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Journal Abstract Search

388 related items for PubMed ID: 27350122

  • 21. Photolithographic patterning of C2C12 myotubes using vitronectin as growth substrate in serum-free medium.
    Molnar P, Wang W, Natarajan A, Rumsey JW, Hickman JJ.
    Biotechnol Prog; 2007; 23(1):265-8. PubMed ID: 17269697
    [Abstract] [Full Text] [Related]

  • 22. Micromolded gelatin hydrogels for extended culture of engineered cardiac tissues.
    McCain ML, Agarwal A, Nesmith HW, Nesmith AP, Parker KK.
    Biomaterials; 2014 Jul; 35(21):5462-71. PubMed ID: 24731714
    [Abstract] [Full Text] [Related]

  • 23. Alignment of skeletal muscle myoblasts and myotubes using linear micropatterned surfaces ground with abrasives.
    Shimizu K, Fujita H, Nagamori E.
    Biotechnol Bioeng; 2009 Jun 15; 103(3):631-8. PubMed ID: 19189396
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  • 24. Micropatterning of single myotubes on a thermoresponsive culture surface using elastic stencil membranes for single-cell analysis.
    Shimizu K, Fujita H, Nagamori E.
    J Biosci Bioeng; 2010 Feb 15; 109(2):174-8. PubMed ID: 20129103
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  • 27. Comparison of selective attachment and growth of smooth muscle cells on gelatin- and fibronectin-coated micropatterns.
    Li M, Cui T, Mills DK, Lvov YM, McShane MJ.
    J Nanosci Nanotechnol; 2005 Nov 15; 5(11):1809-15. PubMed ID: 16433414
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  • 29. Directional topography gradients drive optimum alignment and differentiation of human myoblasts.
    Almonacid Suarez AM, Zhou Q, van Rijn P, Harmsen MC.
    J Tissue Eng Regen Med; 2019 Dec 15; 13(12):2234-2245. PubMed ID: 31677226
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  • 31. Patterning the differentiation of C2C12 skeletal myoblasts.
    Bajaj P, Reddy B, Millet L, Wei C, Zorlutuna P, Bao G, Bashir R.
    Integr Biol (Camb); 2011 Sep 15; 3(9):897-909. PubMed ID: 21842084
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  • 33. Combined substrate micropatterning and FFT analysis reveals myotube size control and alignment by contact guidance.
    Vajanthri KY, Sidu RK, Poddar S, Singh AK, Mahto SK.
    Cytoskeleton (Hoboken); 2019 Mar 15; 76(3):269-285. PubMed ID: 31074945
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  • 35. A novel bioreactor for the generation of highly aligned 3D skeletal muscle-like constructs through orientation of fibrin via application of static strain.
    Heher P, Maleiner B, Prüller J, Teuschl AH, Kollmitzer J, Monforte X, Wolbank S, Redl H, Rünzler D, Fuchs C.
    Acta Biomater; 2015 Sep 15; 24():251-65. PubMed ID: 26141153
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  • 36. Protein-coated poly(L-lactic acid) fibers provide a substrate for differentiation of human skeletal muscle cells.
    Cronin EM, Thurmond FA, Bassel-Duby R, Williams RS, Wright WE, Nelson KD, Garner HR.
    J Biomed Mater Res A; 2004 Jun 01; 69(3):373-81. PubMed ID: 15127383
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  • 37. Role and mechanism of catechin in skeletal muscle cell differentiation.
    Li P, Liu A, Liu C, Qu Z, Xiao W, Huang J, Liu Z, Zhang S.
    J Nutr Biochem; 2019 Dec 01; 74():108225. PubMed ID: 31629963
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  • 38. Micropatterned polyelectrolyte nanofilms promote alignment and myogenic differentiation of C2C12 cells in standard growth media.
    Palamà IE, D'Amone S, Coluccia AM, Gigli G.
    Biotechnol Bioeng; 2013 Feb 01; 110(2):586-96. PubMed ID: 22886558
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  • 39. Regulation of skeletal myotube formation and alignment by nanotopographically controlled cell-secreted extracellular matrix.
    Jiao A, Moerk CT, Penland N, Perla M, Kim J, Smith AST, Murry CE, Kim DH.
    J Biomed Mater Res A; 2018 Jun 01; 106(6):1543-1551. PubMed ID: 29368451
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