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Journal Abstract Search

509 related items for PubMed ID: 29377650

  • 21. Inducing Immunogenic Cancer Cell Death through Oxygen-Economized Photodynamic Therapy with Nitric Oxide-Releasing Photosensitizers.
    Xu F, Wang M, Dotse E, Chow KT, Lo PC.
    Angew Chem Int Ed Engl; 2024 Sep 09; 63(37):e202404561. PubMed ID: 38887983
    [Abstract] [Full Text] [Related]

  • 22. Anti-Psoriasis Effects and Mechanisms of Α-(8-Quinolinoxy) Zinc Phthalocyanine-Mediated Photodynamic Therapy.
    Liu HQ, Wang YM, Li WF, Li C, Jiang ZH, Bao J, Wei JF, Jin HT, Wang AP.
    Cell Physiol Biochem; 2017 Sep 09; 44(1):200-214. PubMed ID: 29131032
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  • 23. A redox-activatable biopolymer-based micelle for sequentially enhanced mitochondria-targeted photodynamic therapy and hypoxia-dependent chemotherapy.
    Li Y, Sutrisno L, Hou Y, Fei Y, Xue C, Hu Y, Li M, Luo Z.
    Chem Commun (Camb); 2020 Sep 07; 56(69):9978-9981. PubMed ID: 32851998
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  • 24. Combined Cancer Chemo-Photodynamic and Photothermal Therapy Based on ICG/PDA/TPZ-Loaded Nanoparticles.
    Huang X, Wu J, He M, Hou X, Wang Y, Cai X, Xin H, Gao F, Chen Y.
    Mol Pharm; 2019 May 06; 16(5):2172-2183. PubMed ID: 30978027
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  • 25. A photothermal-hypoxia sequentially activatable phase-change nanoagent for mitochondria-targeting tumor synergistic therapy.
    Qu J, Teng D, Sui G, Guan S, Wang Y, Wang Q, Lin Y, Ran H, Wang Z, Wang H.
    Biomater Sci; 2020 Jun 07; 8(11):3116-3129. PubMed ID: 32352102
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  • 26. Multiple Functions Integrated inside a Single Molecule for Amplification of Photodynamic Therapy Activity.
    Shi X, Zhan Q, Li Y, Zhou L, Wei S.
    Mol Pharm; 2020 Jan 06; 17(1):190-201. PubMed ID: 31804837
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  • 27. Improved photodynamic efficacy of thiophenyl sulfonated zinc phthalocyanine loaded in lipid nano-carriers for hepatocellular carcinoma cancer cells.
    Abdel Fadeel D, Al-Toukhy GM, Elsharif AM, Al-Jameel SS, Mohamed HH, Youssef TE.
    Photodiagnosis Photodyn Ther; 2018 Sep 06; 23():25-31. PubMed ID: 29870793
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  • 28. Tirapazamine: a hypoxia-activated topoisomerase II poison.
    Peters KB, Brown JM.
    Cancer Res; 2002 Sep 15; 62(18):5248-53. PubMed ID: 12234992
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  • 29. Tumor-Penetrating Nanoparticles for Enhanced Anticancer Activity of Combined Photodynamic and Hypoxia-Activated Therapy.
    Wang Y, Xie Y, Li J, Peng ZH, Sheinin Y, Zhou J, Oupický D.
    ACS Nano; 2017 Feb 28; 11(2):2227-2238. PubMed ID: 28165223
    [Abstract] [Full Text] [Related]

  • 30. Synthesis of phthalocyanine conjugates with gold nanoparticles and liposomes for photodynamic therapy.
    Nombona N, Maduray K, Antunes E, Karsten A, Nyokong T.
    J Photochem Photobiol B; 2012 Feb 06; 107():35-44. PubMed ID: 22209036
    [Abstract] [Full Text] [Related]

  • 31. Precise gliomas therapy: Hypoxia-activated prodrugs sensitized by nano-photosensitizers.
    Zhang H, Shi C, Han F, Li M, Ma H, Sui R, Long S, Sun W, Du J, Fan J, Piao H, Peng X.
    Biomaterials; 2022 Oct 06; 289():121770. PubMed ID: 36075142
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  • 32. Targeting triple-negative breast cancer with an aptamer-functionalized nanoformulation: a synergistic treatment that combines photodynamic and bioreductive therapies.
    Chou YT, Lin CY, Wen JW, Hung LC, Chang YF, Yang CM, Wu LC, Ho JA.
    J Nanobiotechnology; 2021 Mar 29; 19(1):89. PubMed ID: 33781277
    [Abstract] [Full Text] [Related]

  • 33. Comparative analysis of whole cell-derived vesicular delivery systems for photodynamic therapy of extrahepatic cholangiocarcinoma.
    Li M, Bosman EDC, Smith OM, Lintern N, de Klerk DJ, Sun H, Cheng S, Pan W, Storm G, Khaled YS, Heger M, Photodynamic Therapy Study Group.
    J Photochem Photobiol B; 2024 May 29; 254():112903. PubMed ID: 38608335
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  • 34. Study of the stabilization of zinc phthalocyanine in sol-gel TiO2 for photodynamic therapy applications.
    Lopez T, Ortiz E, Alvarez M, Navarrete J, Odriozola JA, Martinez-Ortega F, Páez-Mozo EA, Escobar P, Espinoza KA, Rivero IA.
    Nanomedicine; 2010 Dec 29; 6(6):777-85. PubMed ID: 20493967
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  • 35. Monomer zinc phthalocyanine/upconversion nanoparticle coated with hyaluronic acid crosslinked gel as NIR light-activated drug for in vitro photodynamic therapy.
    Zhou L, Chen E, Jin W, Wang Y, Zhou J, Wei S.
    Dalton Trans; 2016 Sep 27; 45(38):15170-15179. PubMed ID: 27711660
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  • 36. Developing Hypoxia-Sensitive System via Designing Tumor-Targeted Fullerene-Based Photosensitizer for Multimodal Therapy of Deep Tumor.
    Li L, Fu J, Ye J, Liu L, Sun Z, Wang H, Tan S, Zhen M, Wang C, Bai C.
    Adv Mater; 2024 Jun 27; 36(23):e2310875. PubMed ID: 38450765
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  • 37. DNA strand damage product analysis provides evidence that the tumor cell-specific cytotoxin tirapazamine produces hydroxyl radical and acts as a surrogate for O(2).
    Chowdhury G, Junnotula V, Daniels JS, Greenberg MM, Gates KS.
    J Am Chem Soc; 2007 Oct 24; 129(42):12870-7. PubMed ID: 17900117
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  • 38. Adaptation of human tumor cells to tirapazamine under aerobic conditions: implications of increased antioxidant enzyme activity to mechanism of aerobic cytotoxicity.
    Elwell JH, Siim BG, Evans JW, Brown JM.
    Biochem Pharmacol; 1997 Jul 15; 54(2):249-57. PubMed ID: 9271329
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  • 39. Cancer-Selective Bioreductive Chemotherapy Mediated by Dual Hypoxia-Responsive Nanomedicine upon Photodynamic Therapy-Induced Hypoxia Aggravation.
    Zhu R, He H, Liu Y, Cao D, Yan J, Duan S, Chen Y, Yin L.
    Biomacromolecules; 2019 Jul 08; 20(7):2649-2656. PubMed ID: 31125209
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  • 40. Dissolving Microneedle-Based Cascade-Activation Nanoplatform for Enhanced Photodynamic Therapy of Skin Cancer.
    Ma J, Tai Z, Li Y, Li Y, Wang J, Zhou T, Shen M, Xin R, Shen C, Zhu Q, Chen Z.
    Int J Nanomedicine; 2024 Jul 08; 19():2057-2070. PubMed ID: 38482522
    [Abstract] [Full Text] [Related]

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