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  1. Fu, et al. (2003). Spinal root avulsion-induced upregulation of osteopontin expression in the adult
  2. George & Cummings (2003). The immunohistochemical profile of the myelomeningocele placode: is the p
  3. Bomstein, et al. (2003). Features of skin-coincubated macrophages that promote recovery from spinal
  4. Horiuchi, et al. (2003). Continuous intrathecal infusion of SB203580, a selective inhibitor of p38
  5. Hauben, et al. (2003). Vaccination with dendritic cells pulsed with peptides of myelin basic protei
  6. Dong, et al. (2003). Enhanced oligodendrocyte survival after spinal cord injury in Bax-deficient mi
  7. Erten, et al. (2003). Protective effect of melatonin on experimental spinal cord ischemia.
  8. Vega, et al. (2003). Acute down-regulation of antibody production following spinal cord injury: rol
  9. McDonald & Becker (2003). Spinal cord injury: promising interventions and realistic goals.
  10. Mitsui, et al. (2003). Immortalized neural stem cells transplanted into the injured spinal cord pro
  11. Wang (2003). Small heat shock protein gene therapy to protect damaged spinal cord from secondary in
  12. Minematsu, et al. (2003). Change of bone mechanical strength in rats after spinal cord injury over a short term.
  13. Multon, et al. (2003). The effect of treadmill training on motor recovery after a partial spinal co
  14. Jacob, et al. (2003). Autonomic dysreflexia after spinal cord transection or compression in 129Sv,
  15. Huang, et al. (2003). The role of multiple hyperbaric oxygenation in expanding therapeutic windows
  16. Goussev, et al. (2003). Differential temporal expression of matrix metalloproteinases after spinal
  17. Gregory, et al. (2003). Human and rat skeletal muscle adaptations to spinal cord injury.
  18. Tjoa, et al. (2003). he use of flow cytometry to assess neutrophil infiltration in the injured muri
  19. Okano, et al. (2003). Transplantation of neural stem cells into the spinal cord after injury.
  20. Lang-Lazdunski, et al. (2003). Linolenic acid prevents neuronal cell death and paraplegia after tra
  21. Bundesen, et al. (2003). Ephrin-B2 and EphB2 regulation of astrocyte-meningeal fibroblast interacti
  22. Bambakidis, et al. (2003). Sonic hedgehog-induced neural precursor proliferation after adult rodent
  23. Kakimoto, et al. (2003). Evaluation of rapid ischemic preconditioning...spinal cord ischemia
  24. Lee, et al. (2003). Migration and differentiation...bone marrow stromal cells... spinal cord injury
  25. Merkler, et al. (2003). Rapid induction...autoantibodies... Nogo-A and MOG...
  26. Drescher, et al. (2003). Spinal blood flow... megadose glucocorticoid treatment...awake pig
  27. Ichihara, et al. (2003). Mechanism of SCI...cervical spondylotic myelopathy...
  28. Jones, et al. (2003). Axonal regeneration through regions of chondroitin sulfate proteoglycan...SCI
  29. Gondim, et al. (2003). ...preinjury large bowel emptying on upper GI motility after SCI in rats
  30. Biers & Brading. (2003). Nerve regeneration:... solution functional problems of the urinary tract
  31. Pan, et la. (2003). Upregulation of p55 and p75 Receptors Mediating TNF-alpha Transport...
  32. Mobley & Agrawal (2003). Role of calcineurin in calcium-mediated hypoxic injury to white matter
  33. Van Meeteren, et al. (2003). Locomotor recovery after spinal cord contusion injury in rats...
  34. Lee, et al. (2003). Minocycline reduces cell death and improves functional recovery after ... SCI
  35. Mueller, et al. (2003). Spinal Cord Injury Induces Lesional Expression of... EMAP II.
  36. Benton & Whittemore (2003). VEGF165 therapy exacerbates secondary damage following spinal cord inju
  37. Roonprapunt, et al. (2003). Soluble cell adhesion molecule L1-Fc promotes locomotor recovery in rat
  38. Wells, et al. (2003). An adverse role for matrix metalloproteinase 12 after spinal cord injury in m
  39. Ray, et al. (2003). Calpain inhibitor prevented apoptosis and maintained transcription of proteolip
  40. Houle & Tessler (2003). "Repair of chronic spinal cord injury."
  41. Chau, et al. (2003). Chondroitinase ABC enhances axonal growth....
  42. Lea & Faden (2003). Modulation of metabotropic glutamate receptors as potential treatment...
  43. Lee, et al. (2003). Targeting the nogo receptor to treat central nervous system injuries.
  44. Takahashi, et al. (2003). MCI-186 prevents spinal cord damage and affects enzyme levels of...
  45. Seki, et al. (2004). Suppression of Detrusor-Sphincter Dyssynergia by Immunoneutralization of NGF..
  46. Gu, et al. (2004). Induction of Bladder Sphincter Dyssynergia By kappa-2 Opioid Receptor Agonists..
  47. Jiang, et al. (2003). Guanosine promotes myelination and functional recovery in chronic spinal ...
  48. Huang, et al. (2004). Preservation of spermatogenesis in spinal cord injured rats w/ testosterone
  49. Hofstetter, et al. (2003). Numb rats walk - behavioural & fMRI comparison of mild vs. moderate SC
  50. Pearse, et al. (2003). Comparison of iNOS inhibition by antisense and pharmacological inhibitors
  51. Rossignol, et al. (2003). Determinants of locomotor recovery after spinal injury in the cat.
  52. Kawaguchi, et al. (2004). Effects of an embryonic repair graft on recovery from spinal cord injury.
  53. Tessler, et al. (2004). Neurotrophic effects on dorsal root regeneration into the spinal cord.
  54. Murray, et al. (2004). Cellular transplants: steps toward restoration of function in spinal injured
  55. Baysefer, et al. (2003). Effect of mannitol in experimental spinal cord injury:
  56. Dolbeare & Houle (2003). Restriction of axonal retraction and promotion of axonal regeneration by c
  57. Anderson, et al., (2003). Fluoro-jade B stains quiescent and reactive astrocytes in the rodent spin
  58. Zang & Cheema (2003). Leukemia inhibitory factor promotes recovery of locomotor function following
  59. Han, et al. (2004). Transplantation of glial-restricted precursor cells into the adult spinal cord:
  60. Vaziri, et al. (2004). NAD(P)H oxidase, superoxide dismutase, catalase, glutathione peroxidase and
  61. Carbajal, et al. (2004). Protective effect of D-003 on experimental spinal cord ischemia in rabbits
  62. Li, et al. (2003) [Study of X-irradiation to enhance the functional and structural recovery
  63. Whishaw, et al. (2003). Complete and partial lesions of the pyramidal tract in the rat
  64. Gonzalez, et al. (2003). Reducing inflammation decreases secondary degeneration and functional ...
  65. Ondarza, et al. (2003). irect evidence of primary afferent sprouting in distant segments following
  66. Nakamura, et al. (2003). ifferences in cytokine gene expression profile between acute and secondary
  67. Shumsky, et al. (2003). Delayed transplantation of fibroblasts genetically modified to secrete BDNF
  68. Tobias, et al. (2003). Delayed grafting of BDNF and NT-3 producing fibroblasts into the injured spi
  69. Membrane properties of rat embryonic multipotent neural stem cells
  70. Crowe, et al. (2003). Exposure to pulsed magnetic fields enhances motor recovery in cats after spin
  71. Leblond, et al. (2003). Treadmill locomotion in the intact and spinal mouse.
  72. Ahn, et al. (2003). Efficacy of DA-8159, a new PDE5 inhibitor, for inducing penile erection in rabb
  73. Drescher, et al. (2003). Spinal blood flow in 24-hour megadose glucocorticoid treatment in ... pigs
  74. Horiuchi, et al. (2003). Continuous intrathecal infusion of SB203580, a selective inhibitor of p38
  75. Morino, et al. (2003). Delayed neuronal damage related to microglia proliferation ...
  76. Hashimoto, et al. (2004). Regulation of semaphorin 3A expression in neurons of the rat spinal cord
  77. Havton & Kellerth (2004). Plasticity of lumbosacral monosynaptic reflexes after a ventral root...
  78. Robot Assisted Locomotion Training After Spinal Cord Injury
  79. Nicolau, et al. (2004). Low-powered laser irradiation effects on neuromuscular junctions diaphragm
  80. Rosenzweig & McDonald (2004). Rodent models for treatment of spinal cord injury:
  81. Kipnis, et al. (2004). Low-dose gamma irradiation efffect on CNS requires T-cells
  82. Ruitenberg, et al. (2004). viral gene transfer of BDNF effect on rubrospinal neuronal atrophy
  83. Borgens, et al. (2004). Subcutaneous tri-block copolymer produces SCI recovery
  84. Okadam et al (2004). Blockade of IL-6 receptor reduces gliosis and improves SCI recovery
  85. Picard-Riera, et al. (2004). Endogenous adult neural stem cells
  86. Hynds, et al. (2004). Microglia enhance dorsal root ganglion outgrowth in Schwann cell cultures.
  87. Christie, et al. (2004). Human neuroteratoma transplants in rat spinal cord injury
  88. Madura, et al. (2004). Rho activation in injured spinal axons
  89. Profyris, et al. (2004). Degenerative and regenerative mechanisms after SCI
  90. Li, et al. (2004). Human umbilical cord blood transplants improved function in rats after SCI
  91. Gorio, et al. (2004). Fate of autologous dermal stem cells transplanted into injured spinal cord
  92. Luo & Shi (2004). ...oxidative stress and inhibition by polyethelene glycol
  93. Bennett, et al. (2004). Spastic reflexes after sacral spinal cord injury in awake rat
  94. Li, et al. (2004). Spastic long-lasting reflexes in chronic spinal rat studied in vitro
  95. Hutchinson, et al. (2004). Three exercises improve sensory recovery after rat spinal contusion
  96. Aoyagi, et al. (2004). Electrical stimulation of muscles, nerves, spinal cord and roots in cats
  97. Ramer, et al. (2004). Peripheral OEC reduce scar, cavity, and enhances regeneration in SCI rats
  98. Koda, et al. (2004). Upregulation of MIF ini compressed rat spinal cords
  99. Havton, et al. (2004). Lumbosacral monosynaptic reflex plasticity after ventral root section in cat
  100. Lopez, et al. (2004). Intrathecal bupivacaine reduces lesion extension in an photochemical SCI
  101. Kieran & Greensmith (2004). Leupeptin inhibition of calpain improves motoneuron survival
  102. Koshizuka, et al. (2004). Transplanted bone marrow stem cells form neural cells in spinal cord
  103. Hendriks, et al. (2004). Viral vector transfer of neurotrophin genes to promote regeneration
  104. Gris, et al. (2004). CD11d/CD18 blockade reduces tissue damage in rat SCI
  105. Drescher, et al. (2004). Reduced femoral head blood flow & coagulation after 24h high-dose steroid
  106. Campos, et al. (2004). Engineering novel spinal circuits to promote recovery after spinal injury
  107. Kamo, et al. (2004). Bladder-to-urethral reflex continence mechanisms in rats
  108. Kaymaz, et al. (2004). FK506 treatment and lipid peroxidation in injured rat spinal cords
  109. Mikami, et al. (2004). Dendritic cells activate endogenous stem/cells in injured spinal cords
  110. Cao, et al. (2004). GDNF secreting OEG cells promote spinal cord repair
  111. Gu, et al. (2004). 5-HT1A blocker inhibits bladder acctivity
  112. Kassam, et al. (2004). Tisseel fibrin glue used on central nervous system of nonhuman primates.
  113. Wingrave, et al. (2004). Calpain levels low in juvenile & may explain less apoptosis
  114. Lee, et al. (2004). MRI of transplanted olfactory ensheathing glia in rats
  115. Fujiki, et al. (2004). Immediate plasticity in motor pathways after spinal cord hemisection
  116. Cheng & DeGroat (2004). Capsaicin-sensitive afferent fibers in urinary tract dysfunction of rats
  117. Xu, et al., (2004). Glutamate kills oligodendroglia in injured spinal cord
  118. Ohta, et al. (2004). Bone marrow stem cells improve recovery in rats after SCI
  119. Chung, et al. (2004). OEC promote neurite sprouting in vitro by cell contact and soluble factors
  120. Ravikumar, et al. (2004). Nicotine reduces oxidative stress and pro-inflammatory genes in rat SCI
  121. Schumacher, et al. (2003). Local synthesis & actions of progesterone in CNS: protection & myelin.
  122. Pearse, et al. (2004). Combination Schwann cell, cAMP, and rolipram regenerates rat spinal cord
  123. Bai, et al. (2004). Radionuclide imaging of mesenchymal stem cells transplanted into spinal cord.
  124. Fraidakis, et al. (2004). Partial recovery after treatment of chronic paraplegia in rat.
  125. Ramer, et al. (2004). Peripheral OEG do not promote root regeneration after dorsal root injuries
  126. Riddell, et al. (2004). OEG grafts do not affect regeneration in the dorsal root entry zone
  127. Ibarra, et al. (2004). Therapeutic window for T cell vaccination and methylprednisolone.
  128. Korak, et al. (2004). Spinal cord injury changes after brachial plexus injury in newborn
  129. Midha, et al. (2004). Nerve transfers for severe brachial plexus injuries: a review.
  130. Zhao, et al. (2004). C34+ umbilical cord blood transplants improve recovery in hemisected rats
  131. Nikulina, et al. (2004). Rolipram promotes spinal axonal regeneration and functional recovery
  132. Sharma, et al. (2004). Methylprednisolone vs. dexamethansone treatment of SCI
  133. Brett Reece, et al. (2004). Adenosine agonist improve neurologic recovery after cord contusion
  134. Lee, et al. (2004). Apoptosis in brain after spinal cord injury
  135. Percutaneous Translumbar Spinal Cord Compression Injury in Dogs from an Angioplasty Balloon: MR and Histopathologic Changes with Balloon Sizes and Compression Times
  136. Lu, et al. (2004). Combinatorial therapy with neurotrophins and cAMP promotes axonal regeneration
  137. Yick, et al. (2004). Lithium chloride reinforces chondroitinase effect on rubrospinal regeneration
  138. Acorda Therapeutics (2005) Chondroitinase ABCI Improves Locomotion and Bladder Function after SCI
  139. Schwab and Bunge Labs (2005) Combining Schwann cell bridges and OEGs with chondroitinase
  140. Borgens Lab (2004) Sufactants for SCI in dogs improves recovery.
  141. Yamagishi, et al. 2005. Wallerian degeneration involves RHO/RHO-kinase signaling.
  142. Lee, et al. (2005). Effect of glial transplantation on functional recovery following acute spinal
  143. Conrad, et al. (2005) RhoA and RhoB expression in injured spinal cord
  144. Boyd, et al. (2005). OEG role in facilitating regeneration and remyelination of injured spinal cord
  145. Mueller, et al. (2005). Rock and Rho
  146. Schwab, et al. (2005). SCI-induced expression of repulsive guidance molecule
  147. Loy, et al. (2005). Serum markers NSE and S-100b proteins rise after SCI in rats
  148. Cao, et al. (2005). Function & electrophysiological changes after graded contusion
  149. Talbott, et al. (2005). Oligodendroglial precurosrs don't demyelinated spinal cords
  150. Liu, et al. (2005). bFGF treatmnet of distracted spinal cords.
  151. Bulon, et al. (2005). Cytoflavin protects compressed rat spinal cords
  152. Nieto, et al. (2005). Titanium mesh stabilization of multilevel laminectomy in rats
  153. Hasegawa, et al. (2005). Embryonic radial glia bridge spinal cord lesions and promote functional recovery following spinal cord injury.
  154. Wang, et al. (2005). [Effects of neural stem cells transplantation on glial cell line-derived neurotrophic factor and growth associated protein 43 after spinal cord injury in rats].
  155. Sykova & Jendelova (2005). Magnetic resonance tracking of implanted adult and embryonic stem cells in injured brain and spinal cord.
  156. Lepore & Fischer (2005). Lineage-restricted neural precursors survive, migrate, and differentiate following transplantation into the injured adult spinal cord.
  157. Crown & Grau (2005). Evidence that descending serotonergic systems protect spinal cord plasticity against the disruptive effect of uncontrollable stimulation.
  158. Steinmetz, et al. (2005). Chronic enhancement of the intrinsic growth capacity of sensory neurons combined with the degradation of inhibitory proteoglycans allows functional regeneration of sensory axons through the dorsal root entry zone in the mam
  159. Sribnick, et al. (2005). Estrogen attenuated markers of inflammation and decreased lesion volume in acute spinal cord injury in rats.
  160. Farooque, et al. (2005). Gender-related differences in recovery of locomotor function after spinal cord injury in mice.
  161. Nakamura, et al. (2005). Role of IL-6 in spinal cord injury in a mouse model.
  162. Kaptanoglu, et al. (2005). Mexiletine treatment-induced inhibition of caspase-3 activation and improvement of behavioral recovery after spinal cord injury.
  163. Enzmann, et al. (2005). Consequences of noggin expression by neural stem, glial, and neuronal precursor cells engrafted into the injured spinal cord.
  164. Girard, et al. (2005). Grafts of brain-derived neurotrophic factor and neurotrophin 3-transduced primate Schwann cells lead to functional recovery of the demyelinated mouse spinal cord.
  165. Cao, et al. (2005). unctional recovery in traumatic spinal cord injury after transplantation of multineurotrophin-expressing glial-restricted precursor cells.
  166. Totoiu & Keirstead (2005). Spinal cord injury is accompanied by chronic progressive demyelination.
  167. Chen, et al. (2005). Cell adhesion molecule L1-transfected embryonic stem cells with enhanced survival support regrowth of corticospinal tract axons in mice after spinal cord injury.
  168. Wang, et al. (2005). Effects of neural stem cells transplantation on glial cell line-derived neurotrophic factor and growth associated protein 43 after spinal cord injury in rats
  169. Kuh, et al. (2005). Functional recovery after human umbilical cord blood cells transplantation with brain-derived neutrophic factor into the spinal cord injured rat.
  170. Wu, et al. (2005). Co-expression of radial glial marker in macrophages/microglia in rat spinal cord contusion injury model.
  171. Okada, et al. (2005). In vivo imaging of engrafted neural stem cells: its application in evaluating the optimal timing of transplantation for spinal cord injury.
  172. Alexanian, et al. (2005). Efficient differentiation and integration of lineage-restricted neural precursors in the traumatically injured adult cat spinal cord.
  173. Lepore, et al. (2005). Neural precursor cells can be delivered into the injured cervical spinal cord by intrathecal injection at the lumbar cord.
  174. Xiao, et al. (2005). Human adult olfactory neural progenitors rescue axotomized rodent rubrospinal neurons and promote functional recovery.
  175. Zeng, et al. (2005). Co-transplantation of schwann cells promotes the survival and differentiation of neural stem cells transplanted into the injured spinal cord.
  176. Shaw, et al. (2005). Hyperphosphorylated neurofilament NF-H is a serum biomarker of axonal injury.
  177. Glycine to decrease bladder pressure?
  178. Axonal regeneration and step-training after complete spinal cord transection in rats
  179. Kubeck, et al. (2006). End Organ Effects of High-Dose Human Equivalent Methylprednis
  180. Kim, et al. (2006). Synaptic remodeling in motor cortex after SCI...
  181. Gensel et al. (2006). Behavioral and histological characterization of unilateral cerv
  182. Matrix metalloproteinase-9 activity in dogs with acute spinal cord trauma
  183. Neutralization of CD95 ligand promotes regeneration and functional recovery after spi
  184. MR Imaging of Neuropathologic Changes in the Injured Rat Spinal Cord
  185. Phenylalanine-(d) glutamate-(d) glycine in the rat injured spinal cord
  186. Neuroprotection with Hypericum perforatum extract after experimental sci in mice
  187. Long-Term Care of Paraplegic Laboratory Mammals
  188. Complement Plays an Important Role in SCI and Represents a Therapeutic Target
  189. Delayed Nogo receptor therapy improves recovery from spinal cord contusion
  190. Stem Cell Treatment In Dogs Bodes Well for Humans
  191. New Rat Study on BWSTT
  192. Electrophysiological evidence that olfactory cell transplants improve function after
  193. The Effects Of Corticospinal Tract Stimulation On Renal Sympathetic Nerve Activity In
  194. Axonal remyelination by cord blood stem cells
  195. Fibrillation potentials following spinal cord injury
  196. intervew transcript with Hans Kierstad
  197. CHF announces funding for stem cell research study.
  198. Myelin Pathology following Contusion and Transection Spinal Cord Injury
  199. Neuronal regeneration folllowing a combined treatment in rats w/ SC Transection
  200. Experimental SCI: Development of protection and repair strategies in rats
  201. Spinal astrocyte glutamate receptor overexpression after ischemic SCI and Spasticity
  202. Social and Enviornmental Enrichment Improves Recovery
  203. Locomotor recovery after thoracic spinal cord lesions in cats, rats and humans.
  204. Voluntary running attenuates age-related deficits following SCI.
  205. Umbilical cord blood stem cell mediated downregulation of fas improves functional rec
  206. DNA vaccine against NgR promotes functional recovery after spinal cord injury in adul
  207. Olfactory ensheathing cell transplantation following spinal cord injury: Hype or hop
  208. Umbilical cord blood stem cell mediated downregulation of Fas
  209. The efficacy of EPO on acute SCI
  210. Clinical trail for dogs with acute disc herniations.
  211. J Neurosurg Spine. 2008 Feb;8(2):153-62.Related Articles, Links
  212. Treadmill Training after Spinal Cord Hemisection in Mice
  213. Effect of intrathecal papaverine on blood flow and secondary injury
  214. Enhanced regeneration in spinal cord injury
  215. Graft of pre-injured sural nerve promotes regeneration of corticospinal tract
  216. Prominent role of the spinal central pattern generator in the recovery of locomotion
  217. Remyelination after chronic spinal cord injury
  218. Regenerating motor bridge axons and chronic SCI
  219. Selenium attenuates ROS-mediated apoptotic cell death in SCI
  220. Posttraumatic syringomyelia based on a novel in vivo animal model
  221. CD133+ cells from human peripheral blood promote corticospinal axon regeneration.
  222. Rolipram attenuates acute oligodendrocyte death
  223. Involvement of aFGF in spinal cord injury repair processes
  224. Evaluating neuronal and glial growth bridging the gap
  225. Functional Outcome of Bone Marrow Stem Cells after Acute SCI
  226. Graft of pre-injured sural nerve promotes regeneration in chronic SCI
  227. Article:SCI and Enviornmental enrichement with transplants and neurotrophin-3
  228. BYHWD rescues axotomized neurons and promotes functional recovery
  229. Environmental enrichment and combinatorial treatment with transplants and neurotroph
  230. Skeletal muscle following spinal cord injury and locomotor training.
  231. Skeletal muscle phenotypes after SCI and OEG transplantation
  232. Functional recovery after hemisection and peripheral nerve rerouting
  233. Involvement of aFGF in spinal cord injury repair processes
  234. Muscle fiber type after transection and OEG transplantation
  235. Neurotrophin-3 gene transfer to OEG and axonal regeneration
  236. Autonomic assessment of animals with SCI: tools, techniques and translation
  237. Benefit of chondroitinase ABC on sensory axon regeneration
  238. Advances in Research-Animal Welfare
  239. Bacteria Boosts Spinal Cord Repair
  240. Articles: Neurotrophic factors promote and enhance locomotor recovery
  241. Simultaneous application of two neurotrophic factors after spinal cord injury.
  242. A technological platform to optimize combinatorial treatment design for chronic SCI
  243. Novel combination strategies to repair the injured mammalian spinal cord.
  244. Article on treatment for neurogenic bladder overactivity
  245. Training locomotor networks.
  246. Effects of FGF-2 gene therapy combined with voluntary exercise & axonal regeneration
  247. Slow- and fast-twitch rat hind limb skeletal muscle after SCI and OEG transplant
  248. Immunization with recombinant Nogo (NgR) promotes axonal regeneration and recovery
  249. Infusion of human umbilical cord blood cells ameliorates hind limb dysfunction
  250. Co-transplantation of bFGF-expressing amniotic epithelial cells and neural stem cells