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    Journals >Laser & Optoelectronics Progress >Volume 57 >Issue 17 >Page 170005 > Article
    • Laser & Optoelectronics Progress
    • Vol. 57, Issue 17, 170005 (2020)
    Application of Photothermal Conversion Nanomaterials in Tumor Photothermal Therapy
    Zhi Li1, Weina Qian3, Simin Wei2, Hao Yan1, Ruyi Jin1, and Hui Guo1、2、*
    Author Affiliations
  • 1Basic Chemistry Staff Room, College of Pharmacy, Shaanxi University of Chinese Medicine, Xi'an, Shaanxi 712046, China
  • 2Collaborative Innovation Center of Shaanxi University of Chinese Medicine, Xi'an, Shaanxi 712046, China
  • 3Department of Oncology, the Affiliated Hospital of Shaanxi University of Chinese Medicine, Xianyang, Shaanxi 712000, China
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    DOI: 10.3788/LOP57.170005 Cite this Article Set citation alerts
    Zhi Li, Weina Qian, Simin Wei, Hao Yan, Ruyi Jin, Hui Guo. Application of Photothermal Conversion Nanomaterials in Tumor Photothermal Therapy[J]. Laser & Optoelectronics Progress, 2020, 57(17): 170005 Copy Citation Text show less
    TEM images of Au nanomaterial. (a)Au nanocages[11]; (b) Au nanorods[12]; (c)Au clusters[13]
    Fig. 1. TEM images of Au nanomaterial. (a)Au nanocages[11]; (b) Au nanorods[12]; (c)Au clusters[13]
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    Photothermal ablation of tumors in mice using intravenously injected SPNS-GSH[17]. (a) Relative tumor volume; (b) mortality free survival curves
    Fig. 2. Photothermal ablation of tumors in mice using intravenously injected SPNS-GSH[17]. (a) Relative tumor volume; (b) mortality free survival curves
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    Size of tumors before and after treatment in different groups[24]
    Fig. 3. Size of tumors before and after treatment in different groups[24]
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    Images of tumor from a tumor-bearing mouse at different time after injection of Cu2-xSe solution[30]. (a) PA images and I.V. injection; (b) CT images and I.T. injection; (c) SPECT images and I.V. injection
    Fig. 4. Images of tumor from a tumor-bearing mouse at different time after injection of Cu2-xSe solution[30]. (a) PA images and I.V. injection; (b) CT images and I.T. injection; (c) SPECT images and I.V. injection
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    Tumor surface temperature change curves of mice after I.V. and I.T. injection of MoS2/DOX, and thermal images of tumor-bearing mice after I.T. and I.V. injection of MoS2/DOX[39]. (a) Temperature change curves; (b) thermal images after I.T. injection; (c) thermal images after I.V. injection
    Fig. 5. Tumor surface temperature change curves of mice after I.V. and I.T. injection of MoS2/DOX, and thermal images of tumor-bearing mice after I.T. and I.V. injection of MoS2/DOX[39]. (a) Temperature change curves; (b) thermal images after I.T. injection; (c) thermal images after I.V. injection
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    Schematic illustration of the procedure used to fabricate PTA and the combined chemo/gene/photothermal targeted therapy of tumor cells[50]
    Fig. 6. Schematic illustration of the procedure used to fabricate PTA and the combined chemo/gene/photothermal targeted therapy of tumor cells[50]
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    Photothermal therapy of tumor-draining lymph nodes using liposomal ICG[57]. (a) In vivo NIR fluorescence imaging of popliteal lymph nodes after peritumoral injection of free or liposomal ICG; (b) popliteal lymph node surface temperatures over time
    Fig. 7. Photothermal therapy of tumor-draining lymph nodes using liposomal ICG[57]. (a) In vivo NIR fluorescence imaging of popliteal lymph nodes after peritumoral injection of free or liposomal ICG; (b) popliteal lymph node surface temperatures over time
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    Schematic illustration of polymeric vesicles with the conformation of both J-type and H-type BODIPY aggregates for either photodynamic therapy under 660 nm or photothermal therapy under 785 nm[65]
    Fig. 8. Schematic illustration of polymeric vesicles with the conformation of both J-type and H-type BODIPY aggregates for either photodynamic therapy under 660 nm or photothermal therapy under 785 nm[65]
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    Cell membrane-camouflaged nanoparticles for cancer photothermal therapy(a series of cell membranes are used to coat onto the surface of photothermal therapeutic agents)[92]
    Fig. 9. Cell membrane-camouflaged nanoparticles for cancer photothermal therapy(a series of cell membranes are used to coat onto the surface of photothermal therapeutic agents)[92]
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    A schematic illustration showing the formation of Lipo@HRP&ABTS and its applications in H2O2-activated photothermal therapy and PA imaging[102]
    Fig. 10. A schematic illustration showing the formation of Lipo@HRP&ABTS and its applications in H2O2-activated photothermal therapy and PA imaging[102]
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    A schematic illustration of photothermal therapeutic agent fabrication based on polymer and in vivo brain tumor photothermal therapy and photoacoustic imaging in NIR-II window(1064 nm)[106]
    Fig. 11. A schematic illustration of photothermal therapeutic agent fabrication based on polymer and in vivo brain tumor photothermal therapy and photoacoustic imaging in NIR-II window(1064 nm)[106]
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    Zhi Li, Weina Qian, Simin Wei, Hao Yan, Ruyi Jin, Hui Guo. Application of Photothermal Conversion Nanomaterials in Tumor Photothermal Therapy[J]. Laser & Optoelectronics Progress, 2020, 57(17): 170005
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