用于CT、MR和荧光成像引导下癌细胞靶向光热治疗的多功能PS@CS@Au-FeO-FA纳米复合材料

Multifunctional PS@CS@Au-FeO-FA nanocomposites for CT, MR and fluorescence imaging guided targeted-photothermal therapy of cancer cells.

作者信息

Wang Yeying, Liu Xijian, Deng Guoying, Wang Qian, Zhang Lijuan, Wang Qiugen, Lu Jie

机构信息

School of Chemistry and Chemical Engineering, Shanghai University of Engineering Science, Shanghai 201620, P. R. China.

出版信息

J Mater Chem B. 2017 Jun 14;5(22):4221-4232. doi: 10.1039/c7tb00642j. Epub 2017 May 19.

DOI:10.1039/c7tb00642j

PMID:32264152

Abstract

In this work, multifunctional polystyrene@chitosan@gold nanoparticles-FeO nanoparticles-folic acid/indocyanine green (PS@CS@Au-FeO-FA/ICG) nanocomposites that can integrate diagnosis and therapy into one nanoplatform was fabricated. The constructed PS@CS@Au-FeO-FA/ICG nanocomposites possessed excellent computed tomography, magnetic resonance and fluorescence imaging performances which could be used to diagnose tumor and monitor the nanocomposites' localization in vivo. Moreover, PS@CS@Au-FeO-FA/ICG nanocomposites can be delivered in a targeted manner to cancer cells by folic acid in a receptor-mediated way, and tumor growth could be efficiently inhibited, even completely ablated, under NIR irradiation. That is, the constructed PS@CS@Au-FeO-FA/ICG nanocomposites had great potential for computed tomography, magnetic resonance and fluorescence imaging performances, which could be used to diagnose tumors and to monitor local therapy and fluorescence imaging-guided targeted therapy of cancer cells using nanocomposites.

摘要

在这项工作中，制备了一种多功能聚苯乙烯@壳聚糖@金纳米颗粒 - 氧化铁纳米颗粒 - 叶酸/吲哚菁绿（PS@CS@Au - FeO - FA/ICG）纳米复合材料，该复合材料能够将诊断和治疗集成于一个纳米平台。构建的PS@CS@Au - FeO - FA/ICG纳米复合材料具有优异的计算机断层扫描、磁共振和荧光成像性能，可用于诊断肿瘤并监测纳米复合材料在体内的定位。此外，PS@CS@Au - FeO - FA/ICG纳米复合材料可以通过叶酸以受体介导的方式靶向递送至癌细胞，并且在近红外照射下能够有效抑制肿瘤生长，甚至完全消融。也就是说，构建的PS@CS@Au - FeO - FA/ICG纳米复合材料在计算机断层扫描、磁共振和荧光成像性能方面具有巨大潜力，可用于诊断肿瘤以及监测纳米复合材料对癌细胞的局部治疗和荧光成像引导的靶向治疗。

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用于CT、MR和荧光成像引导下癌细胞靶向光热治疗的多功能PS@CS@Au-FeO-FA纳米复合材料

Multifunctional PS@CS@Au-FeO-FA nanocomposites for CT, MR and fluorescence imaging guided targeted-photothermal therapy of cancer cells.

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