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Items: 1 to 20 of 126

1.

Acute neuroprotective effects of extremely low-frequency electromagnetic fields after traumatic brain injury in rats.

Yang Y, Li L, Wang YG, Fei Z, Zhong J, Wei LZ, Long QF, Liu WP.

Neurosci Lett. 2012 May 10;516(1):15-20. doi: 10.1016/j.neulet.2012.03.022. Epub 2012 Mar 19.

PMID:
22484017
2.

Dose-response curve and optimal dosing regimen of cyclosporin A after traumatic brain injury in rats.

Sullivan PG, Rabchevsky AG, Hicks RR, Gibson TR, Fletcher-Turner A, Scheff SW.

Neuroscience. 2000;101(2):289-95.

PMID:
11074152
3.

Delayed inhibition of Nogo-A does not alter injury-induced axonal sprouting but enhances recovery of cognitive function following experimental traumatic brain injury in rats.

Lenzlinger PM, Shimizu S, Marklund N, Thompson HJ, Schwab ME, Saatman KE, Hoover RC, Bareyre FM, Motta M, Luginbuhl A, Pape R, Clouse AK, Morganti-Kossmann C, McIntosh TK.

Neuroscience. 2005;134(3):1047-56.

PMID:
15979242
4.
6.

Effects of extremely low-frequency electromagnetic fields on morphine-induced conditioned place preferences in rats.

Lei Y, Liu T, Wilson FA, Zhou D, Ma Y, Hu X.

Neurosci Lett. 2005 Dec 23;390(2):72-5. Epub 2005 Aug 24.

PMID:
16125316
7.
8.

Attenuation of interleukin-1beta by pulsed electromagnetic fields after traumatic brain injury.

Rasouli J, Lekhraj R, White NM, Flamm ES, Pilla AA, Strauch B, Casper D.

Neurosci Lett. 2012 Jun 21;519(1):4-8. doi: 10.1016/j.neulet.2012.03.089. Epub 2012 Apr 5.

PMID:
22503903
9.

Neuroprotective effects of extremely low-frequency electromagnetic fields on a Huntington's disease rat model: effects on neurotrophic factors and neuronal density.

Tasset I, Medina FJ, Jimena I, Agüera E, Gascón F, Feijóo M, Sánchez-López F, Luque E, Peña J, Drucker-Colín R, Túnez I.

Neuroscience. 2012 May 3;209:54-63. doi: 10.1016/j.neuroscience.2012.02.034. Epub 2012 Feb 25.

PMID:
22406415
10.

The optimal dosage and window of opportunity to maintain mitochondrial homeostasis following traumatic brain injury using the uncoupler FCCP.

Pandya JD, Pauly JR, Sullivan PG.

Exp Neurol. 2009 Aug;218(2):381-9. doi: 10.1016/j.expneurol.2009.05.023. Epub 2009 May 27.

PMID:
19477175
11.

The effects of acute and chronic alcohol ingestion on outcome following multiple episodes of mild traumatic brain injury in rats.

Biros MH, Kukielka D, Sutton RL, Rockswold GL, Bergman TA.

Acad Emerg Med. 1999 Nov;6(11):1088-97.

12.

Posttraumatic hypothermia is neuroprotective in a model of traumatic brain injury complicated by a secondary hypoxic insult.

Matsushita Y, Bramlett HM, Alonso O, Dietrich WD.

Crit Care Med. 2001 Nov;29(11):2060-6.

PMID:
11700395
13.
14.

Perfluorocarbon emulsions improve cognitive recovery after lateral fluid percussion brain injury in rats.

Zhou Z, Sun D, Levasseur JE, Merenda A, Hamm RJ, Zhu J, Spiess BD, Bullock MR.

Neurosurgery. 2008 Oct;63(4):799-806; discussion 806-7. doi: 10.1227/01.NEU.0000325493.51900.53.

PMID:
18981892
15.

Methods to induce primary and secondary traumatic damage in organotypic hippocampal slice cultures.

Adamchik Y, Frantseva MV, Weisspapir M, Carlen PL, Perez Velazquez JL.

Brain Res Brain Res Protoc. 2000 Apr;5(2):153-8.

PMID:
10775835
16.

Technical aspects of an impact acceleration traumatic brain injury rat model with potential suitability for both microdialysis and PtiO2 monitoring.

Carré E, Cantais E, Darbin O, Terrier JP, Lonjon M, Palmier B, Risso JJ.

J Neurosci Methods. 2004 Dec 30;140(1-2):23-8.

PMID:
15589330
17.

Neuroprotective profile of enoxaparin, a low molecular weight heparin, in in vivo models of cerebral ischemia or traumatic brain injury in rats: a review.

Stutzmann JM, Mary V, Wahl F, Grosjean-Piot O, Uzan A, Pratt J.

CNS Drug Rev. 2002 Spring;8(1):1-30. Review.

18.

Fifty hertz extremely low-frequency electromagnetic field causes changes in redox and differentiative status in neuroblastoma cells.

Falone S, Grossi MR, Cinque B, D'Angelo B, Tettamanti E, Cimini A, Di Ilio C, Amicarelli F.

Int J Biochem Cell Biol. 2007;39(11):2093-106. Epub 2007 Jun 23.

PMID:
17662640
19.

Cortical edema in moderate fluid percussion brain injury is attenuated by vagus nerve stimulation.

Clough RW, Neese SL, Sherill LK, Tan AA, Duke A, Roosevelt RW, Browning RA, Smith DC.

Neuroscience. 2007 Jun 29;147(2):286-93. Epub 2007 Jun 1.

PMID:
17543463
20.

Chronic histopathological consequences of fluid-percussion brain injury in rats: effects of post-traumatic hypothermia.

Bramlett HM, Dietrich WD, Green EJ, Busto R.

Acta Neuropathol. 1997 Feb;93(2):190-9.

PMID:
9039468
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