Simple dynamic cell culture system reduces recording noise in microelectrode array recordings

IF 1.8 4区材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

MRS Communications Pub Date : 2024-04-22 DOI:10.1557/s43579-024-00554-3

Darius Hoven, Misaki Inaoka, Reece McCoy, A. Withers, Róisín M. Owens, G. Malliaras

引用次数: 0

Abstract

Microelectrode arrays (MEAs) have applications in drug discovery, toxicology, and basic research. They measure the electrophysiological response of tissue cultures to quantify changes upon exposure to biochemical stimuli. Unfortunately, manual addition of chemicals introduces significant noise in the recordings. Here, we report a simple-to-fabricate fluidic system that addresses this issue. We show that cell cultures can be successfully established in the fluidic compartment under continuous flow conditions and that the addition of chemicals introduces minimal noise in the recordings. This dynamic cell culture system represents an improvement over traditional tissue culture wells used in MEAs, facilitating electrophysiology measurements. Graphical abstract

Abstract Image

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简单的动态细胞培养系统可降低微电极阵列记录的噪声

微电极阵列（MEA）可应用于药物发现、毒理学和基础研究。它们测量组织培养物的电生理反应，量化暴露于生化刺激时的变化。遗憾的是，人工添加化学物质会在记录中引入大量噪声。在这里，我们报告了一种易于制造的流体系统，它可以解决这个问题。我们的研究表明，细胞培养可以在连续流动条件下成功地在流体室中建立，而且添加化学物质在记录中带来的噪音极小。这种动态细胞培养系统是对 MEA 中使用的传统组织培养井的一种改进，有助于电生理学测量。图表摘要

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来源期刊

MRS Communications MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

2.60

自引率

10.50%

发文量

166

审稿时长

>12 weeks

期刊介绍： MRS Communications is a full-color, high-impact journal focused on rapid publication of completed research with broad appeal to the materials community. MRS Communications offers a rapid but rigorous peer-review process and time to publication. Leveraging its access to the far-reaching technical expertise of MRS members and leading materials researchers from around the world, the journal boasts an experienced and highly respected board of principal editors and reviewers.