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Results: 1 to 20 of 109

Similar articles for PubMed (Select 22052241)

1.

Vector-mediated expression of erythropoietin improves functional outcome after cervical spinal cord contusion injury.

Wang S, Wu Z, Chiang P, Fink DJ, Mata M.

Gene Ther. 2012 Sep;19(9):907-14. doi: 10.1038/gt.2011.166. Epub 2011 Nov 3.

2.

Functional and histopathological changes induced by intraparenchymal injection of kainic acid in the rat cervical spinal cord.

Nishida F, Zanuzzi CN, Martínez A, Barbeito CG, Portiansky EL.

Neurotoxicology. 2015 May 23;49:68-78. doi: 10.1016/j.neuro.2015.05.006. [Epub ahead of print]

PMID:
26014486
3.

A cervical hemi-contusion spinal cord injury model for the investigation of novel therapeutics targeting proximal and distal forelimb functional recovery.

Mondello SE, Sunshine MD, Fischedick AE, Moritz CT, Horner PJ.

J Neurotrauma. 2015 May 1. [Epub ahead of print]

PMID:
25929319
4.

Monitoring of Short-Term Erythropoietin Therapy in Rats with Acute Spinal Cord Injury Using Manganese-Enhanced Magnetic Resonance Imaging.

Freitag MT, Márton G, Pajer K, Hartmann J, Walder N, Rossmann M, Parzer P, Redl H, Nógrádi A, Stieltjes B.

J Neuroimaging. 2014 Dec 16. doi: 10.1111/jon.12202. [Epub ahead of print]

PMID:
25510176
5.

The Irvine, Beatties, and Bresnahan (IBB) Forelimb Recovery Scale: An Assessment of Reliability and Validity.

Irvine KA, Ferguson AR, Mitchell KD, Beattie SB, Lin A, Stuck ED, Huie JR, Nielson JL, Talbott JF, Inoue T, Beattie MS, Bresnahan JC.

Front Neurol. 2014 Jul 7;5:116. doi: 10.3389/fneur.2014.00116. eCollection 2014.

6.

Bilateral contusion-compression model of incomplete traumatic cervical spinal cord injury.

Forgione N, Karadimas SK, Foltz WD, Satkunendrarajah K, Lip A, Fehlings MG.

J Neurotrauma. 2014 Nov 1;31(21):1776-88. doi: 10.1089/neu.2014.3388. Epub 2014 Sep 12.

7.

Impact depth and the interaction with impact speed affect the severity of contusion spinal cord injury in rats.

Lam CJ, Assinck P, Liu J, Tetzlaff W, Oxland TR.

J Neurotrauma. 2014 Dec 15;31(24):1985-97. doi: 10.1089/neu.2014.3392. Epub 2014 Sep 17.

PMID:
24945364
8.

Behavioral and anatomical consequences of repetitive mild thoracic spinal cord contusion injury in the rat.

Jin Y, Bouyer J, Haas C, Fischer I.

Exp Neurol. 2014 Jul;257:57-69. doi: 10.1016/j.expneurol.2014.04.016. Epub 2014 Apr 28.

PMID:
24786492
9.

Herpes simplex virus vector-mediated gene transfer of kynurenine aminotransferase improves detrusor overactivity in spinal cord-injured rats.

Jia C, Yoshimura N, Liao L.

Gene Ther. 2014 May;21(5):484-9. doi: 10.1038/gt.2014.19. Epub 2014 Mar 6.

PMID:
24598891
10.

Ketogenic diet improves forelimb motor function after spinal cord injury in rodents.

Streijger F, Plunet WT, Lee JH, Liu J, Lam CK, Park S, Hilton BJ, Fransen BL, Matheson KA, Assinck P, Kwon BK, Tetzlaff W.

PLoS One. 2013 Nov 4;8(11):e78765. doi: 10.1371/journal.pone.0078765. eCollection 2013.

11.

Novel method for analyzing locomotor ability after spinal cord injury in rats: technical note.

Shinozaki M, Yasuda A, Nori S, Saito N, Toyama Y, Okano H, Nakamura M.

Neurol Med Chir (Tokyo). 2013;53(12):907-13. Epub 2013 Oct 7.

12.
13.

Combination of chondroitinase ABC and AAV-NT3 promotes neural plasticity at descending spinal pathways after thoracic contusion in rats.

Hunanyan AS, Petrosyan HA, Alessi V, Arvanian VL.

J Neurophysiol. 2013 Oct;110(8):1782-92. doi: 10.1152/jn.00427.2013. Epub 2013 Jul 17.

14.

Combined SCI and TBI: recovery of forelimb function after unilateral cervical spinal cord injury (SCI) is retarded by contralateral traumatic brain injury (TBI), and ipsilateral TBI balances the effects of SCI on paw placement.

Inoue T, Lin A, Ma X, McKenna SL, Creasey GH, Manley GT, Ferguson AR, Bresnahan JC, Beattie MS.

Exp Neurol. 2013 Oct;248:136-47. doi: 10.1016/j.expneurol.2013.06.006. Epub 2013 Jun 13.

PMID:
23770071
15.

Therapeutic intraspinal microstimulation improves forelimb function after cervical contusion injury.

Kasten MR, Sunshine MD, Secrist ES, Horner PJ, Moritz CT.

J Neural Eng. 2013 Aug;10(4):044001. doi: 10.1088/1741-2560/10/4/044001. Epub 2013 May 28.

16.

Reticulospinal plasticity after cervical spinal cord injury in the rat involves withdrawal of projections below the injury.

Weishaupt N, Hurd C, Wei DZ, Fouad K.

Exp Neurol. 2013 Sep;247:241-9. doi: 10.1016/j.expneurol.2013.05.003. Epub 2013 May 17.

PMID:
23684634
17.

Functional consequences of ethidium bromide demyelination of the mouse ventral spinal cord.

Kuypers NJ, James KT, Enzmann GU, Magnuson DS, Whittemore SR.

Exp Neurol. 2013 Sep;247:615-22. doi: 10.1016/j.expneurol.2013.02.014. Epub 2013 Mar 4.

18.

Minocycline treatment inhibits lipid peroxidation, preserves spinal cord ultrastructure, and improves functional outcome after traumatic spinal cord injury in the rat.

Sonmez E, Kabatas S, Ozen O, Karabay G, Turkoglu S, Ogus E, Yilmaz C, Caner H, Altinors N.

Spine (Phila Pa 1976). 2013 Jul 1;38(15):1253-9. doi: 10.1097/BRS.0b013e3182895587.

PMID:
23370685
19.

Dynamic motor compensations with permanent, focal loss of forelimb force after cervical spinal cord injury.

López-Dolado E, Lucas-Osma AM, Collazos-Castro JE.

J Neurotrauma. 2013 Feb 1;30(3):191-210. doi: 10.1089/neu.2012.2530. Epub 2012 Dec 18.

20.

X-ray microbeam irradiation of the contusion-injured rat spinal cord temporarily improves hind-limb function.

Dilmanian FA, Jenkins AL 3rd, Olschowka JA, Zhong Z, Park JY, Desnoyers NR, Sobotka S, Fois GR, Messina CR, Morales M, Hurley SD, Trojanczyk L, Ahmad S, Shahrabi N, Coyle PK, Meek AG, O'Banion MK.

Radiat Res. 2013 Jan;179(1):76-88. doi: 10.1667/RR2921.1. Epub 2012 Dec 5.

PMID:
23216524
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