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Journal Abstract Search

373 related items for PubMed ID: 31195187

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  • 3. Cold atmospheric plasma (CAP)-modified and bioactive protein-loaded core-shell nanofibers for bone tissue engineering applications.
    Wang M, Zhou Y, Shi D, Chang R, Zhang J, Keidar M, Webster TJ.
    Biomater Sci; 2019 May 28; 7(6):2430-2439. PubMed ID: 30933194
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  • 4. Fabrication and characterization of Mg/P(LLA-CL)-blended nanofiber scaffold.
    Li H, Wu T, Zheng Y, El-Hamshary H, Al-Deyab SS, Mo X.
    J Biomater Sci Polym Ed; 2014 Jul 28; 25(10):1013-27. PubMed ID: 24894635
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  • 5. Evaluation of the potential of kartogenin encapsulated poly(L-lactic acid-co-caprolactone)/collagen nanofibers for tracheal cartilage regeneration.
    Yin H, Wang J, Gu Z, Feng W, Gao M, Wu Y, Zheng H, He X, Mo X.
    J Biomater Appl; 2017 Sep 28; 32(3):331-341. PubMed ID: 28658997
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  • 6. Stem cell differentiation to epidermal lineages on electrospun nanofibrous substrates for skin tissue engineering.
    Jin G, Prabhakaran MP, Ramakrishna S.
    Acta Biomater; 2011 Aug 28; 7(8):3113-22. PubMed ID: 21550425
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  • 7. Fabrication and Characterization of Core-Shell Nanofibers Using a Next-Generation Airbrush for Biomedical Applications.
    Singh R, Ahmed F, Polley P, Giri J.
    ACS Appl Mater Interfaces; 2018 Dec 12; 10(49):41924-41934. PubMed ID: 30433758
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  • 8. Silk fibroin H-fibroin/poly(ε-caprolactone) core-shell nanofibers with enhanced mechanical property and long-term drug release.
    Wang Z, Song X, Cui Y, Cheng K, Tian X, Dong M, Liu L.
    J Colloid Interface Sci; 2021 Jul 12; 593():142-151. PubMed ID: 33744525
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  • 9. Kartogenin-loaded coaxial PGS/PCL aligned nanofibers for cartilage tissue engineering.
    Silva JC, Udangawa RN, Chen J, Mancinelli CD, Garrudo FFF, Mikael PE, Cabral JMS, Ferreira FC, Linhardt RJ.
    Mater Sci Eng C Mater Biol Appl; 2020 Feb 12; 107():110291. PubMed ID: 31761240
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  • 11. Scaffolding for challenging environments: materials selection for tissue engineered intestine.
    Boomer L, Liu Y, Mahler N, Johnson J, Zak K, Nelson T, Lannutti J, Besner GE.
    J Biomed Mater Res A; 2014 Nov 12; 102(11):3795-802. PubMed ID: 24288210
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  • 12. Preparation, characterization and in vitro analysis of novel structured nanofibrous scaffolds for bone tissue engineering.
    Wang J, Yu X.
    Acta Biomater; 2010 Aug 12; 6(8):3004-12. PubMed ID: 20144749
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  • 13. Heparinized PLLA/PLCL nanofibrous scaffold for potential engineering of small-diameter blood vessel: tunable elasticity and anticoagulation property.
    Wang W, Hu J, He C, Nie W, Feng W, Qiu K, Zhou X, Gao Y, Wang G.
    J Biomed Mater Res A; 2015 May 12; 103(5):1784-97. PubMed ID: 25196988
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  • 16. Controlled release of bone morphogenetic protein 2 and dexamethasone loaded in core-shell PLLACL-collagen fibers for use in bone tissue engineering.
    Su Y, Su Q, Liu W, Lim M, Venugopal JR, Mo X, Ramakrishna S, Al-Deyab SS, El-Newehy M.
    Acta Biomater; 2012 Feb 12; 8(2):763-71. PubMed ID: 22100346
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  • 18. Effect of nanofiber content on bone regeneration of silk fibroin/poly(ε-caprolactone) nano/microfibrous composite scaffolds.
    Kim BS, Park KE, Kim MH, You HK, Lee J, Park WH.
    Int J Nanomedicine; 2015 Feb 12; 10():485-502. PubMed ID: 25624762
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  • 19. The fabrication of double layer tubular vascular tissue engineering scaffold via coaxial electrospinning and its 3D cell coculture.
    Ye L, Cao J, Chen L, Geng X, Zhang AY, Guo LR, Gu YQ, Feng ZG.
    J Biomed Mater Res A; 2015 Dec 12; 103(12):3863-71. PubMed ID: 26123627
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  • 20. Sorbitan monooleate and poly(L-lactide-co-epsilon-caprolactone) electrospun nanofibers for endothelial cell interactions.
    Li X, Su Y, He C, Wang H, Fong H, Mo X.
    J Biomed Mater Res A; 2009 Dec 12; 91(3):878-85. PubMed ID: 19065570
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