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Journal Abstract Search

1119 related items for PubMed ID: 25634491

  • 1. Comparison of 2D- and 3D-culture models as drug-testing platforms in breast cancer.
    Imamura Y, Mukohara T, Shimono Y, Funakoshi Y, Chayahara N, Toyoda M, Kiyota N, Takao S, Kono S, Nakatsura T, Minami H.
    Oncol Rep; 2015 Apr; 33(4):1837-43. PubMed ID: 25634491
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  • 2. Cytotoxic and molecular differences of anticancer agents on 2D and 3D cell culture.
    Alwahsh M, Al-Doridee A, Jasim S, Awwad O, Hergenröder R, Hamadneh L.
    Mol Biol Rep; 2024 Jun 03; 51(1):721. PubMed ID: 38829450
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  • 3. Application of a fluorescence resonance energy transfer (FRET)-based biosensor for detection of drug-induced apoptosis in a 3D breast tumor model.
    Anand P, Fu A, Teoh SH, Luo KQ.
    Biotechnol Bioeng; 2015 Aug 03; 112(8):1673-82. PubMed ID: 25728592
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  • 4. The relevance of using 3D cell cultures, in addition to 2D monolayer cultures, when evaluating breast cancer drug sensitivity and resistance.
    Breslin S, O'Driscoll L.
    Oncotarget; 2016 Jul 19; 7(29):45745-45756. PubMed ID: 27304190
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  • 5. A three-dimensional microenvironment alters protein expression and chemosensitivity of epithelial ovarian cancer cells in vitro.
    Lee JM, Mhawech-Fauceglia P, Lee N, Parsanian LC, Lin YG, Gayther SA, Lawrenson K.
    Lab Invest; 2013 May 19; 93(5):528-42. PubMed ID: 23459371
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  • 7. Establishment of 2D Cell Cultures Derived From 3D MCF-7 Spheroids Displaying a Doxorubicin Resistant Profile.
    Nunes AS, Costa EC, Barros AS, de Melo-Diogo D, Correia IJ.
    Biotechnol J; 2019 Apr 19; 14(4):e1800268. PubMed ID: 30242980
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  • 11. 3D Culture Represents Apoptosis Induced by Trastuzumab Better than 2D Monolayer Culture.
    Tatara T, Mukohara T, Tanaka R, Shimono Y, Funakoshi Y, Imamura Y, Toyoda M, Kiyota N, Hirai M, Kakeji Y, Minami H.
    Anticancer Res; 2018 May 19; 38(5):2831-2839. PubMed ID: 29715106
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  • 12. High-throughput screening with nanoimprinting 3D culture for efficient drug development by mimicking the tumor environment.
    Yoshii Y, Furukawa T, Waki A, Okuyama H, Inoue M, Itoh M, Zhang MR, Wakizaka H, Sogawa C, Kiyono Y, Yoshii H, Fujibayashi Y, Saga T.
    Biomaterials; 2015 May 19; 51():278-289. PubMed ID: 25771018
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  • 14. Three dimensional spheroid cell culture for nanoparticle safety testing.
    Sambale F, Lavrentieva A, Stahl F, Blume C, Stiesch M, Kasper C, Bahnemann D, Scheper T.
    J Biotechnol; 2015 Jul 10; 205():120-9. PubMed ID: 25595712
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  • 16. Three dimensional cultivation increases chemo- and radioresistance of colorectal cancer cell lines.
    Koch J, Mönch D, Maaß A, Gromoll C, Hehr T, Leibold T, Schlitt HJ, Dahlke MH, Renner P.
    PLoS One; 2021 Jul 10; 16(1):e0244513. PubMed ID: 33395433
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  • 17. 3-Dimensional culture systems for anti-cancer compound profiling and high-throughput screening reveal increases in EGFR inhibitor-mediated cytotoxicity compared to monolayer culture systems.
    Howes AL, Richardson RD, Finlay D, Vuori K.
    PLoS One; 2014 Jul 10; 9(9):e108283. PubMed ID: 25247711
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  • 18. [Biological behavior of prostate cancer cells in 3D culture systems].
    Watanabe M, Takagi A.
    Yakugaku Zasshi; 2008 Jan 10; 128(1):37-44. PubMed ID: 18176054
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  • 19. Differences in drug sensitivity between two-dimensional and three-dimensional culture systems in triple-negative breast cancer cell lines.
    Muguruma M, Teraoka S, Miyahara K, Ueda A, Asaoka M, Okazaki M, Kawate T, Kuroda M, Miyagi Y, Ishikawa T.
    Biochem Biophys Res Commun; 2020 Dec 10; 533(3):268-274. PubMed ID: 32958246
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  • 20. Bioengineered 3D platform to explore cell-ECM interactions and drug resistance of epithelial ovarian cancer cells.
    Loessner D, Stok KS, Lutolf MP, Hutmacher DW, Clements JA, Rizzi SC.
    Biomaterials; 2010 Nov 10; 31(32):8494-506. PubMed ID: 20709389
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