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Journal Abstract Search

926 related items for PubMed ID: 31000697

  • 1. Neural stem cell-derived small extracellular vesicles attenuate apoptosis and neuroinflammation after traumatic spinal cord injury by activating autophagy.
    Rong Y, Liu W, Wang J, Fan J, Luo Y, Li L, Kong F, Chen J, Tang P, Cai W.
    Cell Death Dis; 2019 Apr 18; 10(5):340. PubMed ID: 31000697
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  • 2. Neural stem cell small extracellular vesicle-based delivery of 14-3-3t reduces apoptosis and neuroinflammation following traumatic spinal cord injury by enhancing autophagy by targeting Beclin-1.
    Rong Y, Liu W, Lv C, Wang J, Luo Y, Jiang D, Li L, Zhou Z, Zhou W, Li Q, Yin G, Yu L, Fan J, Cai W.
    Aging (Albany NY); 2019 Sep 28; 11(18):7723-7745. PubMed ID: 31563124
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  • 6. Small extracellular vesicles encapsulating CCL2 from activated astrocytes induce microglial activation and neuronal apoptosis after traumatic spinal cord injury.
    Rong Y, Ji C, Wang Z, Ge X, Wang J, Ye W, Tang P, Jiang D, Fan J, Yin G, Liu W, Cai W.
    J Neuroinflammation; 2021 Sep 12; 18(1):196. PubMed ID: 34511129
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  • 7. Early administration of tumor necrosis factor-alpha antagonist promotes survival of transplanted neural stem cells and axon myelination after spinal cord injury in rats.
    Wang L, Wei FX, Cen JS, Ping SN, Li ZQ, Chen NN, Cui SB, Wan Y, Liu SY.
    Brain Res; 2014 Aug 05; 1575():87-100. PubMed ID: 24887643
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  • 8. Extracellular vesicles derived from CD73 modified human umbilical cord mesenchymal stem cells ameliorate inflammation after spinal cord injury.
    Zhai X, Chen K, Yang H, Li B, Zhou T, Wang H, Zhou H, Chen S, Zhou X, Wei X, Bai Y, Li M.
    J Nanobiotechnology; 2021 Sep 08; 19(1):274. PubMed ID: 34496892
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  • 9. Micro electrical fields induced MSC-sEVs attenuate neuronal cell apoptosis by activating autophagy via lncRNA MALAT1/miR-22-3p/SIRT1/AMPK axis in spinal cord injury.
    Li K, Liu Z, Wu P, Chen S, Wang M, Liu W, Zhang L, Guo S, Liu Y, Liu P, Zhang B, Tao L, Ding H, Qian H, Fu Q.
    J Nanobiotechnology; 2023 Nov 27; 21(1):451. PubMed ID: 38012570
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  • 10. Exendin-4 Enhances Motor Function Recovery via Promotion of Autophagy and Inhibition of Neuronal Apoptosis After Spinal Cord Injury in Rats.
    Li HT, Zhao XZ, Zhang XR, Li G, Jia ZQ, Sun P, Wang JQ, Fan ZK, Lv G.
    Mol Neurobiol; 2016 Aug 27; 53(6):4073-4082. PubMed ID: 26198566
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  • 11. Small extracellular vesicles released by infused mesenchymal stromal cells target M2 macrophages and promote TGF-β upregulation, microvascular stabilization and functional recovery in a rodent model of severe spinal cord injury.
    Nakazaki M, Morita T, Lankford KL, Askenase PW, Kocsis JD.
    J Extracell Vesicles; 2021 Sep 27; 10(11):e12137. PubMed ID: 34478241
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  • 12. Extracellular Vesicles Derived from Epidural Fat-Mesenchymal Stem Cells Attenuate NLRP3 Inflammasome Activation and Improve Functional Recovery After Spinal Cord Injury.
    Huang JH, Fu CH, Xu Y, Yin XM, Cao Y, Lin FY.
    Neurochem Res; 2020 Apr 27; 45(4):760-771. PubMed ID: 31953741
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  • 15. Bone Marrow Mesenchymal Stem Cell-Derived Exosomes Improves Spinal Cord Function After Injury in Rats by Activating Autophagy.
    Gu J, Jin ZS, Wang CM, Yan XF, Mao YQ, Chen S.
    Drug Des Devel Ther; 2020 Apr 27; 14():1621-1631. PubMed ID: 32425507
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  • 16. Designer Self-Assemble Peptides Maximize the Therapeutic Benefits of Neural Stem Cell Transplantation for Alzheimer's Disease via Enhancing Neuron Differentiation and Paracrine Action.
    Cui GH, Shao SJ, Yang JJ, Liu JR, Guo HD.
    Mol Neurobiol; 2016 Mar 27; 53(2):1108-1123. PubMed ID: 25586060
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  • 19. Effects of Olig2-overexpressing neural stem cells and myelin basic protein-activated T cells on recovery from spinal cord injury.
    Hu JG, Shen L, Wang R, Wang QY, Zhang C, Xi J, Ma SF, Zhou JS, Lü HZ.
    Neurotherapeutics; 2012 Apr 27; 9(2):422-45. PubMed ID: 22173726
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  • 20. Simvastatin inhibits neural cell apoptosis and promotes locomotor recovery via activation of Wnt/β-catenin signaling pathway after spinal cord injury.
    Gao K, Shen Z, Yuan Y, Han D, Song C, Guo Y, Mei X.
    J Neurochem; 2016 Jul 27; 138(1):139-49. PubMed ID: 26443048
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