Synthesis, Characterization, and Application of Core Shell Co0.16Fe2.84O4@NaYF4(Yb, Er) and Fe3O4@NaYF4(Yb, Tm) Nanoparticle as Trimodal (MRI, PET/SPECT, and Optical) Imaging Agents

Cui Xianjin; Mathe Domokos; Kovacs Noemi; Horvath Ildiko; Jauregui-Osoro Maite; de Rosales Rafael Torres Martin; Mullen Gregory E. D.; Wong Wilson; Yan Yong; Krueger Dirk; Khlobystov Andrei N.; Gimenez-Lopez Maria; Semjeni Mariann; Szigeti Krisztian; Veres Daniel S.; Lu Haizhou; Hernandez Ignacio; Gillin William P.; Protti Andrea; Petik Katalin Kis; Green Mark A.; Blower Philip J.

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Synthesis, Characterization, and Application of Core Shell Co0.16Fe2.84O4@NaYF4(Yb, Er) and Fe3O4@NaYF4(Yb, Tm) Nanoparticle as Trimodal (MRI, PET/SPECT, and Optical) Imaging Agents

机译：核壳Co0.16Fe2.84O4@NaYF4（Yb，Er）和Fe3O4 @ NaYF4（Yb，Tm）纳米壳的合成，表征及应用为三峰（MRI，PET / SPECT和光学）成像剂

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Multimodal nanoparticulate materials are described, offering magnetic, radionuclide, and fluorescent imaging capabilities to exploit the complementary advantages of magnetic resonance imaging (MRI), positron emission tomography/singlephoton emission commuted tomography (PET/SPECT), and optical imaging. They comprise Fe3O4@NaYF4 core/shell nanoparticles (NPs) with different cation dopants in the shell or core, including Co0.6Fe2.84O4@NaYF4(Yb, Er) and Fe3O4@ NaYF4(Yb, Tm). These NPs are stabilized by bisphosphonate polyethylene glycol conjugates (BP-PEG), and then show a high transverse relaxivity (r(2)) up to 326 mM(-1) s(-1) at 3T, a high affinity to [F-18]-fluoride or radiometal-bisphosphonate conjugates (e.g., 64Cu and 99mTc), and fluorescent emissions from 500 to 800 nm under excitation at 980 nm. The biodistribution of intravenously administered particles determined by PET/MR imaging suggests that negatively charged Co0.6Fe2.84O4@NaYF4(Yb, Er)-BP-PEG (10K) NPs cleared from the blood pool more slowly than positively charged NPs Fe3O4@NaYF4(Yb, Tm)-BP-PEG (2K). Preliminary results in sentinel lymph node imaging in mice indicate the advantages of multimodal imaging.

机译：描述了多峰纳米颗粒材料，它们提供磁性，放射性核素和荧光成像功能，以利用磁共振成像（MRI），正电子发射断层扫描/单光子发射换向断层扫描（PET / SPECT）和光学成像的互补优势。它们包含Fe3O4 @ NaYF4核/壳纳米粒子（NP），在壳或核中具有不同的阳离子掺杂剂，包括Co0.6Fe2.84O4@NaYF4（Yb，Er）和Fe3O4 @ NaYF4（Yb，Tm）。这些NP被双膦酸酯聚乙二醇共轭物（BP-PEG）稳定，然后在3T时显示高达326 mM（-1）s（-1）的高横向弛豫性（r（2）），对[F -18]-氟化物或放射性金属-双膦酸盐共轭物（例如64Cu和99mTc），在980 nm激发下从500至800 nm发出荧光。通过PET / MR成像确定的静脉内给药颗粒的生物分布表明，带负电的Co0.6Fe2.84O4@NaYF4（Yb，Er）-BP-PEG（10K）NP从血池中清除的速度比带正电的NPs Fe3O4 @ NaYF4慢。（Yb，Tm）-BP-PEG（2K）。小鼠前哨淋巴结成像的初步结果表明了多峰成像的优势。

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《Bioconjugate Chemistry》 |2016年第2期|共10页
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Cui Xianjin; Mathe Domokos; Kovacs Noemi; Horvath Ildiko; Jauregui-Osoro Maite; de Rosales Rafael Torres Martin; Mullen Gregory E. D.; Wong Wilson; Yan Yong; Krueger Dirk; Khlobystov Andrei N.; Gimenez-Lopez Maria; Semjeni Mariann; Szigeti Krisztian; Veres Daniel S.; Lu Haizhou; Hernandez Ignacio; Gillin William P.; Protti Andrea; Petik Katalin Kis; Green Mark A.; Blower Philip J.;
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1. Synthesis, Characterization, and Application of Core Shell Co0.16Fe2.84O4@NaYF4(Yb, Er) and Fe3O4@NaYF4(Yb, Tm) Nanoparticle as Trimodal (MRI, PET/SPECT, and Optical) Imaging Agents [J] . Cui Xianjin, Mathe Domokos, Kovacs Noemi, Bioconjugate Chemistry . 2016,第2期

机译：核壳Co0.16Fe2.84O4@NaYF4（Yb，Er）和Fe3O4 @ NaYF4（Yb，Tm）纳米壳的合成，表征及应用为三峰（MRI，PET / SPECT和光学）成像剂
2. Multiple doping effect of LiYF4:Yb3+/Er3+/Ho3+/Tm3+@LiYF4:Yb3+ core/shell nanoparticles and its application in Hg2+ sensing detection [J] . Chien Hsiu-Wen, Wu Cheng-Hsien, Yang Chien-Hsin, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2019,第期

机译：LiyF4：YB3 + / ER3 + / HO3 + / TM3 + @ LiyF4：YB3 +核/壳纳米粒子及其在HG2 +传感检测中的应用
3. Monodisperse and core-shell structured NaYF_4:Ln@SiO_2 (Ln=Yb/Er, Yb/Tm) microspheres: Synthesis and characterization [J] . Shuyuan Tan, Piaoping Yang, Na Niu Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2010,第1a2期

机译：单分散核壳结构NaYF_4：Ln @ SiO_2（Ln = Yb / Er，Yb / Tm）微球：合成与表征
4. Shortwave-infrared emitters for biological imaging based on Yb-Er-Tm and Yb-Er-Ho tridoped core-shell NaGdF4 nanoparticles [C] . D.V. Pominova, V. Yu. Proydakova, I.D. Romanishkin, International Conference Laser Optics . 2020

机译：基于YB-ER-TM和YB-ER-HO的生物成像的短波红外发射器克雷德核心壳NagdF4纳米粒子
5. Development of Spectrally Tuned, Erbium Doped NaYF4: Yb, Tm, Er Upconverting Nanoparticles and Their Applications [D] . Nguyen, Vina. 2020

机译：光谱调谐的开发，掺铒NayF4：Yb，Tm，ER上变频纳米粒子及其应用
6. Synthesis Characterization and Application of Core–ShellCo0.16Fe2.84O4@NaYF4(YbEr) and Fe3O4@NaYF4(Yb Tm) Nanoparticleas Trimodal (MRI PET/SPECT and Optical) Imaging Agents [O] . Xianjin Cui, Domokos Mathe, Noémi Kovács, -1

机译：核壳的合成表征及应用Co0.16Fe2.84O4@NaYF4（YbEr）和Fe3O4 @ NaYF4（YbTm）纳米粒子作为三峰（MRIPET / SPECT和光学）成像剂
7. Synthesis, Characterization, and Application of Core–Shell Co0.16Fe2.84O4@NaYF4(Yb, Er) and Fe3O4@NaYF4(Yb, Tm) Nanoparticle as Trimodal (MRI, PET/SPECT, and Optical) Imaging Agents [O] . Cui, Xianjin, Mathe, Domokos, Kovács, Noémi, 2016

机译：核壳Co0.16Fe2.84O4@NaYF4（Yb，Er）和Fe3O4 @ NaYF4（Yb，Tm）纳米粒子作为三峰（MRI，PET / SPECT和光学）成像剂的合成，表征和应用

Synthesis, Characterization, and Application of Core Shell Co0.16Fe2.84O4@NaYF4(Yb, Er) and Fe3O4@NaYF4(Yb, Tm) Nanoparticle as Trimodal (MRI, PET/SPECT, and Optical) Imaging Agents

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