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Journal Abstract Search

505 related items for PubMed ID: 26975531

  • 1. The role of nerve inflammation and exogenous iron load in experimental peripheral diabetic neuropathy (PDN).
    Baum P, Kosacka J, Estrela-Lopis I, Woidt K, Serke H, Paeschke S, Stockinger M, Klöting N, Blüher M, Dorn M, Classen J, Thiery J, Bechmann I, Toyka KV, Nowicki M.
    Metabolism; 2016 Apr; 65(4):391-405. PubMed ID: 26975531
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  • 2. The role of dietary non-heme iron load and peripheral nerve inflammation in the development of peripheral neuropathy (PN) in obese non-diabetic leptin-deficient ob/ob mice.
    Kosacka J, Woidt K, Toyka KV, Paeschke S, Klöting N, Bechmann I, Blüher M, Thiery J, Ossmann S, Baum P, Nowicki M.
    Neurol Res; 2019 Apr; 41(4):341-353. PubMed ID: 30638160
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  • 3. The Role of Iron and Nerve Inflammation in Diabetes Mellitus Type 2-Induced Peripheral Neuropathy.
    Paeschke S, Baum P, Toyka KV, Blüher M, Koj S, Klöting N, Bechmann I, Thiery J, Kosacka J, Nowicki M.
    Neuroscience; 2019 May 15; 406():496-509. PubMed ID: 30867132
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  • 4. The leptin-deficient (ob/ob) mouse: a new animal model of peripheral neuropathy of type 2 diabetes and obesity.
    Drel VR, Mashtalir N, Ilnytska O, Shin J, Li F, Lyzogubov VV, Obrosova IG.
    Diabetes; 2006 Dec 15; 55(12):3335-43. PubMed ID: 17130477
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  • 5. p75 neurotrophin receptor induction and macrophage infiltration in peripheral nerve during experimental diabetic neuropathy: possible relevance on regeneration.
    Conti G, Stoll G, Scarpini E, Baron PL, Bianchi R, Livraghi S, Scarlato G.
    Exp Neurol; 1997 Jul 15; 146(1):206-11. PubMed ID: 9225754
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  • 6. Transplantation of dental pulp stem cells improves long-term diabetic polyneuropathy together with improvement of nerve morphometrical evaluation.
    Omi M, Hata M, Nakamura N, Miyabe M, Ozawa S, Nukada H, Tsukamoto M, Sango K, Himeno T, Kamiya H, Nakamura J, Takebe J, Matsubara T, Naruse K.
    Stem Cell Res Ther; 2017 Dec 13; 8(1):279. PubMed ID: 29237486
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  • 7. Treatment with Actovegin® improves sensory nerve function and pathology in streptozotocin-diabetic rats via mechanisms involving inhibition of PARP activation.
    Dieckmann A, Kriebel M, Andriambeloson E, Ziegler D, Elmlinger M.
    Exp Clin Endocrinol Diabetes; 2012 Mar 13; 120(3):132-8. PubMed ID: 22020669
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  • 8. Establishment of a rat model of type II diabetic neuropathic pain.
    Dang JK, Wu Y, Cao H, Meng B, Huang CC, Chen G, Li J, Song XJ, Lian QQ.
    Pain Med; 2014 Apr 13; 15(4):637-46. PubMed ID: 24716590
    [Abstract] [Full Text] [Related]

  • 9. The TRPV1 receptor is associated with preferential stress in large dorsal root ganglion neurons in early diabetic sensory neuropathy.
    Hong S, Agresta L, Guo C, Wiley JW.
    J Neurochem; 2008 May 13; 105(4):1212-22. PubMed ID: 18182051
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  • 12. Reduced epidermal thickness, nerve degeneration and increased pain-related behavior in rats with diabetes type 1 and 2.
    Boric M, Skopljanac I, Ferhatovic L, Jelicic Kadic A, Banozic A, Puljak L.
    J Chem Neuroanat; 2013 Nov 13; 53():33-40. PubMed ID: 24126225
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  • 17. Thirteen-month inhibition of aldose reductase by zenarestat prevents morphological abnormalities in the dorsal root ganglia of streptozotocin-induced diabetic rats.
    Shimoshige Y, Minoura K, Matsuoka N, Takakura S, Mutoh S, Kamijo M.
    Brain Res; 2009 Jan 09; 1247():182-7. PubMed ID: 18992730
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  • 18. Nerve conduction changes and fine structural alterations of extra- and intrafusal muscle and nerve fibers in streptozotocin diabetic rats.
    Weis J, Dimpfel W, Schröder JM.
    Muscle Nerve; 1995 Feb 09; 18(2):175-84. PubMed ID: 7823975
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