基于生理的复合纳米器件药代动力学模型：荷电与尺寸对体内处置的影响。

Physiologically based pharmacokinetic model for composite nanodevices: effect of charge and size on in vivo disposition.

机构信息

Dept. of Pharmaceutical Sciences,, University at Buffalo SUNY, Buffalo, New York 14260, USA.

出版信息

Pharm Res. 2012 Sep;29(9):2534-42. doi: 10.1007/s11095-012-0784-7. Epub 2012 Jun 12.

DOI:10.1007/s11095-012-0784-7

PMID:22688900

Abstract

PURPOSE

To characterize temporal exposure and elimination of 5 gold/dendrimer composite nanodevices (CNDs) (5 nm positive, negative, and neutral, 11 nm negative, 22 nm positive) in mice using a physiologically based mathematical model.

METHODS

400 ug of CNDs is injected intravenously to mice bearing melanoma cell lines. Gold content is determined from plasma and tissue samples using neutron activation analysis. A physiologically based pharmacokinetic (PBPK) model is developed for 5 nm positive, negative, and neutral and 11 nm negative nanoparticles and extrapolated to 22 nm positive particles. A global sensitivity analysis is performed for estimated model parameters.

RESULTS

Negative and neutral particles exhibited similar distribution profiles. Unique model parameter estimates and distribution profiles explain similarities and differences relative to positive particles. The model also explains mechanisms of elimination by kidney and reticuloendothelial uptake in liver and spleen, which varies with particle size and charge.

CONCLUSION

Since the PBPK model can capture the diverse temporal profiles of non-targeted nanoparticles, we propose that when specific binding ligands are lacking, size and charge of nanodevices govern most of their in vivo interactions.

摘要

目的

利用基于生理学的数学模型，描述 5 种金/树枝状复合纳米器件（CND）（5nm 正、负、中和 11nm 负、22nm 正）在小鼠体内的时间暴露和消除特征。

方法

将 400μg CND 静脉注射到携带黑色素瘤细胞系的小鼠体内。使用中子活化分析从血浆和组织样本中测定金含量。为 5nm 正、负和中和以及 11nm 负纳米颗粒开发了基于生理学的药代动力学（PBPK）模型，并外推至 22nm 正颗粒。对估计模型参数进行了全局敏感性分析。

结果

负电和中性颗粒表现出相似的分布特征。独特的模型参数估计和分布特征解释了与正颗粒的相似性和差异性。该模型还解释了通过肾脏和网状内皮系统在肝脏和脾脏中的消除机制，其随颗粒大小和电荷而变化。

结论

由于 PBPK 模型可以捕获非靶向纳米颗粒的多样化时间分布特征，因此我们提出，当缺乏特定的结合配体时，纳米器件的大小和电荷决定了它们在体内的大部分相互作用。

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基于生理的复合纳米器件药代动力学模型：荷电与尺寸对体内处置的影响。

Physiologically based pharmacokinetic model for composite nanodevices: effect of charge and size on in vivo disposition.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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