体内
化疗
免疫疗法
荧光寿命成像显微镜
乳腺癌
癌症
癌症研究
材料科学
流式细胞术
阿霉素
癌细胞
间质细胞
显像剂
医学
生物医学工程
荧光
免疫学
生物
内科学
生物技术
物理
量子力学
作者
Xiaoxia Hao,Chunyan Li,Yejun Zhang,Haozhi Wang,Guangcun Chen,Mao Wang,Qiangbin Wang
标识
DOI:10.1002/adma.201804437
摘要
Abstract Combined chemotherapy and immunotherapy have demonstrated great potential in cancer treatment. However, it is difficult to provide clear information of the pharmacokinetics and pharmacodynamics of chemodrugs and transplanted immune cells in vivo by traditional approaches, resulting in inadequate therapy. Here, a multiplexed intravital imaging strategy by using fluorescence in the second near‐infrared window (NIR‐II) is first developed to visualize the two events of chemotherapy and immunotherapy in vivo, so that a combinational administration is programed to improve the therapeutical effects against a mouse model of human breast cancer. In detail, Ag 2 Se quantum dots (QDs) (λ Em = 1350 nm) loaded with stromal‐cell‐derived factor‐1α (SDF‐1α) and chemodrug doxorubicin (DOX) are first administrated to deliver the SDF‐1α and DOX to the tumor site. After their arrival, monitored by Ag 2 Se QD fluorescence, natural killer (NK)‐92 cells labeled with Ag 2 S QDs (λ Em = 1050 nm) are intravenously injected so that the cells are recruited to the tumor by the chemotaxis of SDF‐1α, which is visualized by Ag 2 S QD fluorescence. Such an imaging approach allows simultaneous evaluation of the behaviors of individual injections in vivo, and facilitates optimized administration regimens, resulting in enhanced tumor inhibition.
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