Literature DB >> 23336085

OLIGODENDROCYTE VULNERABILITY FOLLOWING TRAUMATIC BRAIN INJURY IN RATS: EFFECT OF MODERATE HYPOTHERMIA.

George Lotocki1, Juan de Rivero Vaccari, Ofelia Alonso, Juliana Sanchez Molano, Ryan Nixon, W Dalton Dietrich, Helen M Bramlett.   

Abstract

The purpose of this study was to document patterns of oligodendrocyte vulnerability to TBI and determine whether posttraumatic hypothermia prevents oligodendrocyte cell loss. Sprague Dawley rats underwent moderate fluid percussion brain injury. Thirty minutes after TBI, brain temperature was reduced to 33°C for 4 hrs or maintained at normothermic levels (37°C). Animals were perfusion-fixed for quantitative immunohistochemical analysis at 3 (n=9) or 7 (n=9) days post-TBI. Within the cerebral cortex, external capsule and corpus callosum, numbers of APC-CC1 immunoreactive oligodendrocytes at 3 and 7 days following TBI were significantly decreased compared to sham operated rats (p<0.02). Double-labeling studies showed that vulnerable oligodendrocytes expressed increased Caspase 3 activation compared to sham. Posttraumatic hypothermia significantly reduced the number of CC1 positive oligodendrocytes lost after normothermia TBI in white matter tracts (p<0.01). This model of TBI leads to quantifiable regional patterns of oligodendrocyte vulnerability. Posttraumatic hypothermia protects oligodendrocytes by interfering with Caspase 3-mediated cell death mechanisms. Therapeutic hypothermia may improve functional outcome by attenuating trauma-induced oligodendrocyte cell death, subsequent demyelination and circuit dysfunction.

Entities:  

Year:  2011        PMID: 23336085      PMCID: PMC3547398          DOI: 10.1089/ther.2010.0011

Source DB:  PubMed          Journal:  Ther Hypothermia Temp Manag        ISSN: 2153-7658            Impact factor:   1.286


  49 in total

1.  White matter growth as a mechanism of cognitive development in children.

Authors:  Donald J Mabbott; Michael Noseworthy; Eric Bouffet; Suzanne Laughlin; Conrad Rockel
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2.  One-year study of spatial memory performance, brain morphology, and cholinergic markers after moderate controlled cortical impact in rats.

Authors:  C E Dixon; P M Kochanek; H Q Yan; J K Schiding; R G Griffith; E Baum; D W Marion; S T DeKosky
Journal:  J Neurotrauma       Date:  1999-02       Impact factor: 5.269

3.  Apoptotic and antiapoptotic mechanisms after traumatic brain injury.

Authors:  R W Keane; S Kraydieh; G Lotocki; O F Alonso; P Aldana; W D Dietrich
Journal:  J Cereb Blood Flow Metab       Date:  2001-10       Impact factor: 6.200

4.  P2X7 receptors mediate ischemic damage to oligodendrocytes.

Authors:  Maria Domercq; Alberto Perez-Samartin; David Aparicio; Elena Alberdi; Olatz Pampliega; Carlos Matute
Journal:  Glia       Date:  2010-04-15       Impact factor: 7.452

5.  Moderate posttraumatic hypothermia decreases early calpain-mediated proteolysis and concomitant cytoskeletal compromise in traumatic axonal injury.

Authors:  A Büki; H Koizumi; J T Povlishock
Journal:  Exp Neurol       Date:  1999-09       Impact factor: 5.330

6.  Ventricle size, cortical atrophy and the relationship with neuropsychological status in closed head injury: a quantitative analysis.

Authors:  C M Cullum; E D Bigler
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7.  Marked protection by moderate hypothermia after experimental traumatic brain injury.

Authors:  G L Clifton; J Y Jiang; B G Lyeth; L W Jenkins; R J Hamm; R L Hayes
Journal:  J Cereb Blood Flow Metab       Date:  1991-01       Impact factor: 6.200

Review 8.  The pathobiology of traumatically induced axonal injury in animals and humans: a review of current thoughts.

Authors:  J T Povlishock; C W Christman
Journal:  J Neurotrauma       Date:  1995-08       Impact factor: 5.269

Review 9.  Protection in animal models of brain and spinal cord injury with mild to moderate hypothermia.

Authors:  W Dalton Dietrich; Coleen M Atkins; Helen M Bramlett
Journal:  J Neurotrauma       Date:  2009-03       Impact factor: 5.269

10.  Serial changes in the white matter diffusion tensor imaging metrics in moderate traumatic brain injury and correlation with neuro-cognitive function.

Authors:  Raj Kumar; Mazhar Husain; Rakesh K Gupta; Khader M Hasan; Mohammad Haris; Atul K Agarwal; C M Pandey; Ponnada A Narayana
Journal:  J Neurotrauma       Date:  2009-04       Impact factor: 5.269
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  11 in total

1.  Omega-3 polyunsaturated fatty acid supplementation improves neurologic recovery and attenuates white matter injury after experimental traumatic brain injury.

Authors:  Hongjian Pu; Yanling Guo; Wenting Zhang; Lanting Huang; Guohua Wang; Anthony K Liou; Jia Zhang; Pengyue Zhang; Rehana K Leak; Yun Wang; Jun Chen; Yanqin Gao
Journal:  J Cereb Blood Flow Metab       Date:  2013-06-26       Impact factor: 6.200

2.  Depletion of microglia immediately following traumatic brain injury in the pediatric rat: Implications for cellular and behavioral pathology.

Authors:  Lauren A Hanlon; Ramesh Raghupathi; Jimmy W Huh
Journal:  Exp Neurol       Date:  2019-04-10       Impact factor: 5.330

Review 3.  Neuroprotective mechanisms of hypothermia in brain ischaemia.

Authors:  Midori A Yenari; Hyung Soo Han
Journal:  Nat Rev Neurosci       Date:  2012-02-22       Impact factor: 34.870

Review 4.  Therapeutic Hypothermia and Neuroprotection in Acute Neurological Disease.

Authors:  Kota Kurisu; Jong Youl Kim; Jesung You; Midori A Yenari
Journal:  Curr Med Chem       Date:  2019       Impact factor: 4.530

Review 5.  Therapeutic hypothermia for traumatic brain injury.

Authors:  L A Urbano; Mauro Oddo
Journal:  Curr Neurol Neurosci Rep       Date:  2012-10       Impact factor: 5.081

6.  Prolonged Local Hypothermia Has No Long-Term Adverse Effect on the Spinal Cord.

Authors:  Ashwati Vipin; Jukka Kortelainen; Hasan Al-Nashash; Soo Min Chua; Xinyuan Thow; Janani Manivannan; Nitish V Thakor; Candace L Kerr; Angelo H All
Journal:  Ther Hypothermia Temp Manag       Date:  2015-06-09       Impact factor: 1.286

7.  Transient selective brain cooling confers neurovascular and functional protection from acute to chronic stages of ischemia/reperfusion brain injury.

Authors:  Jingyan Zhao; Hongfeng Mu; Liqiang Liu; Xiaoyan Jiang; Di Wu; Yejie Shi; Rehana K Leak; Xunming Ji
Journal:  J Cereb Blood Flow Metab       Date:  2018-10-18       Impact factor: 6.200

8.  Damage to myelin and oligodendrocytes: a role in chronic outcomes following traumatic brain injury?

Authors:  William L Maxwell
Journal:  Brain Sci       Date:  2013-09-16

Review 9.  Oligodendrogenesis in the normal and pathological central nervous system.

Authors:  Bilal El Waly; Magali Macchi; Myriam Cayre; Pascale Durbec
Journal:  Front Neurosci       Date:  2014-06-12       Impact factor: 4.677

Review 10.  Prospective clinical biomarkers of caspase-mediated apoptosis associated with neuronal and neurovascular damage following stroke and other severe brain injuries: Implications for chronic neurodegeneration.

Authors:  Olena Y Glushakova; Andriy A Glushakov; Dayanjan S Wijesinghe; Alex B Valadka; Ronald L Hayes; Alexander V Glushakov
Journal:  Brain Circ       Date:  2017-07-18
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