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Journal Abstract Search

445 related items for PubMed ID: 25173880

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  • 3. Pancreatic insulin-producing cells differentiated from human embryonic stem cells correct hyperglycemia in SCID/NOD mice, an animal model of diabetes.
    Hua XF, Wang YW, Tang YX, Yu SQ, Jin SH, Meng XM, Li HF, Liu FJ, Sun Q, Wang HY, Li JY.
    PLoS One; 2014; 9(7):e102198. PubMed ID: 25009980
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  • 7. Role of adipose tissue derived stem cells differentiated into insulin producing cells in the treatment of type I diabetes mellitus.
    Amer MG, Embaby AS, Karam RA, Amer MG.
    Gene; 2018 May 15; 654():87-94. PubMed ID: 29452233
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  • 8. In Vitro Differentiation of Pluripotent Stem Cells into Functional β Islets Under 2D and 3D Culture Conditions and In Vivo Preclinical Validation of 3D Islets.
    Bose B, Sudheer PS.
    Methods Mol Biol; 2016 May 15; 1341():257-84. PubMed ID: 25783769
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  • 10. Insulin-producing cells from adult human bone marrow mesenchymal stem cells control streptozotocin-induced diabetes in nude mice.
    Gabr MM, Zakaria MM, Refaie AF, Ismail AM, Abou-El-Mahasen MA, Ashamallah SA, Khater SM, El-Halawani SM, Ibrahim RY, Uin GS, Kloc M, Calne RY, Ghoneim MA.
    Cell Transplant; 2013 May 15; 22(1):133-45. PubMed ID: 22710060
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  • 11. Spontaneous in vivo differentiation of embryonic stem cell-derived pancreatic endoderm-like cells corrects hyperglycemia in diabetic mice.
    Raikwar SP, Zavazava N.
    Transplantation; 2011 Jan 15; 91(1):11-20. PubMed ID: 21452407
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  • 12. Lessons from Human Islet Transplantation Inform Stem Cell-Based Approaches in the Treatment of Diabetes.
    Triolo TM, Bellin MD.
    Front Endocrinol (Lausanne); 2021 Jan 15; 12():636824. PubMed ID: 33776933
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  • 13. Pancreatic islet-like clusters from bone marrow mesenchymal stem cells of human first-trimester abortus can cure streptozocin-induced mouse diabetes.
    Zhang Y, Shen W, Hua J, Lei A, Lv C, Wang H, Yang C, Gao Z, Dou Z.
    Rejuvenation Res; 2010 Dec 15; 13(6):695-706. PubMed ID: 21204652
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  • 14. Insulin-producing cells derived from human embryonic stem cells: comparison of definitive endoderm- and nestin-positive progenitor-based differentiation strategies.
    Wei R, Yang J, Hou W, Liu G, Gao M, Zhang L, Wang H, Mao G, Gao H, Chen G, Hong T.
    PLoS One; 2013 Dec 15; 8(8):e72513. PubMed ID: 23951327
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  • 15. In vitro generation of pancreatic endocrine cells from human adult fibroblast-like limbal stem cells.
    Criscimanna A, Zito G, Taddeo A, Richiusa P, Pitrone M, Morreale D, Lodato G, Pizzolanti G, Citarrella R, Galluzzo A, Giordano C.
    Cell Transplant; 2012 Dec 15; 21(1):73-90. PubMed ID: 21669045
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  • 17. Generation of insulin-producing cells from pluripotent stem cells: from the selection of cell sources to the optimization of protocols.
    Liew CG.
    Rev Diabet Stud; 2010 Dec 15; 7(2):82-92. PubMed ID: 21060967
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  • 18. [Feasibility of bone marrow mesenchymal stem cells differentiation in diabetic pancreatic microenvironment].
    Xie H, Chang C, Jiang J, Li Q, Qi H, Deng C, Li F.
    Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi; 2011 May 15; 25(5):597-601. PubMed ID: 21675121
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  • 19. Differentiation of mouse embryonic stem cells into endoderm without embryoid body formation.
    Kim PT, Hoffman BG, Plesner A, Helgason CD, Verchere CB, Chung SW, Warnock GL, Mui AL, Ong CJ.
    PLoS One; 2010 Nov 30; 5(11):e14146. PubMed ID: 21152387
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  • 20. Generation of insulin-producing islet-like clusters from human embryonic stem cells.
    Jiang J, Au M, Lu K, Eshpeter A, Korbutt G, Fisk G, Majumdar AS.
    Stem Cells; 2007 Aug 30; 25(8):1940-53. PubMed ID: 17510217
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