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Journal Abstract Search

286 related items for PubMed ID: 29025637

  • 1.
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  • 2. Fabrication of PU/PEGMA crosslinked hybrid scaffolds by in situ UV photopolymerization favoring human endothelial cells growth for vascular tissue engineering.
    Wang H, Feng Y, An B, Zhang W, Sun M, Fang Z, Yuan W, Khan M.
    J Mater Sci Mater Med; 2012 Jun; 23(6):1499-510. PubMed ID: 22430593
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  • 3. Electrospun polyurethane/hydroxyapatite bioactive scaffolds for bone tissue engineering: the role of solvent and hydroxyapatite particles.
    Tetteh G, Khan AS, Delaine-Smith RM, Reilly GC, Rehman IU.
    J Mech Behav Biomed Mater; 2014 Nov; 39():95-110. PubMed ID: 25117379
    [Abstract] [Full Text] [Related]

  • 4. [Synthesis, characterization and electrospinning of biodegradable polyurethanes based on poly(epsilon-caprolactone) and L-lysine diisocynate].
    Han J, Ye L, Zhang A, Feng Z.
    Sheng Wu Yi Xue Gong Cheng Xue Za Zhi; 2010 Dec; 27(6):1274-9. PubMed ID: 21374978
    [Abstract] [Full Text] [Related]

  • 5. Fabrication and characterization of a novel compliant small-diameter PET/PU/PCL triad-hybrid vascular graft.
    Jirofti N, Mohebbi-Kalhori D, Samimi A, Hadjizadeh A, Kazemzadeh GH.
    Biomed Mater; 2020 Jul 15; 15(5):055004. PubMed ID: 32259799
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  • 7. Manipulating the structure and mechanical properties of thermoplastic polyurethane/polycaprolactone hybrid small diameter vascular scaffolds fabricated via electrospinning using an assembled rotating collector.
    Mi HY, Jing X, Yu E, Wang X, Li Q, Turng LS.
    J Mech Behav Biomed Mater; 2018 Feb 15; 78():433-441. PubMed ID: 29227904
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  • 9. Towards compliant small-diameter vascular grafts: Predictive analytical model and experiments.
    Bouchet M, Gauthier M, Maire M, Ajji A, Lerouge S.
    Mater Sci Eng C Mater Biol Appl; 2019 Jul 15; 100():715-723. PubMed ID: 30948109
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  • 12. The use of thermal treatments to enhance the mechanical properties of electrospun poly(epsilon-caprolactone) scaffolds.
    Lee SJ, Oh SH, Liu J, Soker S, Atala A, Yoo JJ.
    Biomaterials; 2008 Apr 15; 29(10):1422-30. PubMed ID: 18096219
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  • 13.
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  • 14. Fabrication of electrospun thermoplastic polyurethane blended poly (l-lactide-co-e-caprolactone) microyarn scaffolds for engineering of female pelvic-floor tissue.
    Hou M, Wu Q, Dai M, Xu P, Gu C, Jia X, Feng J, Mo X.
    Biomed Mater; 2014 Dec 29; 10(1):015005. PubMed ID: 25546879
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  • 16. Preparation of collagen/polyurethane/knitted silk as a composite scaffold for tendon tissue engineering.
    Sharifi-Aghdam M, Faridi-Majidi R, Derakhshan MA, Chegeni A, Azami M.
    Proc Inst Mech Eng H; 2017 Jul 29; 231(7):652-662. PubMed ID: 28347205
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  • 18. Composite elastomeric polyurethane scaffolds incorporating small intestinal submucosa for soft tissue engineering.
    Da L, Gong M, Chen A, Zhang Y, Huang Y, Guo Z, Li S, Li-Ling J, Zhang L, Xie H.
    Acta Biomater; 2017 Sep 01; 59():45-57. PubMed ID: 28528117
    [Abstract] [Full Text] [Related]

  • 19. Microstructure-dependent mechanical properties of electrospun core-shell scaffolds at multi-scale levels.
    Horner CB, Ico G, Johnson J, Zhao Y, Nam J.
    J Mech Behav Biomed Mater; 2016 Jun 01; 59():207-219. PubMed ID: 26774618
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  • 20. Electrospun biodegradable chitosan based-poly(urethane urea) scaffolds for soft tissue engineering.
    Vieira T, Carvalho Silva J, Botelho do Rego AM, Borges JP, Henriques C.
    Mater Sci Eng C Mater Biol Appl; 2019 Oct 01; 103():109819. PubMed ID: 31349414
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