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Articles published in
Neurosci Lett
    January 2024
  1. TOI M, Toshiya T, Noguchi K, Yamanaka H, et al
    COX2 expression plays a role in spinal cord injury-induced neuropathic pain.
    Neurosci Lett. 2024;823:137663.
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    December 2023
  2. MIHAILOVIC JM, Sanganahalli BG, Hyder F, Chitturi J, et al
    Cross-hemicord spinal fiber reorganization associates with cortical sensory and motor network expansion in the rat model of hemicontusion cervical spinal cord injury.
    Neurosci Lett. 2023;820:137607.
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    September 2023
  3. LIU T, Liu Y, Peng M, Liu Q, et al
    Slain2 attenuates brain injury following subarachnoid hemorrhage by controlling axonal microtubule structure in mice.
    Neurosci Lett. 2023 Sep 21:137495. doi: 10.1016/j.neulet.2023.137495.
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    August 2023
  4. LI Z, Quan B, Li X, Xiong W, et al
    A proteomic and phosphoproteomic landscape of spinal cord injury.
    Neurosci Lett. 2023;814:137449.
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    April 2023
  5. LIU J, Tian J, Xie R, Chen L, et al
    CK2 inhibitor DMAT ameliorates spinal cord injury by increasing autophagy and inducing anti-inflammatory microglial polarization.
    Neurosci Lett. 2023 Apr 3:137222. doi: 10.1016/j.neulet.2023.137222.
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    February 2023
  6. PAN L, Yi L, Liu Y, Liu L, et al
    Effects of task-based rehabilitative training combined with PTEN/SOCS3 coinhibition promotes axon regeneration and upper extremity skilled motor function recovery after cervical spinal cord injury in adult mice.
    Neurosci Lett. 2023 Feb 8:137121. doi: 10.1016/j.neulet.2023.137121.
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  7. OUYANG S, Wang X, Chen Y, Deng L, et al
    Swimming training combined with fecal microbial transplantation protects motor functions in rats with spinal cord injury by improving the intestinal system.
    Neurosci Lett. 2023 Feb 7:137104. doi: 10.1016/j.neulet.2023.137104.
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  8. SHIMIZU K, Mitsuhara T, Maeda Y, Kuwabara M, et al
    Impact of intravenously administered cranial bone-derived mesenchymal stem cells on functional recovery in experimental spinal cord injury.
    Neurosci Lett. 2023;799:137103.
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    December 2022
  9. WANG Y, Luo H, Liu Y, Yang C, et al
    Multimodal rehabilitation promotes axonal sprouting and functional recovery in a murine model of spinal cord injury (SCI).
    Neurosci Lett. 2022;795:137029.
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    November 2022
  10. ZHANG C, Meng X, Chen L, Zhang X, et al
    Changes in 5-HT1F receptor expression in rats with spasticity following spinal cord injury.
    Neurosci Lett. 2022;793:136988.
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    October 2022
  11. JIANG W, He F, Ding G, Wu J, et al
    Dopamine inhibits pyroptosis and attenuates secondary damage after spinal cord injury in female mice.
    Neurosci Lett. 2022 Oct 25:136935. doi: 10.1016/j.neulet.2022.136935.
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    August 2022
  12. BARON-FLORES V, Diaz-Ruiz A, Manzanares J, Rios C, et al
    Cannabidiol attenuates hypersensitivity and oxidative stress after traumatic spinal cord injury in rats.
    Neurosci Lett. 2022;788:136855.
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    May 2022
  13. TANG D, Wang X, Chen Y, Yang X, et al
    Treadmill training improves respiratory function in rats after spinal cord injury by inhibiting the HMGB1/TLR-4/NF-kappaB signaling pathway.
    Neurosci Lett. 2022 May 17:136686. doi: 10.1016/j.neulet.2022.136686.
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    March 2022
  14. ARVANIAN VL, Liang L, Tesfa A, Fahmy M, et al
    Buprenorphine, a partial opioid agonist, prevents modulation of H-reflex induced by pulsed electromagnetic stimulation in spinal cord injured rats.
    Neurosci Lett. 2022 Mar 19:136583. doi: 10.1016/j.neulet.2022.136583.
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    January 2022
  15. TAKIGUCHI M, Akaike T, Shindo K, Sakuyama R, et al
    Chondroitin sulfate expression around motoneurons changes after complete spinal transection of neonatal rats.
    Neurosci Lett. 2022;766:136324.
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    December 2021
  16. JAISWAL S, Brabazon F, von Leden R, Acs D, et al
    Spinal cord injury chronically depresses glucose uptake in the rodent model.
    Neurosci Lett. 2021;771:136416.
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    November 2021
  17. FENG D, Yu J, Bao L, Fan D, et al
    Inhibiting RGS1 attenuates secondary inflammation response and tissue degradation via the TLR/TRIF/NF-kappaB pathway in macrophage post spinal cord injury.
    Neurosci Lett. 2021 Nov 28:136374. doi: 10.1016/j.neulet.2021.136374.
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    October 2021
  18. FERREIRA EC, Oliveira ACDR, Garcia CG, Cossenza M, et al
    PMA treatment fosters rat retinal ganglion cell survival via TNF signaling.
    Neurosci Lett. 2021;763:136197.
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    August 2021
  19. VILLANOVA JUNIOR JA, Magalhaes MAB, Cereja de Souza TD, Battisti MKB, et al
    Polypropylene mesh inhibits post-laminectomy compressive scar formation in rabbits: Histopathological and computational morphometric evaluation.
    Neurosci Lett. 2021;760:135973.
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  20. ZHAO H, Mei X, Yang D, Tu G, et al
    Resveratrol inhibits inflammation after spinal cord injury via SIRT-1/NF-kappaB signaling pathway.
    Neurosci Lett. 2021 Aug 2:136151. doi: 10.1016/j.neulet.2021.136151.
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    July 2021
  21. KUANG H, Wang T, Liu L, Tang C, et al
    Treatment of early brain injury after subarachnoid hemorrhage in the rat model by inhibiting p53-induced ferroptosis.
    Neurosci Lett. 2021 Jul 23:136134. doi: 10.1016/j.neulet.2021.136134.
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  22. ZHANG A, Bai Z, Yi W, Hu Z, et al
    Overexpression of miR-338-5p in exosomes derived from mesenchymal stromal cells provides neuroprotective effects by the Cnr1/Rap1/Akt pathway after spinal cord injury in rats.
    Neurosci Lett. 2021 Jul 21:136124. doi: 10.1016/j.neulet.2021.136124.
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    May 2021
  23. TANJI C, Hashimoto M, Furuya T, Saito J, et al
    Sigma 1 receptor agonist cutamesine promotes plasticity of serotonergic boutons in lumbar enlargement in spinal cord injured rats.
    Neurosci Lett. 2021 May 20:135971. doi: 10.1016/j.neulet.2021.135971.
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    February 2021
  24. XU C, Mao L, Tian H, Lin S, et al
    MICAL1 (Molecule interacting with CasL 1) Protects Oligodendrocyte Cells from Oxidative Injury through Regulating Apoptosis, Autophagy in Spinal Cord Injury.
    Neurosci Lett. 2021 Feb 26:135712. doi: 10.1016/j.neulet.2021.135712.
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  25. BONE MD, Arora T, Musselman KE, Lanovaz JL, et al
    Investigating proactive balance control in individuals with incomplete spinal cord injury while walking on a known slippery surface.
    Neurosci Lett. 2021 Feb 18:135744. doi: 10.1016/j.neulet.2021.135744.
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  26. PEARSE DD, Rao SNR, Morales AA, Wakarchuk W, et al
    Engineering polysialic acid on Schwann cells using polysialyltransferase gene transfer or purified enzyme exposure for spinal cord injury transplantation.
    Neurosci Lett. 2021 Feb 1:135690. doi: 10.1016/j.neulet.2021.135690.
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    December 2020
  27. ZHABA WD, Deji QZ, Deng HJ, Han YL, et al
    Retinal hypoxia after experimental subarachnoid hemorrhage.
    Neurosci Lett. 2020 Dec 19:135554. doi: 10.1016/j.neulet.2020.135554.
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    November 2020
  28. BHATTACHARYYA S, Dinda A, Vishnubhatla S, Anwar MF, et al
    A combinatorial approach to modulate microenvironment toward regeneration and repair after spinal cord injury in rats.
    Neurosci Lett. 2020 Nov 13:135500. doi: 10.1016/j.neulet.2020.135500.
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    October 2020
  29. ZHANG T, Wang F, Li K, Lv C, et al
    Therapeutic effect of metformin on inflammation and apoptosis after spinal cord injury in rats through the Wnt/beta-catenin signaling pathway.
    Neurosci Lett. 2020;739:135440.
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    September 2020
  30. ZHANG C, Zhang C, Xu Y, Li C, et al
    Exosomes derived from human placenta-derived mesenchymal stem cells improve neurologic function by promoting angiogenesis after spinal cord injury.
    Neurosci Lett. 2020;739:135399.
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    April 2020
  31. LIU Q, Lv HW, Yang S, He YQ, et al
    NEP1-40 alleviates behavioral phenotypes and promote oligodendrocyte progenitor cell differentiation in the hippocampus of cuprizone-induced demyelination mouse model.
    Neurosci Lett. 2020;725:134872.
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    February 2020
  32. HE W, Fong PY, Leung TWH, Huang YZ, et al
    Protocols of non-invasive brain stimulation for neuroplasticity induction.
    Neurosci Lett. 2020;719:133437.
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  33. GUERRA A, Lopez-Alonso V, Cheeran B, Suppa A, et al
    Solutions for managing variability in non-invasive brain stimulation studies.
    Neurosci Lett. 2020;719:133332.
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    October 2019
  34. OKUMURA T, Nozu T, Ishioh M, Igarashi S, et al
    Brain orexin improves intestinal barrier function via the vagal cholinergic pathway.
    Neurosci Lett. 2019 Oct 31:134592. doi: 10.1016/j.neulet.2019.134592.
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