglets (2009) J Neurotrauma, 26 (7), pp. 1111-1121
• Shitaka, Y., Tran, H.T., Bennett, R.E., Sanchez, L., Levy, M.A., Dikranian, K., Brody, D.L., Repetitive closed-skull traumatic brain injury in mice causes persistent multifocal axonal injury and microglial reactivity (2011) J Neuropathol Exp Neurol, 70 (7), pp. 551-567
• Meehan, W.P., 3rd, Zhang, J., Mannix, R., Whalen, M.J., Increasing recovery time between injuries improves cognitive outcome after repetitive mild concussive brain injuries in mice (2012) Neurosurgery, 71 (4), pp. 885-891
• Elder, G.A., Dorr, N.P., De Gasperi, R., Gama Sosa, M.A., Shaughness, M.C., Maudlin-Jeronimo, E., Hall, A.A., Ahlers, S.T., Blast exposure induces post-traumatic stress disorder-related traits in a rat model of mild traumatic brain injury (2012) J Neurotrauma, 29 (16), pp. 2564-2575
• Mouzon, B.C., Bachmeier, C., Ferro, A., Ojo, J.O., Crynen, G., Acker, C.M., Davies, P., Crawford, F., Chronic neuropathological and neurobehavioral changes in a repetitive mild traumatic brain injury model (2014) Ann Neurol, 75 (2), pp. 241-254
• Petraglia, A.L., Plog, B.A., Dayawansa, S., Chen, M., Dashnaw, M.L., Czerniecka, K., Walker, C.T., Iliff, J.J., The spectrum of neurobehavioral sequelae after repetitive mild traumatic brain injury: a novel mouse model of chronic traumatic encephalopathy (2014) J Neurotrauma, 31 (13), pp. 1211-1224. , et al
• McAteer, K.M., Corrigan, F., Thornton, E., Turner, R.J., Vink, R., Short and long term behavioral and pathological changes in a Novel Rodent model of repetitive mild traumatic brain injury (2016) PLoS One, 11 (8)
• Brody, D.L., Benetatos, J., Bennett, R.E., Klemenhagen, K.C., Mac Donald, C.L., The pathophysiology of repetitive concussive traumatic brain injury in experimental models; new developments and open questions (2015) Mol Cell Neurosci, 66, pp. 91-98
• Weil, Z.M., Gaier, K.R., Karelina, K., Injury timing alters metabolic, inflammatory and functional outcomes following repeated mild traumatic brain injury (2014) Neurobiol Dis, 70, pp. 108-116
• Mouzon, B., Chaytow, H., Crynen, G., Bachmeier, C., Stewart, J., Mullan, M., Stewart, W., Crawford, F., Repetitive mild traumatic brain injury in a mouse model produces learning and memory deficits accompanied by histological changes (2012) J Neurotrauma, 29 (18), pp. 2761-2773
• Hylin, M.J., Orsi, S.A., Zhao, J., Bockhorst, K., Perez, A., Moore, A.N., Dash, P.K., Behavioral and histopathological alterations resulting from mild fluid percussion injury (2013) J Neurotrauma, 30 (9), pp. 702-715
• Malkesman, O., Tucker, L.B., Ozl, J., McCabe, J.T., Traumatic brain injury - modeling neuropsychiatric symptoms in rodents (2013) Front Neurol, 4, p. 157
• Pellow, S., Chopin, P., File, S.E., Briley, M., Validation of open: closedarm entries in an elevated plus-maze as a measure of anxiety in the rat (1985) J Neurosci Methods, 14 (3), pp. 149-167
• Salas, R., Main, A., Gangitano, D., De Biasi, M., Decreased withdrawal symptoms but normal tolerance to nicotine in mice null for the alpha7 nicotinic acetylcholine receptor subunit (2007) Neuropharmacology, 53 (7), pp. 863-869
• Welker, W., Free” versus” forced” exploration of a novel situation by rats (1957) Psychol Rep, 3 (g), pp. 95-108
• Salas, R., Main, A., Gangitano, D.A., Zimmerman, G., Ben-Ari, S., Soreq, H., De Biasi, M., Nicotine relieves anxiogenic-like behavior in mice that overexpress the read-through variant of acetylcholinesterase but not in wild-type mice (2008) Mol Pharmacol, 74 (6), pp. 1641-1648
• Morris, R., Developments of a water-maze procedure for studying spatial learning in the rat (1984) J Neurosci Methods, 11 (1), pp. 47-60
• Bailey, K.R., Crawley, J.N., Anxiety-related behaviors in mice (2009) Methods of behavior analysis in mice, 2. , Buccafusco J.J., (ed), Boca Raton, FL: CRC Press,. In:, editor
• Shultz, S.R., MacFabe, D.F., Foley, K.A., Taylor, R., Cain, D.P., Sub-concussive brain injury in the Long-Evans rat induces acute neuroinflammation in the absence of behavioral impairments (2012) Behav Brain Res, 229 (1), pp. 145-152
• Shultz, S.R., MacFabe, D.F., Foley, K.A., Taylor, R., Cain, D.P., A single mild fluid percussion injury induces short-term behavioral and neuropathological changes in the Long-Evans rat: support for an animal model of concussion (2011) Behav Brain Res, 224 (2), pp. 326-335
• Shultz, S.R., McDonald, S.J., Vonder Haar, C., Meconi, A., Vink, R., Van Donkelaar, P., Taneja, C., Christie, B.R., The potential for animal models to provide insight into mild traumatic brain injury: translational challenges and strategies (2016) Neurosci Biobehav Rev, , 76:396–414
• Shultz, S.R., Bao, F., Omana, V., Chiu, C., Brown, A., Cain, D.P., Repeated mild lateral fluid percussion brain injury in the rat causes cumulative long-term behavioral impairments, neuroinflammation, and cortical loss in an animal model of repeated concussion (2012) J Neurotrauma, 29 (2), pp. 281-294
• Webster, K.M., Wright, D.K., Sun, M., Semple, B.D., Ozturk, E., Stein, D.G., O’Brien, T.J., Shultz, S.R., Progesterone treatment reduces neuroinflammation, oxidative stress and brain damage and improves long-term outcomes in a rat model of repeated mild traumatic brain injury (2015) J Neuroinflammation, 12, p. 238
• Winston, C.N., Noel, A., Neustadtl, A., Parsadanian, M., Barton, D.J., Chellappa, D., Wilkins, T.E., Villapol, S., Dendritic spine loss and chronic white matter inflammation in a mouse model of highly repetitive head trauma (2016) Am J Pathol, 186 (3), pp. 552-567. , et al
• Strange, B.A., Witter, M.P., Lein, E.S., Moser, E.I., Functional organization of the hippocampal longitudinal axis (2014) Nat Rev Neurosci, 15 (10), pp. 655-669
• Aungst, S.L., Kabadi, S.V., Thompson, S.M., Stoica, B.A., Faden, A.I., Repeated mild traumatic brain injury causes chronic neuroinflammation, changes in hippocampal synaptic plasticity, and associated cognitive deficits (2014) J Cereb Blood Flow Metab, 34 (7), pp. 1223-1232
• McNamara, C.G., Tejero-Cantero, A., Trouche, S., Campo-Urriza, N., Dupret, D., Dopaminergic neurons promote hippocampal reactivation and spatial memory persistence (2014) Nat Neurosci, 17 (12), pp. 1658-1660
• Yang, K., Broussard, J.I., Levine, A.T., Jenson, D., Arenkiel, B.R., Dani, J.A., Dopamine receptor activity participates in hippocampal synaptic plasticity associated with novel object recognition (2016) Eur J Neurosci, , 45(1):138–146
• Broussard, J.I., Yang, K., Levine, A.T., Tsetsenis, T., Jenson, D., Cao, F., Garcia, I., De Biasi, M., Dopamine regulates aversive contextual learning and associated in vivo synaptic plasticity in the hippocampus (2016) Cell Rep, 14 (8), pp. 1930-1939. , et al
• Avale, M.E., Faure, P., Pons, S., Robledo, P., Deltheil, T., David, D.J., Gardier, A.M., Changeux, J.P., Interplay of beta2* nicotinic receptors and dopamine pathways in the control of spontaneous locomotion (2008) Proc Natl Acad Sci USA, 105 (41), pp. 15991-15996. , et al
• Small, K.M., Nunes, E., Hughley, S., Addy, N.A., Ventral tegmental area muscarinic receptors modulate depression and anxiety-related behaviors in rats (2016) Neurosci Lett, 616, pp. 80-85
• Klemenhagen, K.C., O’Brien, S.P., Brody, D.L., Repetitive concussive traumatic brain injury interacts with post-injury foot shock stress to worsen social and depression-like behavior in mice (2013) PLoS One, 8 (9)
• Mac Donald, C.L., Johnson, A.M., Cooper, D., Nelson, E.C., Werner, N.J., Shimony, J.S., Snyder, A.Z., Fang, R., Detection of blast-related traumatic brain injury in U.S. military personnel (2011) N Engl J Med, 364 (22), pp. 2091-2100. , et al
• Cubon, V.A., Putukian, M., Boyer, C., Dettwiler, A., A diffusion tensor imaging study on the white matter skeleton in individuals with sports-related concussion (2011) J Neurotrauma, 28 (2), pp. 189-201
• Niogi, S.N., Mukherjee, P., Diffusion tensor imaging of mild traumatic brain injury (2010) J Head Trauma Rehabil, 25 (4), pp. 241-255
• Bennett, R.E., Mac Donald, C.L., Brody, D.L., Diffusion tensor imaging detects axonal injury in a mouse model of repetitive closed-skull traumatic brain injury (2012) Neurosci Lett, 513 (2), pp. 160-165

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