Hepatocyte-based flow analytical bioreactor for online xenobiotics metabolism bioprediction.

Q1 Engineering

Nanobiomedicine Pub Date : 2017-04-12 eCollection Date: 2017-01-01 DOI:10.1177/1849543517702898

M Helvenstein, S Hambÿe, B Blankert

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Abstract

The research for new in vitro screening tools for predictive metabolic profiling of drug candidates is of major interest in the pharmaceutical field. The main motivation is to avoid late rejection in drug development and to deliver safer drugs to the market. Thanks to the superparamagnetic properties of iron oxide nanoparticles, a flow bioreactor has been developed which is able to perform xenobiotic metabolism studies. The selected cell line (HepaRG) maintained its metabolic competencies once iron oxide nanoparticles were internalized. Based on magnetically trapped cells in a homemade immobilization chamber, through which a flow of circulating phase was injected to transport nutrients and/or the studied xenobiotic, off-line and online (when coupled to a high-performance liquid chromatography chain) metabolic assays were developed using diclofenac as a reference compound. The diclofenac demonstrated a similar metabolization profile chromatogram, both with the newly developed setup and with the control situation. Highly versatile, this pioneering and innovative instrumental design paves the way for a new approach in predictive metabolism studies.

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基于肝细胞的流动分析生物反应器，用于在线异种生物代谢生物预测。

研究新的体外筛选工具来预测候选药物的代谢谱是制药领域的主要兴趣。其主要动机是避免药物开发的后期排斥反应，并向市场提供更安全的药物。由于氧化铁纳米颗粒的超顺磁性，一种能够进行异种代谢研究的流动生物反应器已经被开发出来。一旦氧化铁纳米颗粒内化，选定的细胞系(HepaRG)保持其代谢能力。磁性捕获细胞在自制的固定室中，通过循环相注入流动来运输营养物质和/或所研究的异种生物，以双氯芬酸为参比化合物开发了离线和在线(当与高效液相色谱链耦合时)代谢测定。双氯芬酸在新建立的装置和对照情况下均表现出相似的代谢谱图。高度通用，这种开拓性和创新性的仪器设计为预测代谢研究的新方法铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nanobiomedicine Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

6.80

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： Nanobiomedicine is an international, peer-reviewed, open access scientific journal that publishes research in nanotechnology as it interfaces with fundamental studies in biology, as well as its application to the fields of medicine. Nanobiomedicine covers all key aspects of this research field, including, but not limited to, bioengineering, biophysics, physical and biological chemistry, and physiology, as well as nanotechnological applications in diagnostics, therapeutic application, preventive medicine, drug delivery, and monitoring of human disease. Additionally, theoretical and modeling studies covering the nanobiomedicine fields will be considered. All submitted articles considered suitable for Nanobiomedicine are subjected to rigorous peer review to ensure the highest levels of quality. The review process is carried out as quickly as possible to minimize any delays in the online publication of articles. Submissions are encouraged on all topics related to nanobiomedicine, and its clinical applications including but not limited to: Nanoscale-structured biomaterials, Nanoscale bio-devices, Nanoscale imaging, Nanoscale drug delivery, Nanobiotechnology, Nanorobotics, Nanotoxicology, Nanoparticles, Nanocarriers, Nanofluidics, Nanosensors (nanowires, nanophotonics), Nanosurgery (dermatology, gastroenterology, ophthalmology, etc), Nanocarriers commercialization of nanobiomedical technologies, Market trends in the nanobiomedicine space, Ethics and regulatory aspects of nanobiomedicine approval, New perspectives of nanobiomedicine in clinical diagnostics, BioMEMS, Nano-coatings, Plasmonics, Nanoscale visualization.