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Journal Abstract Search

301 related items for PubMed ID: 24731714

  • 1. 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
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  • 5. Matrix-guided control of mitochondrial function in cardiac myocytes.
    Lyra-Leite DM, Andres AM, Cho N, Petersen AP, Ariyasinghe NR, Kim SS, Gottlieb RA, McCain ML.
    Acta Biomater; 2019 Oct 01; 97():281-295. PubMed ID: 31401347
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  • 6. PGS:Gelatin nanofibrous scaffolds with tunable mechanical and structural properties for engineering cardiac tissues.
    Kharaziha M, Nikkhah M, Shin SR, Annabi N, Masoumi N, Gaharwar AK, Camci-Unal G, Khademhosseini A.
    Biomaterials; 2013 Sep 01; 34(27):6355-66. PubMed ID: 23747008
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  • 7. Nanoparticle-Based Hybrid Scaffolds for Deciphering the Role of Multimodal Cues in Cardiac Tissue Engineering.
    Lee J, Manoharan V, Cheung L, Lee S, Cha BH, Newman P, Farzad R, Mehrotra S, Zhang K, Khan F, Ghaderi M, Lin YD, Aftab S, Mostafalu P, Miscuglio M, Li J, Mandal BB, Hussain MA, Wan KT, Tang XS, Khademhosseini A, Shin SR.
    ACS Nano; 2019 Nov 26; 13(11):12525-12539. PubMed ID: 31621284
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  • 8. Mechanically Biomimetic Gelatin-Gellan Gum Hydrogels for 3D Culture of Beating Human Cardiomyocytes.
    Koivisto JT, Gering C, Karvinen J, Maria Cherian R, Belay B, Hyttinen J, Aalto-Setälä K, Kellomäki M, Parraga J.
    ACS Appl Mater Interfaces; 2019 Jun 12; 11(23):20589-20602. PubMed ID: 31120238
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  • 9. Automated fabrication of photopatterned gelatin hydrogels for organ-on-chips applications.
    Nawroth JC, Scudder LL, Halvorson RT, Tresback J, Ferrier JP, Sheehy SP, Cho A, Kannan S, Sunyovszki I, Goss JA, Campbell PH, Parker KK.
    Biofabrication; 2018 Jan 16; 10(2):025004. PubMed ID: 29337695
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  • 10. Development of Electrically Conductive Double-Network Hydrogels via One-Step Facile Strategy for Cardiac Tissue Engineering.
    Yang B, Yao F, Hao T, Fang W, Ye L, Zhang Y, Wang Y, Li J, Wang C.
    Adv Healthc Mater; 2016 Feb 18; 5(4):474-88. PubMed ID: 26626543
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  • 11. Reprogramming cardiomyocyte mechanosensing by crosstalk between integrins and hyaluronic acid receptors.
    Chopra A, Lin V, McCollough A, Atzet S, Prestwich GD, Wechsler AS, Murray ME, Oake SA, Kresh JY, Janmey PA.
    J Biomech; 2012 Mar 15; 45(5):824-31. PubMed ID: 22196970
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  • 12. Hydrogel derived from porcine decellularized nerve tissue as a promising biomaterial for repairing peripheral nerve defects.
    Lin T, Liu S, Chen S, Qiu S, Rao Z, Liu J, Zhu S, Yan L, Mao H, Zhu Q, Quan D, Liu X.
    Acta Biomater; 2018 Jun 15; 73():326-338. PubMed ID: 29649641
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  • 13. Prolonged Culture of Aligned Skeletal Myotubes on Micromolded Gelatin Hydrogels.
    Bettadapur A, Suh GC, Geisse NA, Wang ER, Hua C, Huber HA, Viscio AA, Kim JY, Strickland JB, McCain ML.
    Sci Rep; 2016 Jun 28; 6():28855. PubMed ID: 27350122
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  • 14. Carbon-nanotube-embedded hydrogel sheets for engineering cardiac constructs and bioactuators.
    Shin SR, Jung SM, Zalabany M, Kim K, Zorlutuna P, Kim SB, Nikkhah M, Khabiry M, Azize M, Kong J, Wan KT, Palacios T, Dokmeci MR, Bae H, Tang XS, Khademhosseini A.
    ACS Nano; 2013 Mar 26; 7(3):2369-80. PubMed ID: 23363247
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