Multimodal imaging in the second near-infrared window(NIR-II)guided cancer therapy is a highly precise and efficient cancer theranostic strategy.However,it is still a challenge to develop activated NIR-II optical imag...Multimodal imaging in the second near-infrared window(NIR-II)guided cancer therapy is a highly precise and efficient cancer theranostic strategy.However,it is still a challenge to develop activated NIR-II optical imaging and therapy agents.In this study,we develop a pH-responsive hybrid plasmonic-fluorescent vesicle by self-assembly of amphiphilic plasmonic nanogapped gold nanorod(AuNNR)and fluorescent down-conversion nanoparticles(DCNP)(AuNNR-DCNP Ve),showing remarkable and activated NIR-II fluorescence(FL)/NIR-II photoacoustic(PA)imaging performances.The hybrid vesicle also exhibited superior loading capacity of doxorubicin as a superior drug carrier and efficient radiosensitizer for X-ray-induced radiotherapy.Interestingly,the accumulated hybrid AuNNR-DCNP Ve in the tumor resulted in a recovery of NIR-II FL imaging signal and a variation in NIR-II PA imaging signal.Dual activated NIR-II PA and FL imaging of the hybrid vesicle could trace drug release and precisely guided cancer radiotherapy to ultimately reduce the side effects to healthy tissue.展开更多
Oxygen deficiency is a major obstacle to hypoxic-related cancer theranostics,and developing the oxygen production nanoplatforms received the widespread attention.However,it is remaining a challenge to structure a nano...Oxygen deficiency is a major obstacle to hypoxic-related cancer theranostics,and developing the oxygen production nanoplatforms received the widespread attention.However,it is remaining a challenge to structure a nanoplatform with hypoxia alleviation effect and imaging-guided cancer radiotherapy.Herein,we present a novel theranostics nanoplatform(Au NPs/UCNPs/WO_(3)@C)comprising of tungsten trioxide(WO3)that loaded gold nanoparticles(Au NPs)and up-conversion nanoparticles(UCNPs)for improved photoacoustic(PA)imaging performance in the second near infrared window(NIR-Ⅱ,900-1,700 nm).Au NPs/UCNPs/WO_(3)@C exhibited superior oxygen-generation effect and doxorubicin loading capacity,thus serving as an efficient radiosensitizer for radio-chemo anti-cancer therapy.Importantly,the accumulated Au NPs/UCNPs/WO_(3)@C in the tumor region led to the increased NIR-Ⅱ PA imaging signal and the blood oxygen saturation signal,which could enhance radiation sensitivity and accurately guiding cancer radiotherapy to reduce side effects on normal tissues.This study with proof-of-concept confirmed the multifaceted characteristics and encouraging potential of biomimetic Au NPs/UCNPs/WO_(3)@C for NIR-Ⅱ PA imaging-guided tumor therapeutics.展开更多
基金This work was supported by the National Natural Science Foundation of China(Nos.21635002 and 21874024)the joint research projects of Health and Education Commission of Fujian Province(No.2019-WJ-20).
文摘Multimodal imaging in the second near-infrared window(NIR-II)guided cancer therapy is a highly precise and efficient cancer theranostic strategy.However,it is still a challenge to develop activated NIR-II optical imaging and therapy agents.In this study,we develop a pH-responsive hybrid plasmonic-fluorescent vesicle by self-assembly of amphiphilic plasmonic nanogapped gold nanorod(AuNNR)and fluorescent down-conversion nanoparticles(DCNP)(AuNNR-DCNP Ve),showing remarkable and activated NIR-II fluorescence(FL)/NIR-II photoacoustic(PA)imaging performances.The hybrid vesicle also exhibited superior loading capacity of doxorubicin as a superior drug carrier and efficient radiosensitizer for X-ray-induced radiotherapy.Interestingly,the accumulated hybrid AuNNR-DCNP Ve in the tumor resulted in a recovery of NIR-II FL imaging signal and a variation in NIR-II PA imaging signal.Dual activated NIR-II PA and FL imaging of the hybrid vesicle could trace drug release and precisely guided cancer radiotherapy to ultimately reduce the side effects to healthy tissue.
基金This research was supported by the National Natural Science Foundation of China(Nos.22027805 and 21874024)the National Key R&D Program of China(No.2020YFA0210800)+1 种基金the joint research projects of Health and Education Commission of Fujian Province(No.2019-WJ-20)the Natural Science Foundation of Fujian Province(No.2020J02012).
文摘Oxygen deficiency is a major obstacle to hypoxic-related cancer theranostics,and developing the oxygen production nanoplatforms received the widespread attention.However,it is remaining a challenge to structure a nanoplatform with hypoxia alleviation effect and imaging-guided cancer radiotherapy.Herein,we present a novel theranostics nanoplatform(Au NPs/UCNPs/WO_(3)@C)comprising of tungsten trioxide(WO3)that loaded gold nanoparticles(Au NPs)and up-conversion nanoparticles(UCNPs)for improved photoacoustic(PA)imaging performance in the second near infrared window(NIR-Ⅱ,900-1,700 nm).Au NPs/UCNPs/WO_(3)@C exhibited superior oxygen-generation effect and doxorubicin loading capacity,thus serving as an efficient radiosensitizer for radio-chemo anti-cancer therapy.Importantly,the accumulated Au NPs/UCNPs/WO_(3)@C in the tumor region led to the increased NIR-Ⅱ PA imaging signal and the blood oxygen saturation signal,which could enhance radiation sensitivity and accurately guiding cancer radiotherapy to reduce side effects on normal tissues.This study with proof-of-concept confirmed the multifaceted characteristics and encouraging potential of biomimetic Au NPs/UCNPs/WO_(3)@C for NIR-Ⅱ PA imaging-guided tumor therapeutics.
