Near-infrared fluorescence energy transfer imaging of nanoparticle accumulation and dissociation kinetics in tumor-bearing mice

Zhao Y.; Van Rooy I.; Hak S.; Fay F.; Tang J.; Davies C.D.L.; Skobe M.; Fisher E.A.; Radu A.; Fayad Z.A.; De Mello Donegá C.; Meijerink A.; Mulder W.J.M.

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Near-infrared fluorescence energy transfer imaging of nanoparticle accumulation and dissociation kinetics in tumor-bearing mice

机译：荷瘤小鼠纳米粒子聚集和解离动力学的近红外荧光能量转移成像

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In the current study we show the dissociation and tumor accumulation dynamics of dual-labeled near-infrared quantum dot core self-assembled lipidic nanoparticles (SALNPs) in a mouse model upon intravenous administration. Using advanced in vivo fluorescence energy transfer imaging techniques, we observed swift exchange with plasma protein components in the blood and progressive SALNP dissociation and subsequent trafficking of individual SALNP components following tumor accumulation. Our results suggest that upon intravenous administration SALNPs quickly transform, which may affect their functionality. The presented technology provides a modular in vivo tool to visualize SALNP behavior in real time and may contribute to improving the therapeutic outcome or molecular imaging signature of SALNPs.

机译：在当前的研究中，我们显示了静脉注射后在小鼠模型中双标记的近红外量子点核心自组装脂质纳米颗粒（SALNPs）的解离和肿瘤蓄积动力学。使用先进的体内荧光能量转移成像技术，我们观察到血液中血浆蛋白成分的快速交换和进行性SALNP的解离以及肿瘤积累后个体SALNP成分的随后运输。我们的结果表明，静脉内给药SALNPs会迅速转化，这可能会影响其功能。提出的技术提供了一种模块化的体内工具，可实时可视化SALNP行为，并且可能有助于改善SALNP的治疗效果或分子成像特征。

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《ACS nano》 |2013年第11期|共9页
作者
Zhao Y.; Van Rooy I.; Hak S.; Fay F.; Tang J.; Davies C.D.L.; Skobe M.; Fisher E.A.; Radu A.; Fayad Z.A.; De Mello Donegá C.; Meijerink A.; Mulder W.J.M.;
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正文语种 eng
中图分类分子物理学、原子物理学;
关键词
F?rster resonance energy transfer; in vivo imaging; lipidic nanoparticles; quantum dots; tumor-bearing mice;

机译：共振共振能量转移;体内成像;脂质纳米颗粒;量子点;荷瘤小鼠;

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专利

1. Near-infrared fluorescence energy transfer imaging of nanoparticle accumulation and dissociation kinetics in tumor-bearing mice [J] . Zhao Y., Van Rooy I., Hak S., ACS nano . 2013,第11期

机译：荷瘤小鼠纳米粒子聚集和解离动力学的近红外荧光能量转移成像
2. Fluorescence Resonance Energy Transfer Mediated Large Stokes Shifting Near-Infrared Fluorescent Silica Nanoparticles for in Vivo Small-Animal Imaging [J] . Xiaoxiao He, Yushuang Wang, Kemin Wang, Analytical chemistry . 2012,第21期

机译：荧光共振能量转移介导的大斯托克斯位移近红外荧光二氧化硅纳米粒子用于体内小动物成像
3. Physiologically Based Pharmacokinetics of Molecular Imaging Nanoparticles for mRNA Detection Determined in Tumor-Bearing Mice [J] . Opitz Armin W., Wickstrom Eric, Thakur Mathew L., Oligonucleotides . 2010,第3期

机译：分子成像纳米颗粒基于生理的药代动力学检测荷瘤小鼠中的mRNA检测。
4. Efficient Fluorescence Resonant Energy Transfer between ZnO Nanoparticles and Fluorescein Dye in Liquid Medium for Cell Imaging and Cancer Therapy [C] . Frincy Francis, Keziya James, Hanna Mariya Joseph, International Conference on Optoelectronic and Nano Materials for Advanced Technology . 2019

机译：ZnO纳米颗粒与液体培养基中的荧光荧光染料与细胞成像和癌症治疗的高效荧光共振能量转移
5. Understanding electrostatics in polymersomes, monolayers, and worm-like micelles with application to NIR imaging and tumor-bearing mice. [D] . Christian, David Allan. 2009

机译：了解聚合物小体，单层膜和蠕虫状微团中的静电，并将其应用于近红外成像和荷瘤小鼠。
6. Near-Infrared Fluorescence Energy Transfer Imaging of Nanoparticle Accumulation and Dissociation Kinetics in Tumor-Bearing Mice [O] . Yiming Zhao, Inge van Rooy, Sjoerd Hak, -1

机译：荷瘤小鼠体内纳米粒子累积和解离动力学的近红外荧光能量转移成像
7. Near-infrared fluorescence energy transfer imaging of nanoparticle accumulation and dissociation kinetics in tumor-bearing mice [O] . Zhao, Yiming, van Rooy, Inge, Hak, Sjoerd, 2013

机译：荷瘤小鼠纳米粒子聚集和解离动力学的近红外荧光能量转移成像
8. Kinetics of Association-Dissociation Reactions and Energy Transfer in Diatomic Molecules. [R] . Burns, G. 1976

机译：双原子分子中缔合 - 解离反应和能量转移的动力学。

Near-infrared fluorescence energy transfer imaging of nanoparticle accumulation and dissociation kinetics in tumor-bearing mice

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