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Journal Abstract Search

429 related items for PubMed ID: 28178904

  • 1. Cit/CuS@Fe3O4-based and enzyme-responsive magnetic nanoparticles for tumor chemotherapy, photothermal, and photodynamic therapy.
    Zhu X, Huang H, Zhang Y, Zhang H, Hou L, Zhang Z.
    J Biomater Appl; 2017 Feb; 31(7):1010-1025. PubMed ID: 28178904
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  • 2. Thermosensitive drug-loading system based on copper sulfide nanoparticles for combined photothermal therapy and chemotherapy in vivo.
    Yuan Z, Qu S, He Y, Xu Y, Liang L, Zhou X, Gui L, Gu Y, Chen H.
    Biomater Sci; 2018 Nov 20; 6(12):3219-3230. PubMed ID: 30255863
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  • 4. Multifunctional PEG-GO/CuS nanocomposites for near-infrared chemo-photothermal therapy.
    Bai J, Liu Y, Jiang X.
    Biomaterials; 2014 Jul 20; 35(22):5805-13. PubMed ID: 24767788
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  • 6. Fe3O4@mSiO2-FA-CuS-PEG nanocomposites for magnetic resonance imaging and targeted chemo-photothermal synergistic therapy of cancer cells.
    Gao Z, Liu X, Deng G, Zhou F, Zhang L, Wang Q, Lu J.
    Dalton Trans; 2016 Sep 14; 45(34):13456-65. PubMed ID: 27493065
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  • 7. Tumor-targeted and multi-stimuli responsive drug delivery system for near-infrared light induced chemo-phototherapy and photoacoustic tomography.
    Feng Q, Zhang Y, Zhang W, Shan X, Yuan Y, Zhang H, Hou L, Zhang Z.
    Acta Biomater; 2016 Jul 01; 38():129-42. PubMed ID: 27090593
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  • 8. In vitro and in vivo chemo-phototherapy of magnetic TiO2 drug delivery system formed by pH-sensitive coordination bond.
    Zhang H, Ji Y, Chen Q, Zhu X, Zhang X, Tan Z, Tian Q, Yang X, Zhang Z.
    J Biomater Appl; 2016 Oct 01; 31(4):568-581. PubMed ID: 27334128
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  • 14. Resonance Energy Transfer-Promoted Photothermal and Photodynamic Performance of Gold-Copper Sulfide Yolk-Shell Nanoparticles for Chemophototherapy of Cancer.
    Chang Y, Cheng Y, Feng Y, Jian H, Wang L, Ma X, Li X, Zhang H.
    Nano Lett; 2018 Feb 14; 18(2):886-897. PubMed ID: 29323915
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  • 15. A new NIR-triggered doxorubicin and photosensitizer indocyanine green co-delivery system for enhanced multidrug resistant cancer treatment through simultaneous chemo/photothermal/photodynamic therapy.
    Yu Y, Zhang Z, Wang Y, Zhu H, Li F, Shen Y, Guo S.
    Acta Biomater; 2017 Sep 01; 59():170-180. PubMed ID: 28629893
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  • 16. ROS-Responsive Nanoprobes for Bimodal Imaging-Guided Cancer Targeted Combinatorial Therapy.
    Jiang F, Liu S, Wang L, Chen H, Huang Y, Cao Y, Wang X, Lin M, Zhang J.
    Int J Nanomedicine; 2024 Sep 01; 19():8071-8090. PubMed ID: 39130685
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  • 17. Improving Chemotherapy Effectiveness: Utilizing CuS Nanoparticles Coated with AS1411 Aptamer and Chitosan for Targeted Delivery of Doxorubicin to Cancerous Cells.
    Imanimoghadam M, Yaghoobi E, Alizadeh F, Ramezani M, Alibolandi M, Abnous K, Taghdisi SM.
    J Pharm Sci; 2024 Jul 01; 113(7):1865-1873. PubMed ID: 38342338
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  • 18. An imaging-guided platform for synergistic photodynamic/photothermal/chemo-therapy with pH/temperature-responsive drug release.
    Lv R, Yang P, He F, Gai S, Yang G, Dai Y, Hou Z, Lin J.
    Biomaterials; 2015 Sep 01; 63():115-27. PubMed ID: 26093792
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  • 19. IONP-doped nanoparticles for highly effective NIR-controlled drug release and combination tumor therapy.
    Fu X, Wang X, Zhou S, Zhang Y.
    Int J Nanomedicine; 2017 Sep 01; 12():3751-3766. PubMed ID: 28553112
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  • 20. [Preparation and in vitro evaluation of doxorubicin-loaded magnetic iron oxide nanoparticles].
    Shen S, Wu L, Wang CR, Qi XY, Ge YR, Jin Y.
    Yao Xue Xue Bao; 2013 Dec 01; 48(12):1844-9. PubMed ID: 24689244
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