Models of Rodent Cortical Traumatic Brain Injury





2.

Finfer SR, Cohen J (2001) Severe traumatic brain injury. Resuscitation 48: 77–90PubMed


3.

Thurman DJ, Alverson C, Dunn KA, Guerrero J, Sniezek JE (1999) Traumatic brain injury in the united states: A public health perspective. J Head Trauma Rehabil 14: 602–615PubMed


4.

Jacobs G, Aeron-Thomas A, Astrop A (2000) Transport Research Laboratory Report 445: Estimating global road fatalities. TRL Limited, Crowthorne, UK


5.

Hall ED, Gibson TR, Pavel KM (2005) Lack of a gender difference in post-traumatic neurodegeneration in the mouse controlled cortical impact injury model. J Neurotrauma 22: 669–679PubMed


6.

Graham DI, McIntosh TK, Maxwell WL, Nicoll JA (2000) Recent advances in neurotrauma. J Neuropathol Exp Neurol 59: 641–651PubMed


7.

Finnie JW, Blumbergs PC (2002) Traumatic brain injury. Vet Pathol 39: 679–689PubMed


8.

Smith DH, Meaney DF, Shull WH (2003) Diffuse axonal injury in head trauma. J Head Trauma Rehabil 18: 307–316PubMed


9.

Gaetz M (2004) The neurophysiology of brain injury. Clin Neurophysiol 115: 4–18PubMed


10.

Laurer HL, Meaney DF, Margulies SS, McIntosh TK (2002) Modeling brain injury/trauma. In: Ramachandran VS (ed) Encyclopedia of the human brain. Academic Press, San Diego


11.

Adams JH, Doyle D, Ford I, Gennarelli TA, Graham DI, McLellan DR (1989) Diffuse axonal injury in head injury: Definition, diagnosis and grading. Histopathology 15: 49–59PubMed


12.

Blumbergs PC (1997) Pathology. In: Reilly P, Bullock R (eds) Head injury: Pathophysiology and management of severe closed injury. Chapman & Hall Medical, London, pp 39–70


13.

Buki A, Povlishock JT (2006) All roads lead to disconnection?–traumatic axonal injury revisited. Acta Neurochir (Wien) 148: 181–193


14.

Povlishock JT, Erb DE, Astruc J (1992) Axonal response to traumatic brain injury: Reactive axonal change, deafferentation, and neuroplasticity. J Neurotrauma 9 Suppl 1: S189-200PubMed


15.

Pappius HM, Wolfe LS (1983) Functional disturbances in brain following injury: Search for underlying mechanisms. Neurochem Res 8: 63–72PubMed


16.

DeKosky ST, Styren SD, O’Malley ME, Goss JR, Kochanek P, Marion D, Evans CH, Robbins PD (1996) Interleukin-1 receptor antagonist suppresses neurotrophin response in injured rat brain. Ann Neurol 39: 123–127PubMed


17.

Napieralski JA, Banks RJ, Chesselet MF (1998) Motor and somatosensory deficits following uni- and bilateral lesions of the cortex induced by aspiration or thermocoagulation in the adult rat. Exp Neurol 154: 80–88PubMed


18.

Hoane MR, Irish SL, Marks BB, Barth TM (1998) Preoperative regimens of magnesium facilitate recovery of function and prevent subcortical atrophy following lesions of the rat sensorimotor cortex. Brain Res Bull 45: 45–51PubMed


19.

Dutcher SA, Underwood BD, Michael DB, Diaz FG, Walker PD (1998) Heat-shock protein 72 expression in excitotoxic versus penetrating injuries of the rodent cerebral cortex. J Neurotrauma 15: 421–432PubMed


20.

Morales DM, Marklund N, Lebold D, Thompson HJ, Pitkanen A, Maxwell WL, Longhi L, Laurer H, Maegele M, Neugebauer E, Graham DI, Stocchetti N, McIntosh TK (2005) Experimental models of traumatic brain injury: Do we really need to build a better mousetrap? Neuroscience 136: 971–989PubMed


21.

Fujimoto ST, Longhi L, Saatman KE, Conte V, Stocchetti N, McIntosh TK (2004) Motor and cognitive function evaluation following experimental traumatic brain injury. Neurosci Biobehav Rev 28: 365–378PubMed


22.

Lighthall JW (1988) Controlled cortical impact: A new experimental brain injury model. J Neurotrauma 5: 1–15PubMed


23.

Dixon CE, Clifton GL, Lighthall JW, Yaghmai AA, Hayes RL (1991) A controlled cortical impact model of traumatic brain injury in the rat. J Neurosci Methods 39: 253–262PubMed


24.

Smith DH, Soares HD, Pierce JS, Perlman KG, Saatman KE, Meaney DF, Dixon CE, McIntosh TK (1995) A model of parasagittal controlled cortical impact in the mouse: Cognitive and histopathologic effects. J Neurotrauma 12: 169–178PubMed


25.

Manley GT, Rosenthal G, Lam M, Morabito D, Yan D, Derugin N, Bollen A, Knudson MM, Panter SS (2006) Controlled cortical impact in swine: Pathophysiology and biomechanics. J Neurotrauma 23: 128–139PubMed


26.

Goodman JC, Cherian L, Bryan RM, Jr., Robertson CS (1994) Lateral cortical impact injury in rats: Pathologic effects of varying cortical compression and impact velocity. J Neurotrauma 11: 587–597PubMed


27.

Hall ED, Bryant YD, Cho W, Sullivan PG (2008) Evolution of post-traumatic neurodegeneration after controlled cortical impact traumatic brain injury in mice and rats as assessed by the de olmos silver and fluorojade staining methods. J Neurotrauma 25: 235–247PubMed


28.

Deng Y, Thompson BM, Gao X, Hall ED (2007) Temporal relationship of peroxynitrite-induced oxidative damage, calpain-­mediated cytoskeletal degradation and neurodegeneration after traumatic brain injury. Exp Neurol 205: 154–165PubMed


29.

Baskaya MK, Rao AM, Dogan A, Donaldson D, Dempsey RJ (1997) The biphasic opening of the blood-brain barrier in the cortex and hippocampus after traumatic brain injury in rats. Neurosci Lett 226: 33–36PubMed


30.

Cherian L, Goodman JC, Robertson CS (2000) Brain nitric oxide changes after controlled cortical impact injury in rats. J Neurophysiol 83: 2171–2178PubMed


31.

Shear DA, Tate MC, Archer DR, Hoffman SW, Hulce VD, Laplaca MC, Stein DG (2004) Neural progenitor cell transplants promote long-term functional recovery after traumatic brain injury. Brain Res 1026: 11–22PubMed


32.

Lindner MD, Plone MA, Cain CK, Frydel B, Francis JM, Emerich DF, Sutton RL (1998) Dissociable long-term cognitive deficits after frontal versus sensorimotor cortical contusions. J Neurotrauma 15: 199–216PubMed


33.

Brody DL, Mac Donald C, Kessens CC, Yuede C, Parsadanian M, Spinner M, Kim E, Schwetye KE, Holtzman DM, Bayly PV (2007) Electromagnetic controlled cortical impact device for precise, graded experimental traumatic brain injury. J Neurotrauma 24: 657–673PubMed


34.

Onyszchuk G, Al-Hafez B, He YY, Bilgen M, Berman NE, Brooks WM (2007) A mouse model of sensorimotor controlled cortical impact: Characterization using longitudinal magnetic resonance imaging, behavioral assessments and histology. J Neurosci Methods 160: 187–196PubMed


35.

Saatman KE, Feeko KJ, Pape RL, Raghupathi R (2006) Differential behavioral and histopathological responses to graded cortical impact injury in mice. J Neurotrauma 23: 1241–1253PubMed


36.

Yu S, Kaneko Y, Bae E, Stahl CE, Wang Y, van Loveren H, Sanberg PR, Borlongan CV (2009) Severity of controlled cortical impact traumatic brain injury in rats and mice dictates degree of behavioral deficits. Brain Res 1287: 157–163PubMed


37.

Fox GB, Fan L, LeVasseur RA, Faden AI (1998) Effect of traumatic brain injury on mouse spatial and nonspatial learning in the barnes circular maze. J Neurotrauma 15: 1037–1046PubMed


38.

Scheff SW, Baldwin SA, Brown RW, Kraemer PJ (1997) Morris water maze deficits in rats following traumatic brain injury: Lateral controlled cortical impact. J Neurotrauma 14: 615–627PubMed
< div class='tao-gold-member'>

Only gold members can continue reading. Log In or Register to continue

Stay updated, free articles. Join our Telegram channel

Jul 18, 2016 | Posted by in EXOTIC, WILD, ZOO | Comments Off on Models of Rodent Cortical Traumatic Brain Injury

Full access? Get Clinical Tree

Get Clinical Tree app for offline access