MoS2-Based multipurpose theranostic nanoplatform: realizing dual-imaging-guided combination phototherapy to eliminate solid tumor via a liquefaction necrosis process
Theranostics that combines the disease diagnosis with treatment is of promising application in the foreground of personalized medicine to achieve a precise treatment with minimum side effects. In this work, we strategically designed a “four-in-one” theranostic nanoplatform for realizing the desired...
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| Published in | Journal of materials chemistry. B, Materials for biology and medicine Vol. 5; no. 45; pp. 9015 - 9024 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge
Royal Society of Chemistry
2017
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Theranostics that combines the disease diagnosis with treatment is of promising application in the foreground of personalized medicine to achieve a precise treatment with minimum side effects. In this work, we strategically designed a “four-in-one” theranostic nanoplatform for realizing the desired imaging-guided phototherapy, in which functions of fluorescent imaging, photoacoustic imaging tomography (PAT), photothermal therapy (PTT) and photodynamic therapy (PDT) were implemented by bioconjugated MoS2 nanosheets. The protagonist of MoS2 is a light-harvesting material in the near-infrared (NIR) region, which would produce localized hyperthermia at the tumor site to trigger the photothermal therapy effect for the tumor ablation as well as a PAT signal to depict the tumor concurrently upon NIR excitation. To our surprise, MoS2 has been found to be a photosensitizer for the cancer PDT treatment as well. Moreover, bovine serum albumin (BSA) decoration on MoS2 has been made to improve biocompatibility, which also allowed further conjugation with a fluorescent molecule of Cy5.5 to endow the overall nanoplatform with fluorescence imaging and monitoring features. On the basis of the above characters, great successes in cancer imaging and tumor photoablation were achieved in both in vitro and in vivo experiments. Innovatively, B-ultrasonography and MRI imaging were employed to monitor the elimination process of solid tumor after treatment, which clearly revealed a liquefaction necrosis process for rehabilitation. In short, MoS2 represents a nanoplatform of this work and manifested huge advantages in the cancer theranostics. |
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| AbstractList | Theranostics that combines the disease diagnosis with treatment is of promising application in the foreground of personalized medicine to achieve a precise treatment with minimum side effects. In this work, we strategically designed a “four-in-one” theranostic nanoplatform for realizing the desired imaging-guided phototherapy, in which functions of fluorescent imaging, photoacoustic imaging tomography (PAT), photothermal therapy (PTT) and photodynamic therapy (PDT) were implemented by bioconjugated MoS2 nanosheets. The protagonist of MoS2 is a light-harvesting material in the near-infrared (NIR) region, which would produce localized hyperthermia at the tumor site to trigger the photothermal therapy effect for the tumor ablation as well as a PAT signal to depict the tumor concurrently upon NIR excitation. To our surprise, MoS2 has been found to be a photosensitizer for the cancer PDT treatment as well. Moreover, bovine serum albumin (BSA) decoration on MoS2 has been made to improve biocompatibility, which also allowed further conjugation with a fluorescent molecule of Cy5.5 to endow the overall nanoplatform with fluorescence imaging and monitoring features. On the basis of the above characters, great successes in cancer imaging and tumor photoablation were achieved in both in vitro and in vivo experiments. Innovatively, B-ultrasonography and MRI imaging were employed to monitor the elimination process of solid tumor after treatment, which clearly revealed a liquefaction necrosis process for rehabilitation. In short, MoS2 represents a nanoplatform of this work and manifested huge advantages in the cancer theranostics. Theranostics that combines the disease diagnosis with treatment is of promising application in the foreground of personalized medicine to achieve a precise treatment with minimum side effects. In this work, we strategically designed a “four-in-one” theranostic nanoplatform for realizing the desired imaging-guided phototherapy, in which functions of fluorescent imaging, photoacoustic imaging tomography (PAT), photothermal therapy (PTT) and photodynamic therapy (PDT) were implemented by bioconjugated MoS₂ nanosheets. The protagonist of MoS₂ is a light-harvesting material in the near-infrared (NIR) region, which would produce localized hyperthermia at the tumor site to trigger the photothermal therapy effect for the tumor ablation as well as a PAT signal to depict the tumor concurrently upon NIR excitation. To our surprise, MoS₂ has been found to be a photosensitizer for the cancer PDT treatment as well. Moreover, bovine serum albumin (BSA) decoration on MoS₂ has been made to improve biocompatibility, which also allowed further conjugation with a fluorescent molecule of Cy5.5 to endow the overall nanoplatform with fluorescence imaging and monitoring features. On the basis of the above characters, great successes in cancer imaging and tumor photoablation were achieved in both in vitro and in vivo experiments. Innovatively, B-ultrasonography and MRI imaging were employed to monitor the elimination process of solid tumor after treatment, which clearly revealed a liquefaction necrosis process for rehabilitation. In short, MoS₂ represents a nanoplatform of this work and manifested huge advantages in the cancer theranostics. Theranostics that combines the disease diagnosis with treatment is of promising application in the foreground of personalized medicine to achieve a precise treatment with minimum side effects. In this work, we strategically designed a "four-in-one" theranostic nanoplatform for realizing the desired imaging-guided phototherapy, in which functions of fluorescent imaging, photoacoustic imaging tomography (PAT), photothermal therapy (PTT) and photodynamic therapy (PDT) were implemented by bioconjugated MoS2 nanosheets. The protagonist of MoS2 is a light-harvesting material in the near-infrared (NIR) region, which would produce localized hyperthermia at the tumor site to trigger the photothermal therapy effect for the tumor ablation as well as a PAT signal to depict the tumor concurrently upon NIR excitation. To our surprise, MoS2 has been found to be a photosensitizer for the cancer PDT treatment as well. Moreover, bovine serum albumin (BSA) decoration on MoS2 has been made to improve biocompatibility, which also allowed further conjugation with a fluorescent molecule of Cy5.5 to endow the overall nanoplatform with fluorescence imaging and monitoring features. On the basis of the above characters, great successes in cancer imaging and tumor photoablation were achieved in both in vitro and in vivo experiments. Innovatively, B-ultrasonography and MRI imaging were employed to monitor the elimination process of solid tumor after treatment, which clearly revealed a liquefaction necrosis process for rehabilitation. In short, MoS2 represents a nanoplatform of this work and manifested huge advantages in the cancer theranostics.Theranostics that combines the disease diagnosis with treatment is of promising application in the foreground of personalized medicine to achieve a precise treatment with minimum side effects. In this work, we strategically designed a "four-in-one" theranostic nanoplatform for realizing the desired imaging-guided phototherapy, in which functions of fluorescent imaging, photoacoustic imaging tomography (PAT), photothermal therapy (PTT) and photodynamic therapy (PDT) were implemented by bioconjugated MoS2 nanosheets. The protagonist of MoS2 is a light-harvesting material in the near-infrared (NIR) region, which would produce localized hyperthermia at the tumor site to trigger the photothermal therapy effect for the tumor ablation as well as a PAT signal to depict the tumor concurrently upon NIR excitation. To our surprise, MoS2 has been found to be a photosensitizer for the cancer PDT treatment as well. Moreover, bovine serum albumin (BSA) decoration on MoS2 has been made to improve biocompatibility, which also allowed further conjugation with a fluorescent molecule of Cy5.5 to endow the overall nanoplatform with fluorescence imaging and monitoring features. On the basis of the above characters, great successes in cancer imaging and tumor photoablation were achieved in both in vitro and in vivo experiments. Innovatively, B-ultrasonography and MRI imaging were employed to monitor the elimination process of solid tumor after treatment, which clearly revealed a liquefaction necrosis process for rehabilitation. In short, MoS2 represents a nanoplatform of this work and manifested huge advantages in the cancer theranostics. |
| Author | Ding, Dandan Yan, Mei Wang, Fei Guo, Wei Gao, Yan Guo, Chongshen Liu, Shaoqin Yang, Chunyu Song, Chuanqi |
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| DOI | 10.1039/c7tb02648j |
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| SubjectTerms | adverse effects Biocompatibility Bovine serum albumin Cancer Conjugation disease diagnosis fever Fluorescence Fluoroscopic imaging Gangrene Hyperthermia I.R. radiation image analysis in vivo studies Light therapy Liquefaction Magnetic resonance imaging Medical imaging Molybdenum disulfide monitoring nanosheets near-infrared spectroscopy Necrosis neoplasms photochemotherapy Photodynamic therapy photosensitizing agents Phototherapy photothermotherapy Precision medicine Rehabilitation Serum albumin Side effects Solid tumors tomography Tumors Ultrasound |
| Title | MoS2-Based multipurpose theranostic nanoplatform: realizing dual-imaging-guided combination phototherapy to eliminate solid tumor via a liquefaction necrosis process |
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