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Journal Abstract Search

263 related items for PubMed ID: 31621284

  • 1. 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
    [Abstract] [Full Text] [Related]

  • 2. Reduced Graphene Oxide-GelMA Hybrid Hydrogels as Scaffolds for Cardiac Tissue Engineering.
    Shin SR, Zihlmann C, Akbari M, Assawes P, Cheung L, Zhang K, Manoharan V, Zhang YS, Yüksekkaya M, Wan KT, Nikkhah M, Dokmeci MR, Tang XS, Khademhosseini A.
    Small; 2016 Jul 26; 12(27):3677-89. PubMed ID: 27254107
    [Abstract] [Full Text] [Related]

  • 3. Hybrid hydrogel-aligned carbon nanotube scaffolds to enhance cardiac differentiation of embryoid bodies.
    Ahadian S, Yamada S, Ramón-Azcón J, Estili M, Liang X, Nakajima K, Shiku H, Khademhosseini A, Matsue T.
    Acta Biomater; 2016 Feb 26; 31():134-143. PubMed ID: 26621696
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  • 4. 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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  • 6. Moldable elastomeric polyester-carbon nanotube scaffolds for cardiac tissue engineering.
    Ahadian S, Davenport Huyer L, Estili M, Yee B, Smith N, Xu Z, Sun Y, Radisic M.
    Acta Biomater; 2017 Apr 01; 52():81-91. PubMed ID: 27940161
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  • 7. Gold nanorod-incorporated gelatin-based conductive hydrogels for engineering cardiac tissue constructs.
    Navaei A, Saini H, Christenson W, Sullivan RT, Ros R, Nikkhah M.
    Acta Biomater; 2016 Sep 01; 41():133-46. PubMed ID: 27212425
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  • 10. Synthesis, properties, and biomedical applications of gelatin methacryloyl (GelMA) hydrogels.
    Yue K, Trujillo-de Santiago G, Alvarez MM, Tamayol A, Annabi N, Khademhosseini A.
    Biomaterials; 2015 Dec 01; 73():254-71. PubMed ID: 26414409
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  • 12. Carbon nanotube scaffolds as emerging nanoplatform for myocardial tissue regeneration: A review of recent developments and therapeutic implications.
    Gorain B, Choudhury H, Pandey M, Kesharwani P, Abeer MM, Tekade RK, Hussain Z.
    Biomed Pharmacother; 2018 Aug 01; 104():496-508. PubMed ID: 29800914
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  • 14. Interwoven Aligned Conductive Nanofiber Yarn/Hydrogel Composite Scaffolds for Engineered 3D Cardiac Anisotropy.
    Wu Y, Wang L, Guo B, Ma PX.
    ACS Nano; 2017 Jun 27; 11(6):5646-5659. PubMed ID: 28590127
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  • 16. High-aspect-ratio water-dispersed gold nanowires incorporated within gelatin methacrylate hydrogels for constructing cardiac tissues in vitro.
    Li XP, Qu KY, Zhang F, Jiang HN, Zhang N, Nihad C, Liu CM, Wu KH, Wang XW, Huang NP.
    J Mater Chem B; 2020 Aug 19; 8(32):7213-7224. PubMed ID: 32638823
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  • 19. Nanomaterials-combined methacrylated gelatin hydrogels (GelMA) for cardiac tissue constructs.
    Lisboa ES, Serafim C, Santana W, Dos Santos VLS, de Albuquerque-Junior RLC, Chaud MV, Cardoso JC, Jain S, Severino P, Souto EB.
    J Control Release; 2024 Jan 19; 365():617-639. PubMed ID: 38043727
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  • 20. Regulation of the fate of dental-derived mesenchymal stem cells using engineered alginate-GelMA hydrogels.
    Ansari S, Sarrion P, Hasani-Sadrabadi MM, Aghaloo T, Wu BM, Moshaverinia A.
    J Biomed Mater Res A; 2017 Nov 19; 105(11):2957-2967. PubMed ID: 28639378
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