The realization of real-time thermal feedback for monitoring photothermal therapy(PTT)under near-infrared(NIR)light irradiation is of great interest and challenge for antitumor therapy.Herein,by assembling highly effi...The realization of real-time thermal feedback for monitoring photothermal therapy(PTT)under near-infrared(NIR)light irradiation is of great interest and challenge for antitumor therapy.Herein,by assembling highly efficient photothermal conversion gold nanorods and a temperature-responsive probe((E)-4-(4-(diethylamino)styryl)-1-methylpyridin-1-ium,PyS)within MOF-199,an intelligent nanoplatform(AMPP)was fabricated for simultaneous chemodynamic therapy and NIR light-induced temperature-feedback PTT.The fluorescence intensity and temperature of the PyS probe are linearly related due to the restriction of the rotation of the characteristic monomethine bridge.Moreover,the copper ions resulting from the degradation of MOF-199 in an acidic microenvironment can convert H_(2)O_(2)into•OH,resulting in tumor ablation through a Fenton-like reaction,and this process can be accelerated by increasing the temperature.This study establishes a feasible platform for fabricating highly sensitive temperature sensors for efficient temperature-feedback PTT.展开更多
Objective:The aim of the study was to evaluate the efficacy and toxicity of high power focused-beam microwave hyperthermia with intrapleural injection of Shapeilin for patients with malignant hydrothorax.Methods:Fifty...Objective:The aim of the study was to evaluate the efficacy and toxicity of high power focused-beam microwave hyperthermia with intrapleural injection of Shapeilin for patients with malignant hydrothorax.Methods:Fifty-eight patients with malignant hydrothorax were divided into group A and group B randomly.All patients underwent indwelling pleural catheter and were treated by intrapleural injection of Shapeilin once three days.Treatment was composed of 3 times injection.Patients of group B received high power focused-beam microwave hyperthermia after injection of Shapeilin.Results:The response rate of group B(79.3%) was higher than that of group A(48.3%)(P < 0.05).Incidence of main adverse reactions,associated with Shapeilin,of two groups including fever and thoracodynia were similar(P > 0.05).Patients of group B didn't encounter severe toxicities of microwave hyperthermia.Conclusion:High power focused-beam microwave hyperthermia combined with intrapleural injection of Shapeilin is effective and tolerable for patients with malignant hydrothorax.展开更多
Objective: The purpose of this study was to investigate the impact of intensity modulated radiotherapy (IMRT) on surface doses for brain, abdomen and pelvis deep located tumors treated with 6 MV photon and to evaluate...Objective: The purpose of this study was to investigate the impact of intensity modulated radiotherapy (IMRT) on surface doses for brain, abdomen and pelvis deep located tumors treated with 6 MV photon and to evaluate the skin dose calculation accuracy of the XIO 4.04 treatment planning system. Methods: More investigations for the influences of IMRT on skin doses would increase its applications for many treatment sites. Measuring skin doses in real treatment situations would reduce the uncertainty of skin dose prediction. In this work a pediatric human phantom was covered by a layer of 1 mm bolus at three treatment sites and thermoluminescent dosimeter (TLD) chips were inserted into the bolus at each treatment site before CT scan. Two different treatment plans [three-dimensional conformal radiation therapy (3DCRT) and IMRT] for each treatment sites were performed on XIO 4.04 treatment planning system using superposition algorism. Results: The results showed that the surface doses for 3DCRT were higher than the surface doses in IMRT by 1.6%, 2.5% and 3.2% for brain, abdomen and pelvis sites respectively. There was good agreement between measured and calculated surface doses, where the calculated surface dose was 15.5% for brain tumor calculated with 3DCRT whereas the measured surface dose was 12.1%. For abdomen site the calculated surface dose for IMRT treatment plan was 16.5% whereas the measured surface dose was 12.6%. Conclusion: The skin dose in IMRT for deep seated tumors is lower than that in 3DCRT which is another advantage for the IMRT. The TLD readings showed that the difference between the calculated and measured point dose is negligible. The superposition calculation algorism of the XIO 4.04 treatment planning system modeled the superficial dose well.展开更多
Focused ultrasound(FUS)-induced blood–brain barrier(BBB) opening is crucial for enhancing glioblastoma(GBM) therapies. However, an in vivo imaging approach with a high spatial–temporal resolution to monitor the BBB ...Focused ultrasound(FUS)-induced blood–brain barrier(BBB) opening is crucial for enhancing glioblastoma(GBM) therapies. However, an in vivo imaging approach with a high spatial–temporal resolution to monitor the BBB opening process in situ and synchronously is still lacking. Herein, we report the use of indocyanine green(ICG)-dopped microbubbles(MBs-ICG) for visualizing the FUS-induced BBB opening and enhancing the photothermal therapy(PTT) against GBM. The MBs-ICG show bright fluorescence in the second near-infrared window(NIR-II), ultrasound contrast, and ultrasound-induced size transformation properties. By virtue of complementary contrast properties, MBs-ICG can be successfully applied for cerebral vascular imaging with NIR-II fluorescence resolution of ~168.9 lm and ultrasound penetration depth of ~7 mm. We further demonstrate that MBs-ICG can be combined with FUS for in situ and synchronous visualization of the BBB opening with a NIR-II fluorescence signal-tobackground ratio of 6.2 ± 1.2. Finally, our data show that the MBs-ICG transform into lipid-ICG nanoparticles under FUS irradiation, which then rapidly penetrate the tumor tissues within 10 min and enhance PTT in orthotopic GBM-bearing mice. The multifunctional MBs-ICG approach provides a novel paradigm for monitoring BBB opening and enhancing GBM therapy.展开更多
In this study, we present the preparation of stable 1T-WS2 ultrathin nanosheets with NH~ intercalation using a bottom-up hydrothermal method and the potential application of this material in light-induced photothermal...In this study, we present the preparation of stable 1T-WS2 ultrathin nanosheets with NH~ intercalation using a bottom-up hydrothermal method and the potential application of this material in light-induced photothermal cancer therapy. Our results revealed that nanosheets with a size of 150 nm were highly hydrophilic and exhibited strong light absorption and excellent photostability in the broad near-infrared wavelength region. The in vitro experimental results indicated good biocompatibility of the nanosheets. More notably, our in vivo antitumor experiments illustrated that light-induced photothermal ablation originating from irradiation of the 1T-WS2 nanosheets with an 808 nm laser could efficiently kill tumor cells; these effects were obtained not only at the cellular level but also in the living organs of mice. This result may lead to new applications of two-dimensional layered materials in novel photothermal therapies and other photothermal related fields.展开更多
Hypoxia is a hallmark of solid tumors,and it significantly impairs the overall anticancer efficacy,particularly photodynamic therapy(PDT).Herein,a catalase-like nanovesicle with near-infrared light-responsiveness,that...Hypoxia is a hallmark of solid tumors,and it significantly impairs the overall anticancer efficacy,particularly photodynamic therapy(PDT).Herein,a catalase-like nanovesicle with near-infrared light-responsiveness,that is,platinum/gold nanoshell encapsulated chlorin e6(Ce6)/resveratrol(Res)liposome(Pt@Au-Ce6/Res-Lip),was developed to surmount this intractable issue.The Pt@Au-Ce6/Res-Lip can decompose overexpressed H_(2)O_(2)in tumor microenvironment to produce vast amounts of O_(2)for further enhancement of the PDT.Under the 808 nm laser irradiation,the Au nanoshells induced hyperthermia at the lesion site to ablate tumor cells,simultaneously inducing the controlled release of photosensitizer Ce6 and chemotherapeutic agent Res.Moreover,stimulated by 660 nm laser,numerous reactive oxygen species were formed to induce apoptosis and necrosis of tumor cells.With the cascade of trimodal therapeutic modality options(chemotherapy,photothermal therapy,and PDT),the Pt@Au-Ce6/Res-Lip showed ultrahigh tumor inhabitation rate in in vitro and in vivo studies,signifying that the Pt@AuCe6/Res-Lip nanovesicle is a promising candidate for effective cancer therapy.展开更多
Herein,a facile and highly efficient synthetic method to prepare organic photothermal materials with high photo-stability and outstanding photothermal performance is reported.Through direct polymerization of commercia...Herein,a facile and highly efficient synthetic method to prepare organic photothermal materials with high photo-stability and outstanding photothermal performance is reported.Through direct polymerization of commercial aromatic monomers in the presence of anhydrous aluminium chloride and dichloromethane,four kinds of conjugated microporous polymers(CMPs)were obtained.Detailed structural analysis confirmed that the resultant CMPs possessed abundant micropores with an extendedπ-conjugated skeleton.Under near-infrared(NIR)light irradiation(808 nm,1.0 W cm−2),all the CMPs showed fast heating-up behavior with their maximum temperatures higher than 150℃.Moreover,the efficiency of photothermal conversion(η)of the CMPs was found to increase linearly with the increase in the number of conjugated benzene rings within the monomer.Poly-TPE from tetraphenylethylene(TPE)and Poly-TP from o-terphenyl(TP)showed highηvalues of over 47%.Poly-TPE was additionally used as a photothermal filler to remotely and spatially control the shape recovery of thermal-sensitive shape memory polymers(SMPs),while its introduction(1 wt%)had little influence on the thermal and mechanical properties of the polymer matrixes.Owing to their excellent NIR photothermal performance as well as a one-step synthetic preparation,these CMPs may be promising photothermal materials for practical applications.展开更多
The vicious cycle between tumor cell proliferation and bone resorption remarkably elevates the progression and metastasis of bone tumors.Here,we fabricated polyethylene glycol-conjugated alendronate-functionalized and...The vicious cycle between tumor cell proliferation and bone resorption remarkably elevates the progression and metastasis of bone tumors.Here,we fabricated polyethylene glycol-conjugated alendronate-functionalized and chloroquine(CQ)-loaded polydopamine nanoparticles(PPA/CQ)for efficient treatment of bone tumors via breaking the vicious cycle.The nanoparticles were efficiently accumulated to the bone tissues,especially the osteolytic lesions around tumors.CQ released from PPA/CQ inhibited osteoclastogenesis via preventing the degradation of tumor necrosis factor(TNF)receptor-associated receptor 3 to attenuate the osteolysis in bone tumors.On the other hand,CQ blocked the autophagy in cancer cells,resulting in improved photothermal killing of cancer cells.Finally,the in vivo experiment revealed that PPA/CQ-associated treatment efficiently inhibited both tumor growth and osteolysis.This work suggests that autophagy inhibition-associated photothermal therapy could be a promising strategy for treating malignant bone tumors.展开更多
Molybdenum oxide nanoparticles(NPs) with tunable plasmonic resonance in the near-infrared region display superior semiconducting features and photothermal properties, which are highly related to the crystalline and de...Molybdenum oxide nanoparticles(NPs) with tunable plasmonic resonance in the near-infrared region display superior semiconducting features and photothermal properties, which are highly related to the crystalline and defective structures such as oxygen deficiencies. However,fundamental understanding on the structure-function relationship between crystalline/defective structures and photothermal properties is still unclear. To address this, herein,we have developed an "in-situ confined oxidation-reduction"strategy to regulate the defect features of molybdenum oxide NPs in the dual-mesoporous silica nanoreactor. Especially, the effects of crystalline structure/oxygen defects of molybdenum oxides on the photothermal performances were investigated by facilely tuning the amount of molybdenum resource and the reduction temperature. As a photothermal nanoagent, the optimal defective molybdenum oxide NPs encapsulated in PEGylated porous silica nanoreactor(designated as MoO_(3)@PPSNs) exhibit excellent biological stability and strong localized surface plasmon resonance effect in nearinfrared absorption range with the highest photothermal conversion efficiency up to 78.7% under 808 nm laser irradiation. More importantly, the remarkable photothermal effects of MoO_(3)@PPSNs were comprehensively demonstrated both in vitro and in vivo. Consequently, we envision that the plasmonic MoO_(3)NPs in a biocompatible porous silica nanoreactor could be used as an efficient photothermal therapy agent for photothermal ablation of tumors.展开更多
基金supported by the National Natural Science Foundation of China(22171001,22305001,51972001,52372073)the Natural Science Foundation of Anhui Province of China(2108085MB49).
文摘The realization of real-time thermal feedback for monitoring photothermal therapy(PTT)under near-infrared(NIR)light irradiation is of great interest and challenge for antitumor therapy.Herein,by assembling highly efficient photothermal conversion gold nanorods and a temperature-responsive probe((E)-4-(4-(diethylamino)styryl)-1-methylpyridin-1-ium,PyS)within MOF-199,an intelligent nanoplatform(AMPP)was fabricated for simultaneous chemodynamic therapy and NIR light-induced temperature-feedback PTT.The fluorescence intensity and temperature of the PyS probe are linearly related due to the restriction of the rotation of the characteristic monomethine bridge.Moreover,the copper ions resulting from the degradation of MOF-199 in an acidic microenvironment can convert H_(2)O_(2)into•OH,resulting in tumor ablation through a Fenton-like reaction,and this process can be accelerated by increasing the temperature.This study establishes a feasible platform for fabricating highly sensitive temperature sensors for efficient temperature-feedback PTT.
文摘Objective:The aim of the study was to evaluate the efficacy and toxicity of high power focused-beam microwave hyperthermia with intrapleural injection of Shapeilin for patients with malignant hydrothorax.Methods:Fifty-eight patients with malignant hydrothorax were divided into group A and group B randomly.All patients underwent indwelling pleural catheter and were treated by intrapleural injection of Shapeilin once three days.Treatment was composed of 3 times injection.Patients of group B received high power focused-beam microwave hyperthermia after injection of Shapeilin.Results:The response rate of group B(79.3%) was higher than that of group A(48.3%)(P < 0.05).Incidence of main adverse reactions,associated with Shapeilin,of two groups including fever and thoracodynia were similar(P > 0.05).Patients of group B didn't encounter severe toxicities of microwave hyperthermia.Conclusion:High power focused-beam microwave hyperthermia combined with intrapleural injection of Shapeilin is effective and tolerable for patients with malignant hydrothorax.
文摘Objective: The purpose of this study was to investigate the impact of intensity modulated radiotherapy (IMRT) on surface doses for brain, abdomen and pelvis deep located tumors treated with 6 MV photon and to evaluate the skin dose calculation accuracy of the XIO 4.04 treatment planning system. Methods: More investigations for the influences of IMRT on skin doses would increase its applications for many treatment sites. Measuring skin doses in real treatment situations would reduce the uncertainty of skin dose prediction. In this work a pediatric human phantom was covered by a layer of 1 mm bolus at three treatment sites and thermoluminescent dosimeter (TLD) chips were inserted into the bolus at each treatment site before CT scan. Two different treatment plans [three-dimensional conformal radiation therapy (3DCRT) and IMRT] for each treatment sites were performed on XIO 4.04 treatment planning system using superposition algorism. Results: The results showed that the surface doses for 3DCRT were higher than the surface doses in IMRT by 1.6%, 2.5% and 3.2% for brain, abdomen and pelvis sites respectively. There was good agreement between measured and calculated surface doses, where the calculated surface dose was 15.5% for brain tumor calculated with 3DCRT whereas the measured surface dose was 12.1%. For abdomen site the calculated surface dose for IMRT treatment plan was 16.5% whereas the measured surface dose was 12.6%. Conclusion: The skin dose in IMRT for deep seated tumors is lower than that in 3DCRT which is another advantage for the IMRT. The TLD readings showed that the difference between the calculated and measured point dose is negligible. The superposition calculation algorism of the XIO 4.04 treatment planning system modeled the superficial dose well.
基金supported by the National Natural Science Foundation of China (92159304, 82171958, 81901812, 81971638, 91859117, 82027803, and 81927807)CAS Key Laboratory of Health Informatics (2011DP173015)+4 种基金the Science and Technology Key Project of Shenzhen(JCYJ20190812163614809, JCYJ20200109114612308, JCYJ2021032 4120011030, JCYJ20190809105207439, JCYJ20220531091408019, and JCYJ20200109114825064)Guangdong Basic and Applied Basic Research Fund (2020A1515110011, 2020A1515010395, and 2022A1515010384)Key Laboratory for Magnetic Resonance and Multimodality Imaging of Guangdong Province (2020B1212060051)the Key Technology and Equipment R&D Program of Major Science and Technology Infrastructure of Shenzhen (202100102, 202100104)Discipline Construction Project of Guangdong Medical University (4SG21017G)
文摘Focused ultrasound(FUS)-induced blood–brain barrier(BBB) opening is crucial for enhancing glioblastoma(GBM) therapies. However, an in vivo imaging approach with a high spatial–temporal resolution to monitor the BBB opening process in situ and synchronously is still lacking. Herein, we report the use of indocyanine green(ICG)-dopped microbubbles(MBs-ICG) for visualizing the FUS-induced BBB opening and enhancing the photothermal therapy(PTT) against GBM. The MBs-ICG show bright fluorescence in the second near-infrared window(NIR-II), ultrasound contrast, and ultrasound-induced size transformation properties. By virtue of complementary contrast properties, MBs-ICG can be successfully applied for cerebral vascular imaging with NIR-II fluorescence resolution of ~168.9 lm and ultrasound penetration depth of ~7 mm. We further demonstrate that MBs-ICG can be combined with FUS for in situ and synchronous visualization of the BBB opening with a NIR-II fluorescence signal-tobackground ratio of 6.2 ± 1.2. Finally, our data show that the MBs-ICG transform into lipid-ICG nanoparticles under FUS irradiation, which then rapidly penetrate the tumor tissues within 10 min and enhance PTT in orthotopic GBM-bearing mice. The multifunctional MBs-ICG approach provides a novel paradigm for monitoring BBB opening and enhancing GBM therapy.
文摘In this study, we present the preparation of stable 1T-WS2 ultrathin nanosheets with NH~ intercalation using a bottom-up hydrothermal method and the potential application of this material in light-induced photothermal cancer therapy. Our results revealed that nanosheets with a size of 150 nm were highly hydrophilic and exhibited strong light absorption and excellent photostability in the broad near-infrared wavelength region. The in vitro experimental results indicated good biocompatibility of the nanosheets. More notably, our in vivo antitumor experiments illustrated that light-induced photothermal ablation originating from irradiation of the 1T-WS2 nanosheets with an 808 nm laser could efficiently kill tumor cells; these effects were obtained not only at the cellular level but also in the living organs of mice. This result may lead to new applications of two-dimensional layered materials in novel photothermal therapies and other photothermal related fields.
基金the National Natural Science Foundation(21776238,21476190,and 31801198)Hebei province Natural fund key projects(B2019203479)。
文摘Hypoxia is a hallmark of solid tumors,and it significantly impairs the overall anticancer efficacy,particularly photodynamic therapy(PDT).Herein,a catalase-like nanovesicle with near-infrared light-responsiveness,that is,platinum/gold nanoshell encapsulated chlorin e6(Ce6)/resveratrol(Res)liposome(Pt@Au-Ce6/Res-Lip),was developed to surmount this intractable issue.The Pt@Au-Ce6/Res-Lip can decompose overexpressed H_(2)O_(2)in tumor microenvironment to produce vast amounts of O_(2)for further enhancement of the PDT.Under the 808 nm laser irradiation,the Au nanoshells induced hyperthermia at the lesion site to ablate tumor cells,simultaneously inducing the controlled release of photosensitizer Ce6 and chemotherapeutic agent Res.Moreover,stimulated by 660 nm laser,numerous reactive oxygen species were formed to induce apoptosis and necrosis of tumor cells.With the cascade of trimodal therapeutic modality options(chemotherapy,photothermal therapy,and PDT),the Pt@Au-Ce6/Res-Lip showed ultrahigh tumor inhabitation rate in in vitro and in vivo studies,signifying that the Pt@AuCe6/Res-Lip nanovesicle is a promising candidate for effective cancer therapy.
基金the National Natural Science Foundation of China(51503231 and 21374136)Guangdong Innovative and Entrepreneurial Research Team Program(2013S086)the Fundamental Research Funds for the Central Universities(17lgjc03 and 18lgpy04)。
文摘Herein,a facile and highly efficient synthetic method to prepare organic photothermal materials with high photo-stability and outstanding photothermal performance is reported.Through direct polymerization of commercial aromatic monomers in the presence of anhydrous aluminium chloride and dichloromethane,four kinds of conjugated microporous polymers(CMPs)were obtained.Detailed structural analysis confirmed that the resultant CMPs possessed abundant micropores with an extendedπ-conjugated skeleton.Under near-infrared(NIR)light irradiation(808 nm,1.0 W cm−2),all the CMPs showed fast heating-up behavior with their maximum temperatures higher than 150℃.Moreover,the efficiency of photothermal conversion(η)of the CMPs was found to increase linearly with the increase in the number of conjugated benzene rings within the monomer.Poly-TPE from tetraphenylethylene(TPE)and Poly-TP from o-terphenyl(TP)showed highηvalues of over 47%.Poly-TPE was additionally used as a photothermal filler to remotely and spatially control the shape recovery of thermal-sensitive shape memory polymers(SMPs),while its introduction(1 wt%)had little influence on the thermal and mechanical properties of the polymer matrixes.Owing to their excellent NIR photothermal performance as well as a one-step synthetic preparation,these CMPs may be promising photothermal materials for practical applications.
基金the National Natural Science Foundation of China(21725402,31871010,81971735,81871470 and 81901867)Shanghai Municipal Science and Technology Commission(17XD1401600)+1 种基金the Fok Ying Tong Education Foundation(151036)Guangdong Innovative and Entrepreneurial Research Team Program(2016ZT06C322)。
文摘The vicious cycle between tumor cell proliferation and bone resorption remarkably elevates the progression and metastasis of bone tumors.Here,we fabricated polyethylene glycol-conjugated alendronate-functionalized and chloroquine(CQ)-loaded polydopamine nanoparticles(PPA/CQ)for efficient treatment of bone tumors via breaking the vicious cycle.The nanoparticles were efficiently accumulated to the bone tissues,especially the osteolytic lesions around tumors.CQ released from PPA/CQ inhibited osteoclastogenesis via preventing the degradation of tumor necrosis factor(TNF)receptor-associated receptor 3 to attenuate the osteolysis in bone tumors.On the other hand,CQ blocked the autophagy in cancer cells,resulting in improved photothermal killing of cancer cells.Finally,the in vivo experiment revealed that PPA/CQ-associated treatment efficiently inhibited both tumor growth and osteolysis.This work suggests that autophagy inhibition-associated photothermal therapy could be a promising strategy for treating malignant bone tumors.
基金supported by the National Key Research and Development Program of China (2016YFA0203700)the National Natural Science Foundation of China (51672083, 51962022 and 52072124)+4 种基金the Natural Science Foundation of Shanghai (20ZR1414900)the Program of Shanghai Academic/Technology Research Leader (18XD1401400)the Leading Talents in Shanghai in 2018the Program for Professor of Special Appointment (Eastern Scholar) at Shanghai Institutions of Higher Learningthe 111 Project (B14018)。
文摘Molybdenum oxide nanoparticles(NPs) with tunable plasmonic resonance in the near-infrared region display superior semiconducting features and photothermal properties, which are highly related to the crystalline and defective structures such as oxygen deficiencies. However,fundamental understanding on the structure-function relationship between crystalline/defective structures and photothermal properties is still unclear. To address this, herein,we have developed an "in-situ confined oxidation-reduction"strategy to regulate the defect features of molybdenum oxide NPs in the dual-mesoporous silica nanoreactor. Especially, the effects of crystalline structure/oxygen defects of molybdenum oxides on the photothermal performances were investigated by facilely tuning the amount of molybdenum resource and the reduction temperature. As a photothermal nanoagent, the optimal defective molybdenum oxide NPs encapsulated in PEGylated porous silica nanoreactor(designated as MoO_(3)@PPSNs) exhibit excellent biological stability and strong localized surface plasmon resonance effect in nearinfrared absorption range with the highest photothermal conversion efficiency up to 78.7% under 808 nm laser irradiation. More importantly, the remarkable photothermal effects of MoO_(3)@PPSNs were comprehensively demonstrated both in vitro and in vivo. Consequently, we envision that the plasmonic MoO_(3)NPs in a biocompatible porous silica nanoreactor could be used as an efficient photothermal therapy agent for photothermal ablation of tumors.
