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Targeting nanoplatform synergistic glutathione depletion-enhanced chemodynamic,microwave dynamic,and selective-microwave thermal to treat lung cancer bone metastasis
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作者 man shu Jingguang Wang +8 位作者 Ziyang Xu Teliang Lu Yue He Renshan Li Guoqing Zhong Yunbo Yan Yu Zhang Xiao Chu Jin Ke 《Bioactive Materials》 SCIE CSCD 2024年第9期544-561,共18页
Once bone metastasis occurs in lung cancer,the efficiency of treatment can be greatly reduced.Current mainstream treatments are focused on inhibiting cancer cell growth and preventing bone destruction.Microwave ablati... Once bone metastasis occurs in lung cancer,the efficiency of treatment can be greatly reduced.Current mainstream treatments are focused on inhibiting cancer cell growth and preventing bone destruction.Microwave ablation(MWA)has been used to treat bone tumors.However,MWA may damage the surrounding normal tissues.Therefore,it could be beneficial to develop a nanocarrier combined with microwave to treat bone metastasis.Herein,a microwave-responsive nanoplatform(MgFe_(2)O_(4)@ZOL)was constructed.MgFe_(2)O_(4)ZOL NPs release the cargos of Fe^(3+),Mg^(2+)and zoledronic acid(ZOL)in the acidic tumor microenvironment(TME).Fe^(3+)can deplete intracellular glutathione(GSH)and catalyze H_(2)O_(2)to generate•OH,resulting in chemodynamic therapy(CDT).In addition,the microwave can significantly enhance the production of reactive oxygen species(ROS),thereby enabling the effective implementation of microwave dynamic therapy(MDT).Moreover,Mg^(2+)and ZOL promote osteoblast differentiation.In addition,MgFe_(2)O_(4)ZOL NPs could target and selectively heat tumor tissue and enhance the effect of microwave thermal therapy(MTT).Both in vitro and in vivo experiments revealed that synergistic targeting,GSH depletion-enhanced CDT,MDT,and selective MTT exhibited significant antitumor efficacy and bone repair.This multimodal combination therapy provides a promising strategy for the treatment of bone metastasis in lung cancer patients. 展开更多
关键词 MgFe_(2)O_(4)@ZOL nanoparticles TARGETING Chemodynamic therapy Microwave dynamic therapy Microwave thermal therapy
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飞秒激光直写掩模制作硅表面微柱阵列 被引量:3
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作者 田亚湘 张帆 +2 位作者 丁铠文 满姝 吴碧微 《激光与光电子学进展》 CSCD 北大核心 2019年第18期261-266,共6页
提出了一种使用飞秒激光直写掩模加工微柱阵列的方法。利用高重复频率飞秒激光的热氧化效应在硅表面制作出二氧化硅点阵列,然后经氢氧化钾刻蚀得到微柱阵列。相比于传统的制作微柱阵列的方法,使用飞秒激光直写掩模制作微柱阵列的方法工... 提出了一种使用飞秒激光直写掩模加工微柱阵列的方法。利用高重复频率飞秒激光的热氧化效应在硅表面制作出二氧化硅点阵列,然后经氢氧化钾刻蚀得到微柱阵列。相比于传统的制作微柱阵列的方法,使用飞秒激光直写掩模制作微柱阵列的方法工艺简单,成本更低。此外,探究了激光功率、曝光时间和氢氟酸蚀刻对掩模尺寸的影响。这种微柱阵列在减反、传感等领域具有很好的应用价值。 展开更多
关键词 超快光学 热氧化效应 微柱阵列 氢氧化钾 掩模
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