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327 related items for PubMed ID: 32647973

  • 21. Effect of pollen typhae on inhibiting autophagy in spinal cord injury of rats and its mechanisms.
    Wang W, Guo Z, Xu Z, Meng Q, Chen C, Zhang Y, Cao X.
    Int J Clin Exp Pathol; 2015; 8(3):2375-83. PubMed ID: 26045744
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  • 22. Effect of SDF-1/CXCR4 axis on the migration of transplanted bone mesenchymal stem cells mobilized by erythropoietin toward lesion sites following spinal cord injury.
    Li J, Guo W, Xiong M, Han H, Chen J, Mao D, Tang B, Yu H, Zeng Y.
    Int J Mol Med; 2015 Nov; 36(5):1205-14. PubMed ID: 26398409
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  • 23. Systemic bisperoxovanadium activates Akt/mTOR, reduces autophagy, and enhances recovery following cervical spinal cord injury.
    Walker CL, Walker MJ, Liu NK, Risberg EC, Gao X, Chen J, Xu XM.
    PLoS One; 2012 Nov; 7(1):e30012. PubMed ID: 22253859
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  • 24. Neuroprotection of melatonin on spinal cord injury by activating autophagy and inhibiting apoptosis via SIRT1/AMPK signaling pathway.
    Gao K, Niu J, Dang X.
    Biotechnol Lett; 2020 Oct; 42(10):2059-2069. PubMed ID: 32514788
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  • 25. Tanshinone IIA attenuates the inflammatory response and apoptosis after traumatic injury of the spinal cord in adult rats.
    Yin X, Yin Y, Cao FL, Chen YF, Peng Y, Hou WG, Sun SK, Luo ZJ.
    PLoS One; 2012 Oct; 7(6):e38381. PubMed ID: 22675554
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  • 26. Resveratrol improves neurological outcome and neuroinflammation following spinal cord injury through enhancing autophagy involving the AMPK/mTOR pathway.
    Meng HY, Shao DC, Li H, Huang XD, Yang G, Xu B, Niu HY.
    Mol Med Rep; 2018 Aug; 18(2):2237-2244. PubMed ID: 29956767
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  • 27. Salidroside attenuates neuroinflammation and improves functional recovery after spinal cord injury through microglia polarization regulation.
    Wang C, Wang Q, Lou Y, Xu J, Feng Z, Chen Y, Tang Q, Zheng G, Zhang Z, Wu Y, Tian N, Zhou Y, Xu H, Zhang X.
    J Cell Mol Med; 2018 Feb; 22(2):1148-1166. PubMed ID: 29148269
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  • 28. Regulation of autophagy and ubiquitinated protein accumulation by bFGF promotes functional recovery and neural protection in a rat model of spinal cord injury.
    Zhang HY, Wang ZG, Wu FZ, Kong XX, Yang J, Lin BB, Zhu SP, Lin L, Gan CS, Fu XB, Li XK, Xu HZ, Xiao J.
    Mol Neurobiol; 2013 Dec; 48(3):452-64. PubMed ID: 23516099
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  • 29. Tenuigenin activates the IRS1/Akt/mTOR signaling by blocking PTPN1 to inhibit autophagy and improve locomotor recovery in spinal cord injury.
    Zang L, Fu D, Zhang F, Li N, Ma X.
    J Ethnopharmacol; 2023 Dec 05; 317():116841. PubMed ID: 37355079
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  • 30. Metformin preconditioning provide neuroprotection through enhancement of autophagy and suppression of inflammation and apoptosis after spinal cord injury.
    Wang C, Liu C, Gao K, Zhao H, Zhou Z, Shen Z, Guo Y, Li Z, Yao T, Mei X.
    Biochem Biophys Res Commun; 2016 Sep 02; 477(4):534-540. PubMed ID: 27246734
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  • 31. Geniposide exerts protective effects on spinal cord injury in rats by inhibiting the IKKs/NF-κB signaling pathway.
    Li Y, Qiu H, Yao S, Li Q, Ding Y, Cao Y, Chen X, Zhu X.
    Int Immunopharmacol; 2021 Nov 02; 100():108158. PubMed ID: 34555642
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  • 32. Investigation of efficacy of treatment in spinal cord injury: Erythropoietin versus methylprednisolone.
    Ozkunt O, Sariyilmaz K, Gemalmaz HC, Gürgen SG, Yener U, Dikici F.
    J Orthop Surg (Hong Kong); 2017 Nov 02; 25(3):2309499017739481. PubMed ID: 29121822
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  • 33. Rapamycin repairs damaged nerve cells and neurological function in rats with spinal cord injury through ERK signaling pathway.
    Liu D, Jia S, Sun D, Wang SY, Meng FC, Guo WC.
    J Biol Regul Homeost Agents; 2020 Nov 02; 34(3):865-873. PubMed ID: 32689766
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  • 34. Neuroprotective Effects of Oxymatrine via Triggering Autophagy and Inhibiting Apoptosis Following Spinal Cord Injury in Rats.
    Li J, Cao Y, Li LN, Chu X, Wang YS, Cai JJ, Zhao J, Ma S, Li G, Fan ZK.
    Mol Neurobiol; 2023 Aug 02; 60(8):4450-4471. PubMed ID: 37115405
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  • 35. Effects of tacrolimus and erythropoietin in experimental spinal cord lesion in rats: functional and histological evaluation.
    de Mesquita Coutinho PR, Cristante AF, de Barros Filho TE, Ferreira R, Dos Santos GB.
    Spinal Cord; 2016 Jun 02; 54(6):439-44. PubMed ID: 26481712
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  • 36. Warm acupuncture therapy alleviates neuronal apoptosis after spinal cord injury via inhibition of the ERK signaling pathway.
    Ding LL, Hu SF, He XW, Zhang P, Zhao FF, Cheng LH, Huang BL, Liu TP, Zhang Q, He F, Hu SS, Zhang YJ, Yu Y, Xiong P, Wang CK.
    J Spinal Cord Med; 2023 Sep 02; 46(5):798-806. PubMed ID: 35792817
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  • 37. The Neuroprotective Effect of Puerarin in Acute Spinal Cord Injury Rats.
    Zhang D, Ma G, Hou M, Zhang T, Chen L, Zhao C.
    Cell Physiol Biochem; 2016 Sep 02; 39(3):1152-64. PubMed ID: 27576607
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  • 38. MicroRNA-92a-3p enhances functional recovery and suppresses apoptosis after spinal cord injury via targeting phosphatase and tensin homolog.
    He S, Wang Z, Li Y, Dong J, Xiang D, Ren L, Guo L, Shu J.
    Biosci Rep; 2020 May 29; 40(5):. PubMed ID: 32297644
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  • 39. 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 29; 138(1):139-49. PubMed ID: 26443048
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  • 40. Evaluation of the effects of erythropoietin and interleukin-6 in rats submitted to acute spinal cord injury.
    Barros AGC, Cristante AF, Santos GBD, Natalino RJM, Ferreira RJR, Barros-Filho TEP.
    Clinics (Sao Paulo); 2019 Jul 29; 74():e674. PubMed ID: 31433044
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