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Physical and biological optimization of core-shell nanoparticle tracers for in vivo MPI

机译：体内MPI的核壳纳米粒子示踪剂的物理和生物学优化

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With improvements in surface coatings, we synthesized MNTs that combine a large core diameter (22–25 nm) for optimal MPI performance with a relatively small hydrodynamic diameter (40-50 nm) required for optimal particokinetics. Hydrodynamic size between 10–100 nm is critical for ensuring long-circulation times [1]. For preliminary safety assessment, we studied the biodistribution and clearance of our optimized MNTs over 7 days using T2-weighted MRI (Figure 2) and tissue histology. Our results show that MNTs accumulate gradually in the liver and spleen, with minimal renal involvement. Furthermore, results indicate that MNTs undergo gradual clearance or breakdown in the liver.

机译：随着表面涂层的改进，我们合成了MNT，这些MNT结合了较大的芯径（22–25 nm）和最佳的动态动力学所需的相对较小的流体动力学直径（40-50 nm），以实现最佳的MPI性能。 10-100 nm之间的流体动力学尺寸对于确保长循环时间至关重要[1]。为了进行初步的安全性评估，我们使用T2加权MRI（图2）和组织组织学研究了优化的MNT在7天内的生物分布和清除率。我们的结果表明，MNTs在肝脏和脾脏中逐渐积累，而肾脏受累最小。此外，结果表明，MNT在肝脏中会逐渐清除或分解。

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《International Workshop on Magnetic Particle Imaging 》|2013年|1|共1页
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Khandhar Amit P.; Ferguson R.Matthew; Arami Hamed; Krishnan Kannan M.;
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1. Core-shell and doped silicate nanoparticles prepared by a spray-drying process for the development of biological luminescent tracers [J] . Philippot C., Dubois F., Bourdolle A., Nonlinear Optics, Quantum Optics . 2012 ,第1a2期

机译：通过喷雾干燥工艺制备的核壳和掺杂硅酸盐纳米颗粒，用于开发生物发光示踪剂
2. Tuning Surface Coatings of Optimized Magnetite Nanoparticle Tracers for In Vivo Magnetic Particle Imaging [J] . Khandhar Amit P., Ferguson R. Matthew, Arami Hamed, Magnetics, IEEE Transactions on . 2015 ,第2期

机译：优化用于体内磁性粒子成像的磁铁矿纳米粒子示踪剂的表面涂层调整
3. Physical-Chemical Aspects of Protein Corona: Relevance to in Vitro and in Vivo Biological Impacts of Nanoparticles [J] . Marco P. Monopoli, Dorota Walczyk, Abigail Campbell, Journal of the American Chemical Society . 2011 ,第8期

机译：蛋白电晕的物理化学方面：与纳米粒子的体内和体外生物影响有关。
4. Physical and biological optimization of core-shell nanoparticle tracers for in vivo MPI [C] . Khandhar Amit P., Ferguson R.Matthew, Arami Hamed, International Workshop on Magnetic Particle Imaging . 2013

机译：体内MPI核心壳纳米粒子示踪剂的物理和生物学优化
5. Manganese oxide core-shell nanoparticles as pH-responsive MRI T1 contrast agent for sensing biological processes in vivo [D] . Lee, Yi-Cheng 2011

机译：锰氧化物核-壳纳米粒子作为pH响应MRI T1造影剂，可用于感测体内生物过程
6. Gram scale synthesis of magnetite nanoparticles optimized for single-core MPI tracers [O] . Scott J. Kemp, R. Matthew Ferguson, Amit P. Khandhar, -1

机译：针对单核MPI示踪剂优化的磁铁矿纳米粒子的克级合成
7. Gram scale synthesis of magnetite nanoparticles optimized for single-core MPI tracers [O] . Scott J. Kemp, R. Matthew Ferguson, Amit P. Khandhar, 2015

机译：用于单核MPI示踪器优化的磁铁矿纳米粒子的克拉垢合成

Physical and biological optimization of core-shell nanoparticle tracers for in vivo MPI

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