Novel microfluidic device integrated with a fluidic-capacitor to mimic heart beating for generation of functional liver organoids

Wu Jiaxu; Hirai Yoshikazu; Kamei Ken-Ichiro; Tsuchiya Toshiyuki; Tabata Osamu

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Novel microfluidic device integrated with a fluidic-capacitor to mimic heart beating for generation of functional liver organoids

机译：集成有流体电容器的新型微流控设备可模拟心脏跳动，以生成功能性肝类器官

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Liver organoids hold a great potential to understand liver development and contribute for drug screening and toxicological testing. However, conventional methods to generate organoids provide insufficient liver functions and less reproducibility, due to lack of controllability of cellular microenvironmental cues. To tackle these issues, we focus on one of the environmental cues, pressure stimuli by heart beating, and develop a microfluidic-based cell culture platform integrating a fluidic capacitor to produce pressure stimuli with hydrostatic pressure. Furthermore, we demonstrate a numerical simulation based on equivalent circuit model for designing the device parameters with sufficient accuracy. This device concept will provide insights into physical micro-environmental regulation on organoid development.

机译：肝类器官具有巨大的潜力，可以了解肝脏的发育，并有助于药物筛选和毒理学测试。然而，由于缺乏细胞微环境提示的可控制性，产生类器官的常规方法提供了不足的肝功能和较低的再现性。为了解决这些问题，我们专注于环境提示之一，即通过心脏跳动进行压力刺激，并开发一种基于微流体的细胞培养平台，该平台集成了流体电容器以产生具有静水压力的压力刺激。此外，我们演示了基于等效电路模型的数值仿真，用于以足够的精度设计器件参数。该设备概念将提供有关类器官发育的物理微环境调节的见识。

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来源
《Electronics and communications in Japan》 |2019年第10期|41-49|共9页
作者
Wu Jiaxu; Hirai Yoshikazu; Kamei Ken-Ichiro; Tsuchiya Toshiyuki; Tabata Osamu;
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作者单位

Kyoto Univ Dept Micro Engn Kyoto Japan|Univ Tokyo Dept Precis Engn Tokyo Japan;

Kyoto Univ Dept Micro Engn Kyoto Japan;

Kyoto Univ Inst Integrated Cell Mat Sci iCeMS Inst Adv Study Kyoto Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
equivalent circuit model; fluidic capacitor; organoid; polydimethylsiloxane; pressure stimulus;

机译：等效电路模型流体电容器类器官聚二甲基硅氧烷压力刺激;
入库时间 2022-08-18 04:32:30

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2. Beating heart on a chip: a novel microfluidic platform to generate functional 3D cardiac microtissues [J] . Marsano Anna, Conficconi Chiara, Lemme Marta, Lab on a chip . 2016,第3期

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3. Generation of Nonbiased Hydrodynamic Injections on Microfluidic Devices Using Integrated Dielectric Elastomer Actuators [J] . Alexander K. Price, Christopher T. Culbertson Analytical chemistry . 2009,第21期

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4. Recovery of Energy Stores of Non-Heart-Beating Donor Livers Following Preservation by Hypothermic Machine Perfusion [C] . Charles Y. Lee, Heather M. Duncan, Shailendra Jain, Proceedings of the ASME Heat Transfer Division 2003 . 2003

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5. Traditional and 3D-Printed Microfluidic Devices for Analysis of in vivo Mimics [D] . Harrison, Alexandra D. 2019

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6. Microfluidic Devices: Integrated Microfluidic Device for Drug Studies of Early C. Elegans Embryogenesis (Adv. Sci. 5/2018) [O] . Li Dong, Radek Jankele, Matteo Cornaglia, 2018

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7. Novel microfluidic device integrated with a fluidic‐capacitor to mimic heart beating for generation of functional liver organoids [O] . Jiaxu Wu, Yoshikazu Hirai, Ken‐Ichiro Kamei, 2019

机译：新型微流体装置与流体电容集成，以模仿心脏跳动，用于产生功能性肝脏器材

Novel microfluidic device integrated with a fluidic-capacitor to mimic heart beating for generation of functional liver organoids

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