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Somatosensory & Motor Research Volume 31, 2014 - Issue 3
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Research Article

Neuropathology in sensory, but not motor, brainstem nuclei of the rat whisker circuit after diffuse brain injury

Jahan D. MiremamiDepartment of Biology, College of Arts and Sciences, University of Kentucky College of Medicine Lexington, KYUSA;Spinal Cord & Brain Injury Research Center, University of Kentucky College of Medicine Lexington, KYUSA
,
Pooja M. TalaulikerSpinal Cord & Brain Injury Research Center, University of Kentucky College of Medicine Lexington, KYUSA;Department of Anatomy & Neurobiology, University of Kentucky College of Medicine Lexington, KYUSA
,
Jordan L. HarrisonDepartment of Child Health, University of Arizona College of Medicine—Phoenix Phoenix, AZUSA;BARROW Neurological Institute at Phoenix Children’s Hospital Phoenix, AZUSA;Interdisciplinary Graduate Program in Neuroscience, Arizona State University Tempe, AZUSA
&
Jonathan LifshitzDepartment of Child Health, University of Arizona College of Medicine—Phoenix Phoenix, AZUSA;BARROW Neurological Institute at Phoenix Children’s Hospital Phoenix, AZUSA;Interdisciplinary Graduate Program in Neuroscience, Arizona State University Tempe, AZUSA;Phoenix VA Healthcare System Phoenix, AZUSACorrespondence[email protected]
Pages 127-135 | Received 13 Nov 2013, Accepted 17 Feb 2014, Published online: 07 Apr 2014

References

  • Alwis DS, Yan EB, Morganti-Kossmann MC, Rajan R. 2012. Sensory cortex underpinnings of traumatic brain injury deficits. PLoS One 7(12):e52169
  • Baptiste DC, Austin JW, Zhao W, Nahirny A, Sugita S, Fehlings MG. 2009. Systemic polyethylene glycol promotes neurological recovery and tissue sparing in rats after cervical spinal cord injury. J Neuropathol Exp Neurol 68(6):661–676
  • Bendella H, Pavlov SP, Grosheva M, Irintchev A, Angelova SK, Merkel D, Sinis N, Kaidoglou K, Skouras E, Dunlop SA, et al. 2011. Non-invasive stimulation of the vibrissal pad improves recovery of whisking function after simultaneous lesion of the facial and infraorbital nerves in rats. Exp Brain Res 212(1):65–79
  • Cao T, Thomas TC, Ziebell JM, Pauly JR, Lifshitz J. 2012. Morphological and genetic activation of microglia after diffuse traumatic brain injury in the rat. Neuroscience 225:65–75
  • Cernak I, Vink R, Zapple DN, Cruz MI, Ahmed F, Chang T, Fricke ST, Faden AI. 2004. The pathobiology of moderate diffuse traumatic brain injury as identified using a new experimental model of injury in rats. Neurobiol Dis 17(1):29–43
  • Chen AJ, D’Esposito M. 2010. Traumatic brain injury: From bench to bedside [corrected] to society. Neuron 66(1):11–14
  • Chen S, Pickard JD, Harris NG. 2003. Time course of cellular pathology after controlled cortical impact injury. Exp Neurol 182(1):87–102
  • Dauer DJ, Huang Z, Ha GK, Kim J, Khosrowzadeh D, Petitto JM. 2011. Age and facial nerve axotomy-induced T cell trafficking: Relation to microglial and motor neuron status. Brain Behav Immun 25(1):77–82
  • de Olmos JS, Beltramino CA, de Olmos de Lorenzo S. 1994. Use of an amino-cupric-silver technique for the detection of early and semiacute neuronal degeneration caused by neurotoxicants, hypoxia, and physical trauma. Neurotoxicol Teratol 16(6):545–561
  • DeOlmos JS, Ingram WR. 1971. An improved cupric-silver method for impregnation of axonal and terminal degeneration. Brain Res 33(2):523–529
  • Dixon CE, Lyeth BG, Povlishock JT, Findling RL, Hamm RJ, Marmarou A, Young HF, Hayes RL. 1987. A fluid percussion model of experimental brain injury in the rat. J Neurosurg 67(1):110–119
  • Farkas O, Povlishock JT. 2007. Cellular and subcellular change evoked by diffuse traumatic brain injury: A complex web of change extending far beyond focal damage. Prog Brain Res 161:43–59
  • Gaetz M, Bernstein DM. 2001. The current status of electrophysiologic procedures for the assessment of mild traumatic brain injury. J Head Trauma Rehabil 16(4):386–405
  • Garman RH, Jenkins LW, Switzer RC III, Bauman RA, Tong LC, Swauger PV, Parks S, Ritzel DV, Dixon CE, Clark R, et al. 2011. Blast exposure in rats with body shielding is characterized by diffuse axonal injury. J Neurotrauma 28(6):947–959
  • Graham DI, Maxwell WL, Adams JH, Jennett B. 2005. Novel aspects of the neuropathology of the vegetative state after blunt head injury. Prog Brain Res 150:445–455
  • Greer JE, McGinn MJ, Povlishock JT. 2011. Diffuse traumatic axonal injury in the mouse induces atrophy, c-Jun activation, and axonal outgrowth in the axotomized neuronal population. J Neurosci 31(13):5089–5105
  • Hall KD, Lifshitz J. 2010. Diffuse traumatic brain injury initially attenuates and later expands activation of the rat somatosensory whisker circuit concomitant with neuroplastic responses. Brain Res 1323:161–173
  • Hattox AM, Priest CA, Keller A. 2002. Functional circuitry involved in the regulation of whisker movements. J Comp Neurol 442(3):266–276
  • Hinzman JM, Thomas TC, Burmeister JJ, Quintero JE, Huettl P, Pomerleau F, Gerhardt GA, Lifshitz J. 2010. Diffuse brain injury elevates tonic glutamate levels and potassium-evoked glutamate release in discrete brain regions at two days post-injury: An enzyme-based microelectrode array study. J Neurotrauma 27(5):889–899
  • Hosseini AH, Lifshitz J. 2009. Brain injury forces of moderate magnitude elicit the fencing response. Med Sci Sports Exerc 41(9):1687–1697
  • Johnson IP, Duberley RM. 1998. Motoneuron survival and expression of neuropeptides and neurotrophic factor receptors following axotomy in adult and ageing rats. Neuroscience 84(1):141–150
  • Kelley BJ, Farkas O, Lifshitz J, Povlishock JT. 2006. Traumatic axonal injury in the perisomatic domain triggers ultrarapid secondary axotomy and Wallerian degeneration. Exp Neurol 198(2):350–360
  • Kelley BJ, Lifshitz J, Povlishock JT. 2007. Neuroinflammatory responses after experimental diffuse traumatic brain injury. J Neuropathol Exp Neurol 66(11):989–1001
  • Koob AO, Borgens RB. 2006. Polyethylene glycol treatment after traumatic brain injury reduces beta-amyloid precursor protein accumulation in degenerating axons. J Neurosci Res 83(8):1558–1563
  • Koob AO, Colby JM, Borgens RB. 2008. Behavioral recovery from traumatic brain injury after membrane reconstruction using polyethylene glycol. J Biol Eng 2:9
  • Learoyd AE, Lifshitz J. 2012. Comparison of rat sensory behavioral tasks to detect somatosensory morbidity after diffuse brain-injury. Behav Brain Res 226(1):197–204
  • Li XY, Li J, Feng DF, Gu L. 2010. Diffuse axonal injury induced by simultaneous moderate linear and angular head accelerations in rats. Neuroscience 169(1):357–369
  • Lifshitz J, Kelley BJ, Povlishock JT. 2007. Perisomatic thalamic axotomy after diffuse traumatic brain injury is associated with atrophy rather than cell death. J Neuropathol Exp Neurol 66(3):218–229
  • Lifshitz J, Young RD, Harris NG, Thomas TC. 2011. Intracranial mechanics of diffuse brain injury in the rat. Poster session presented at 41st Annual Meeting for the Society for Neuroscience, Washington, DC
  • Lifshitz J, Lisembee AM. 2012. Neurodegeneration in the somatosensory cortex after experimental diffuse brain injury. Brain Struct Funct 217(1):49–61
  • Loane DJ, Byrnes KR. 2010. Role of microglia in neurotrauma. Neurotherapeutics 7(4):366–377
  • Marmarou CR, Walker SA, Davis CL, Povlishock JT. 2005. Quantitative analysis of the relationship between intra-axonal neurofilament compaction and impaired axonal transport following diffuse traumatic brain injury. J Neurotrauma 22(10):1066–1080
  • Marzo SJ, Moeller CW, Sharma N, Cunningham K, Jones KJ, Foecking EM. 2010. Facial motor nuclei cell loss with intratemporal facial nerve crush injuries in rats. Laryngoscope 120(11):2264–2269
  • McAllister TW. 1992. Neuropsychiatric sequelae of head injuries. Psychiatr Clin North Am 15(2):395–413
  • McNamara KC, Lisembee AM, Lifshitz J. 2010. The whisker nuisance task identifies a late-onset, persistent sensory sensitivity in diffuse brain-injured rats. J Neurotrauma 27(4):695–706
  • Mikics E, Baranyi J, Haller J. 2008. Rats exposed to traumatic stress bury unfamiliar objects—A novel measure of hyper-vigilance in PTSD models? Physiol Behav 94(3):341–348
  • Miyashita E, Keller A, Asanuma H. 1994. Input–output organization of the rat vibrissal motor cortex. Exp Brain Res 99(2):223–232
  • Moore CI, Nelson SB, Sur M. 1999. Dynamics of neuronal processing in rat somatosensory cortex. Trends Neurosci 22(11):513–520
  • Ng SY, Semple BD, Morganti-Kossmann MC, Bye N. 2012. Attenuation of microglial activation with minocycline is not associated with changes in neurogenesis after focal traumatic brain injury in adult mice. J Neurotrauma 29(7):1410–1425
  • Nguyen QT, Kleinfeld D. 2005. Positive feedback in a brainstem tactile sensorimotor loop. Neuron 45(3):447–457
  • Noseworthy JH, Miller J, Murray TJ, Regan D. 1981. Auditory brainstem responses in postconcussion syndrome. Arch Neurol 38(5):275–278
  • Pavlov SP, Grosheva M, Streppel M, Guntinas-Lichius O, Irintchev A, Skouras E, Angelova SK, Kuerten S, Sinis N, Dunlop SA, et al. 2008. Manually-stimulated recovery of motor function after facial nerve injury requires intact sensory input. Exp Neurol 211(1):292–300
  • Paxinos G, Watson C. 2007. The rat brain in stereotaxic coordinates. Amsterdam: Academic Press/Elsevier
  • Pettus EH, Christman CW, Giebel ML, Povlishock JT. 1994. Traumatically induced altered membrane permeability: Its relationship to traumatically induced reactive axonal change. J Neurotrauma 11(5):507–522
  • Pettus EH, Povlishock JT. 1996. Characterization of a distinct set of intra-axonal ultrastructural changes associated with traumatically induced alteration in axolemmal permeability. Brain Res 722(1–2):1–11
  • Povlishock JT, Pettus EH. 1996. Traumatically induced axonal damage: Evidence for enduring changes in axolemmal permeability with associated cytoskeletal change. Acta Neurochir Suppl 66:81–86
  • Povlishock JT, Katz DI. 2005. Update of neuropathology and neurological recovery after traumatic brain injury. J Head Trauma Rehabil 20(1):76–94
  • Rosahl SK, Schuhmann MU, Thomas S, Brinker T, Samii M. 1998. Brain-stem auditory evoked potential monitoring in experimental diffuse brain injury. Acta Neurochir Suppl 71:88–90
  • Soustiel JF, Hafner H, Chistyakov AV, Barzilai A, Feinsod M. 1995. Trigeminal and auditory evoked responses in minor head injuries and post-concussion syndrome. Brain Inj 9(8):805–813
  • Switzer RC 3rd. 2000. Application of silver degeneration stains for neurotoxicity testing. Toxicol Pathol 28(1):70–83
  • Tang YP, Noda Y, Hasegawa T, Nabeshima T. 1997. A concussive-like brain injury model in mice (II): Selective neuronal loss in the cortex and hippocampus. J Neurotrauma 14(11):863–873
  • Thomas TC, Hinzman JM, Gerhardt GA, Lifshitz J. 2012. Hypersensitive glutamate signaling correlates with the development of late-onset behavioral morbidity in diffuse brain-injured circuitry. J Neurotrauma 29(2):187–200
  • Venkatesan C, Chrzaszcz M, Choi N, Wainwright MS. 2010. Chronic upregulation of activated microglia immunoreactive for galectin-3/Mac-2 and nerve growth factor following diffuse axonal injury. J Neuroinflammation 7:32
  • Waite PM. 1984. Rearrangement of neuronal responses in the trigeminal system of the rat following peripheral nerve section. J Physiol 352:425–445
  • Whitney NP, Eidem TM, Peng H, Huang Y, Zheng JC. 2009. Inflammation mediates varying effects in neurogenesis: Relevance to the pathogenesis of brain injury and neurodegenerative disorders. J Neurochem 108(6):1343–1359
  • Ziebell JM, Taylor SE, Cao T, Harrison JL, Lifshitz J. 2012. Rod microglia: Elongation, alignment, and coupling to form trains across the somatosensory cortex after experimental diffuse brain injury. J Neuroinflammation 9:247

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