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Journal Abstract Search

418 related items for PubMed ID: 24662862

  • 21. Immunological demyelination enhances nerve regeneration after acute transection injury in the adult rat sciatic nerve.
    Kosins AM, Scholz T, Lin M, Evans GR, Keirstead HS.
    Ann Plast Surg; 2012 Mar; 68(3):290-4. PubMed ID: 22356781
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  • 22. Schwann cells and mesenchymal stem cells in laminin- or fibronectin-aligned matrices and regeneration across a critical size defect of 15 mm in the rat sciatic nerve.
    Gonzalez-Perez F, Hernández J, Heimann C, Phillips JB, Udina E, Navarro X.
    J Neurosurg Spine; 2018 Jan; 28(1):109-118. PubMed ID: 29125428
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  • 23. Regeneration of Rat Sciatic Nerve Using PLGA Conduit Containing Rat ADSCs with Controlled Release of BDNF and Gold Nanoparticles.
    Jahromi M, Razavi S, Seyedebrahimi R, Reisi P, Kazemi M.
    J Mol Neurosci; 2021 Apr; 71(4):746-760. PubMed ID: 33029736
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  • 24. Effect of white adipose tissue flap and insulin-like growth factor-1 on nerve regeneration in rats.
    Kilic A, Ojo B, Rajfer RA, Konopka G, Hagg D, Jang E, Akelina Y, Mao JJ, Rosenwasser MP, Tang P.
    Microsurgery; 2013 Jul; 33(5):367-75. PubMed ID: 23653396
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  • 25. Canine Adipose-Derived Mesenchymal Stromal Cells Enhance Neuroregeneration in a Rat Model of Sciatic Nerve Crush Injury.
    Rodríguez Sánchez DN, de Lima Resende LA, Boff Araujo Pinto G, de Carvalho Bovolato AL, Possebon FS, Deffune E, Amorim RM.
    Cell Transplant; 2019 Jan; 28(1):47-54. PubMed ID: 30369261
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  • 31. Repair and regeneration of lumbosacral nerve defects in rats with chitosan conduits containing bone marrow mesenchymal stem cells.
    Zhu L, Liu T, Cai J, Ma J, Chen AM.
    Injury; 2015 Nov; 46(11):2156-63. PubMed ID: 26429103
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  • 33. Effect of Platelet-Rich Fibrin on Peripheral Nerve Regeneration.
    Şenses F, Önder ME, Koçyiğit ID, Kul O, Aydin G, Inal E, Atil F, Tekin U.
    J Craniofac Surg; 2016 Oct; 27(7):1759-1764. PubMed ID: 27763975
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  • 34. Dual regeneration of muscle and nerve by intravenous administration of human amniotic fluid-derived mesenchymal stem cells regulated by stromal cell-derived factor-1α in a sciatic nerve injury model.
    Yang DY, Sheu ML, Su HL, Cheng FC, Chen YJ, Chen CJ, Chiu WT, Yiin JJ, Sheehan J, Pan HC.
    J Neurosurg; 2012 Jun; 116(6):1357-67. PubMed ID: 22503125
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  • 35. Comparison of beneficial effects of undifferentiated cultured bone marrow stromal cells and omental adipose-derived nucleated cell fractions on sciatic nerve regeneration.
    Mohammadi R, Azizi S, Delirezh N, Hobbenaghi R, Amini K.
    Muscle Nerve; 2011 Feb; 43(2):157-63. PubMed ID: 21254077
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  • 36. Ghrelin and adipose-derived mesenchymal stromal cells improve nerve regeneration in a rat model of epsilon-caprolactone conduit reconstruction.
    Hernández-Cortés P, Toledo-Romero MA, Delgado M, Gonzalez-Rey E, Gómez Sánchez R, Prados-Olleta N, Aneiros-Fernández J, Crespo-Lora V, Aguilar M, Galindo-Moreno P, O'Valle F.
    Histol Histopathol; 2017 Jun; 32(6):627-637. PubMed ID: 27686854
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  • 38. Substrate-mediated nanoparticle/gene delivery to MSC spheroids and their applications in peripheral nerve regeneration.
    Tseng TC, Hsu SH.
    Biomaterials; 2014 Mar; 35(9):2630-41. PubMed ID: 24388817
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  • 40. Tissue-engineered conduit promotes sciatic nerve regeneration following radiation-induced injury as monitored by magnetic resonance imaging.
    Liao C, Zheng R, Wei C, Yan J, Ding Y, Wang G, Li Z, Zhang Z.
    Magn Reson Imaging; 2016 May; 34(4):515-23. PubMed ID: 26686023
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