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PUBMED FOR HANDHELDS

Journal Abstract Search


306 related items for PubMed ID: 27938489

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  • 5. The Effect of Human Mesenchymal Stem Cells Derived from Wharton's Jelly in Spinal Cord Injury Treatment Is Dose-Dependent and Can Be Facilitated by Repeated Application.
    Krupa P, Vackova I, Ruzicka J, Zaviskova K, Dubisova J, Koci Z, Turnovcova K, Urdzikova LM, Kubinova S, Rehak S, Jendelova P.
    Int J Mol Sci; 2018 May 17; 19(5):. PubMed ID: 29772841
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  • 6. Transplantation of neural precursors generated from spinal progenitor cells reduces inflammation in spinal cord injury via NF-κB pathway inhibition.
    Karova K, Wainwright JV, Machova-Urdzikova L, Pisal RV, Schmidt M, Jendelova P, Jhanwar-Uniyal M.
    J Neuroinflammation; 2019 Jan 17; 16(1):12. PubMed ID: 30654804
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  • 7. Effects of the Post-Spinal Cord Injury Microenvironment on the Differentiation Capacity of Human Neural Stem Cells Derived from Induced Pluripotent Stem Cells.
    López-Serrano C, Torres-Espín A, Hernández J, Alvarez-Palomo AB, Requena J, Gasull X, Edel MJ, Navarro X.
    Cell Transplant; 2016 Oct 17; 25(10):1833-1852. PubMed ID: 27075820
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  • 8. SDF-1 overexpression by mesenchymal stem cells enhances GAP-43-positive axonal growth following spinal cord injury.
    Stewart AN, Matyas JJ, Welchko RM, Goldsmith AD, Zeiler SE, Hochgeschwender U, Lu M, Nan Z, Rossignol J, Dunbar GL.
    Restor Neurol Neurosci; 2017 Oct 17; 35(4):395-411. PubMed ID: 28598857
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  • 9. The Effect of iPS-Derived Neural Progenitors Seeded on Laminin-Coated pHEMA-MOETACl Hydrogel with Dual Porosity in a Rat Model of Chronic Spinal Cord Injury.
    Ruzicka J, Romanyuk N, Jirakova K, Hejcl A, Janouskova O, Machova LU, Bochin M, Pradny M, Vargova L, Jendelova P.
    Cell Transplant; 2019 Apr 17; 28(4):400-412. PubMed ID: 30654639
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  • 11. Human mesenchymal stem cells modulate inflammatory cytokines after spinal cord injury in rat.
    Urdzíková LM, Růžička J, LaBagnara M, Kárová K, Kubinová Š, Jiráková K, Murali R, Syková E, Jhanwar-Uniyal M, Jendelová P.
    Int J Mol Sci; 2014 Jun 25; 15(7):11275-93. PubMed ID: 24968269
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  • 15. Upregulation of Kv 1.4 protein and gene expression after chronic spinal cord injury.
    Edwards L, Nashmi R, Jones O, Backx P, Ackerley C, Becker L, Fehlings MG.
    J Comp Neurol; 2002 Feb 04; 443(2):154-67. PubMed ID: 11793353
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  • 16. Transplantation of bone marrow stem cells as well as mobilization by granulocyte-colony stimulating factor promotes recovery after spinal cord injury in rats.
    Urdzíková L, Jendelová P, Glogarová K, Burian M, Hájek M, Syková E.
    J Neurotrauma; 2006 Sep 04; 23(9):1379-91. PubMed ID: 16958589
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  • 18. Neural precursor cell transplantation enhances functional recovery and reduces astrogliosis in bilateral compressive/contusive cervical spinal cord injury.
    Wilcox JT, Satkunendrarajah K, Zuccato JA, Nassiri F, Fehlings MG.
    Stem Cells Transl Med; 2014 Oct 04; 3(10):1148-59. PubMed ID: 25107585
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  • 20. Transplants of human mesenchymal stem cells improve functional recovery after spinal cord injury in the rat.
    Cízková D, Rosocha J, Vanický I, Jergová S, Cízek M.
    Cell Mol Neurobiol; 2006 Oct 04; 26(7-8):1167-80. PubMed ID: 16897366
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