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160 related items for PubMed ID: 36669493

  • 1. Human spinal GABA neurons survive and mature in the injured nonhuman primate spinal cord.
    Zheng X, Zhu B, Xu J, Liu D, Huang Y, Chen D, Liu Z, Guo F, Dong Y, Zhu W, Pan D, Zhang SC, Chen H, Wang W.
    Stem Cell Reports; 2023 Feb 14; 18(2):439-448. PubMed ID: 36669493
    [Abstract] [Full Text] [Related]

  • 2. Human spinal GABA neurons alleviate spasticity and improve locomotion in rats with spinal cord injury.
    Gong C, Zheng X, Guo F, Wang Y, Zhang S, Chen J, Sun X, Shah SZA, Zheng Y, Li X, Yin Y, Li Q, Huang X, Guo T, Han X, Zhang SC, Wang W, Chen H.
    Cell Rep; 2021 Mar 23; 34(12):108889. PubMed ID: 33761348
    [Abstract] [Full Text] [Related]

  • 3. Preclinical long-term safety of intraspinal transplantation of human dorsal spinal GABA neural progenitor cells.
    Zheng X, Liu Z, He Z, Xu J, Wang Y, Gong C, Zhang R, Zhang SC, Chen H, Wang W.
    iScience; 2023 Nov 17; 26(11):108306. PubMed ID: 38026209
    [Abstract] [Full Text] [Related]

  • 4. Monkey Recovery from Spinal Cord Hemisection: Nerve Repair Strategies for Rhesus Macaques.
    Ko CC, Tu TH, Chen YT, Wu JC, Huang WC, Cheng H.
    World Neurosurg; 2019 Sep 17; 129():e343-e351. PubMed ID: 31132502
    [Abstract] [Full Text] [Related]

  • 5. Modulation by DREADD reveals the therapeutic effect of human iPSC-derived neuronal activity on functional recovery after spinal cord injury.
    Kitagawa T, Nagoshi N, Kamata Y, Kawai M, Ago K, Kajikawa K, Shibata R, Sato Y, Imaizumi K, Shindo T, Shinozaki M, Kohyama J, Shibata S, Matsumoto M, Nakamura M, Okano H.
    Stem Cell Reports; 2022 Jan 11; 17(1):127-142. PubMed ID: 35021049
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  • 6. [Evaluation of neurological function following establishment of spinal cord hemisection model in rhesus].
    Ni W, Li YM, Guan YG, Zhu XB, Wang TH, Feng ZT.
    Sichuan Da Xue Xue Bao Yi Xue Ban; 2005 May 11; 36(3):328-30. PubMed ID: 15931859
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  • 7. Long-term selective stimulation of transplanted neural stem/progenitor cells for spinal cord injury improves locomotor function.
    Kawai M, Imaizumi K, Ishikawa M, Shibata S, Shinozaki M, Shibata T, Hashimoto S, Kitagawa T, Ago K, Kajikawa K, Shibata R, Kamata Y, Ushiba J, Koga K, Furue H, Matsumoto M, Nakamura M, Nagoshi N, Okano H.
    Cell Rep; 2021 Nov 23; 37(8):110019. PubMed ID: 34818559
    [Abstract] [Full Text] [Related]

  • 8. Amelioration of motor/sensory dysfunction and spasticity in a rat model of acute lumbar spinal cord injury by human neural stem cell transplantation.
    van Gorp S, Leerink M, Kakinohana O, Platoshyn O, Santucci C, Galik J, Joosten EA, Hruska-Plochan M, Goldberg D, Marsala S, Johe K, Ciacci JD, Marsala M.
    Stem Cell Res Ther; 2013 May 28; 4(3):57. PubMed ID: 23710605
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  • 10. Intrathecal Transplantation of Embryonic Stem Cell-Derived Spinal GABAergic Neural Precursor Cells Attenuates Neuropathic Pain in a Spinal Cord Injury Rat Model.
    Hwang I, Hahm SC, Choi KA, Park SH, Jeong H, Yea JH, Kim J, Hong S.
    Cell Transplant; 2016 May 28; 25(3):593-607. PubMed ID: 26407027
    [Abstract] [Full Text] [Related]

  • 11. Allogeneic Neural Stem/Progenitor Cells Derived From Embryonic Stem Cells Promote Functional Recovery After Transplantation Into Injured Spinal Cord of Nonhuman Primates.
    Iwai H, Shimada H, Nishimura S, Kobayashi Y, Itakura G, Hori K, Hikishima K, Ebise H, Negishi N, Shibata S, Habu S, Toyama Y, Nakamura M, Okano H.
    Stem Cells Transl Med; 2015 Jul 28; 4(7):708-19. PubMed ID: 26019226
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  • 13. Regenerating Corticospinal Axons Innervate Phenotypically Appropriate Neurons within Neural Stem Cell Grafts.
    Kumamaru H, Lu P, Rosenzweig ES, Kadoya K, Tuszynski MH.
    Cell Rep; 2019 Feb 26; 26(9):2329-2339.e4. PubMed ID: 30811984
    [Abstract] [Full Text] [Related]

  • 14. A controlled spinal cord contusion for the rhesus macaque monkey.
    Ma Z, Zhang YP, Liu W, Yan G, Li Y, Shields LBE, Walker M, Chen K, Huang W, Kong M, Lu Y, Brommer B, Chen X, Xu XM, Shields CB.
    Exp Neurol; 2016 May 26; 279():261-273. PubMed ID: 26875994
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  • 15. Methods for functional assessment after C7 spinal cord hemisection in the rhesus monkey.
    Nout YS, Ferguson AR, Strand SC, Moseanko R, Hawbecker S, Zdunowski S, Nielson JL, Roy RR, Zhong H, Rosenzweig ES, Brock JH, Courtine G, Edgerton VR, Tuszynski MH, Beattie MS, Bresnahan JC.
    Neurorehabil Neural Repair; 2012 May 26; 26(6):556-69. PubMed ID: 22331214
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  • 16. Treatment with a Gamma-Secretase Inhibitor Promotes Functional Recovery in Human iPSC- Derived Transplants for Chronic Spinal Cord Injury.
    Okubo T, Nagoshi N, Kohyama J, Tsuji O, Shinozaki M, Shibata S, Kase Y, Matsumoto M, Nakamura M, Okano H.
    Stem Cell Reports; 2018 Dec 11; 11(6):1416-1432. PubMed ID: 30503258
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  • 17. Mutually beneficial effects of intensive exercise and GABAergic neural progenitor cell transplants in reducing neuropathic pain and spinal pathology in rats with spinal cord injury.
    Dugan EA, Jergova S, Sagen J.
    Exp Neurol; 2020 May 11; 327():113208. PubMed ID: 31962127
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  • 20. Riluzole promotes motor and respiratory recovery associated with enhanced neuronal survival and function following high cervical spinal hemisection.
    Satkunendrarajah K, Nassiri F, Karadimas SK, Lip A, Yao G, Fehlings MG.
    Exp Neurol; 2016 Feb 11; 276():59-71. PubMed ID: 26394202
    [Abstract] [Full Text] [Related]

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