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Literature DB >> 20676289

Spinal cord injury I: A synopsis of the basic science.

Aubrey A Webb¹, Sybil Ngan, J David Fowler.

Abstract

Substantial knowledge has been gained in the pathological findings following naturally occurring spinal cord injury (SCI) in dogs and cats. The molecular mechanisms involved in failure of neural regeneration within the central nervous system, potential therapeutics including cellular transplantation therapy, neural plasticity, and prognostic indicators of recovery from SCI have been studied. This 2-part review summarizes 1) basic science perspectives regarding treating and curing spinal cord injury, 2) recent studies that shed light on prognosis and recovery from SCI, 3) current thinking regarding standards of care for dogs with SCI, 4) experimental approaches in the laboratory setting, and 5) current clinical trials being conducted in veterinary medicine. Part I presents timely information on the pathophysiology of spinal cord injury, challenges associated with promoting regeneration of neurons of the central nervous system, and experimental approaches aimed at developing treatments for spinal cord injury.

Entities: Disease Species

Mesh：

Year: 2010 PMID： 20676289 PMCID： PMC2857426

Source DB: PubMed Journal: Can Vet J ISSN： 0008-5286 Impact factor: 1.008

141 in total

Review 1. Repulsive factors and axon regeneration in the CNS.

Authors: A E Fournier; S M Strittmatter
Journal: Curr Opin Neurobiol Date: 2001-02 Impact factor: 6.627

2. Rho GTPases and axonal growth cone collapse.

Authors: A E Fournier; R G Kalb; S M Strittmatter
Journal: Methods Enzymol Date: 2000 Impact factor: 1.600

3. Initiating or blocking locomotion in spinal cats by applying noradrenergic drugs to restricted lumbar spinal segments.

Authors: J Marcoux; S Rossignol
Journal: J Neurosci Date: 2000-11-15 Impact factor: 6.167

4. Axonal regeneration and functional recovery after complete spinal cord transection in rats by delayed treatment with transplants and neurotrophins.

Authors: J V Coumans; T T Lin; H N Dai; L MacArthur; M McAtee; C Nash; B S Bregman
Journal: J Neurosci Date: 2001-12-01 Impact factor: 6.167

Review 5. Gacyclidine: a new neuroprotective agent acting at the N-methyl-D-aspartate receptor.

Authors: H Hirbec; M Gaviria; J Vignon
Journal: CNS Drug Rev Date: 2001

6. Identification of a receptor mediating Nogo-66 inhibition of axonal regeneration.

Authors: A E Fournier; T GrandPre; S M Strittmatter
Journal: Nature Date: 2001-01-18 Impact factor: 49.962

7. Regeneration of lesioned corticospinal tract fibers in the adult rat induced by a recombinant, humanized IN-1 antibody fragment.

Authors: C Brösamle; A B Huber; M Fiedler; A Skerra; M E Schwab
Journal: J Neurosci Date: 2000-11-01 Impact factor: 6.167

8. Dietary restriction stimulates BDNF production in the brain and thereby protects neurons against excitotoxic injury.

Authors: W Duan; J Lee; Z Guo; M P Mattson
Journal: J Mol Neurosci Date: 2001-02 Impact factor: 3.444

9. Delayed recovery and exaggerated infarct size by post-lesion stress in a rat model of focal cerebral stroke.

Authors: Scott W Kirkland; Adrian K Coma; Keri L Colwell; Gerlinde A Metz
Journal: Brain Res Date: 2008-01-26 Impact factor: 3.252

10. Axonal regeneration after optic nerve crush in Nogo-A/B/C knockout mice.

Authors: Ying Su; Feng Wang; Shi-guang Zhao; Shang-ha Pan; Ping Liu; Yan Teng; Hao Cui
Journal: Mol Vis Date: 2008-02-04 Impact factor: 2.367

15 in total

1. Cannabidiol-treated rats exhibited higher motor score after cryogenic spinal cord injury.

Authors: Marcelo Kwiatkoski; Francisco Silveira Guimarães; Elaine Del-Bel
Journal: Neurotox Res Date: 2011-09-14 Impact factor: 3.911

2. Gross anatomical study of the nerve supply of genitourinary structures in female mongrel hound dogs.

Authors: S M Gomez-Amaya; M R Ruggieri; S A Arias Serrato; V S Massicotte; M F Barbe
Journal: Anat Histol Embryol Date: 2014-04-15 Impact factor: 1.114

3. Influences of HIF-lα on Bax/Bcl-2 and VEGF expressions in rats with spinal cord injury.

Authors: Mao-Hua Chen; Qing-Xian Ren; Wen-Fa Yang; Xiang-Lin Chen; Chuan Lu; Jun Sun
Journal: Int J Clin Exp Pathol Date: 2013-10-15

Review 4. Neural tissue engineering using embryonic and induced pluripotent stem cells.

Authors: Stephanie M Willerth
Journal: Stem Cell Res Ther Date: 2011-04-15 Impact factor: 6.832

5. Pilot study: bone marrow stem cells as a treatment for dogs with chronic spinal cord injury.

Authors: Carlos Alberto Palmeira Sarmento; Marcio Nogueira Rodrigues; Renato Zonzini Bocabello; Andrea Maria Mess; Maria Angelica Miglino
Journal: Regen Med Res Date: 2014-12-12

Review 6. Stem cells in canine spinal cord injury--promise for regenerative therapy in a large animal model of human disease.

Authors: Barbara G McMahill; Dori L Borjesson; Maya Sieber-Blum; Jan A Nolta; Beverly K Sturges
Journal: Stem Cell Rev Rep Date: 2015-02 Impact factor: 5.739

7. Mesenchymal stem cell graft improves recovery after spinal cord injury in adult rats through neurotrophic and pro-angiogenic actions.

Authors: Renaud Quertainmont; Dorothée Cantinieaux; Olivier Botman; Selim Sid; Jean Schoenen; Rachelle Franzen
Journal: PLoS One Date: 2012-06-20 Impact factor: 3.240