Development of novel, simple and low–cost microfluidic platform for supporting 3D dynamic cell culture

Vietnam Journal of Science and Technology Pub Date : 2023-04-17 DOI:10.15625/2525-2518/16735

Nguyen Thanh Duong Nguyen, Thu Uyen Pham, Tran Dinh Thiet

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引用次数: 0

Abstract

Cell culture models more accurately would be of significant value to the medical field and pharmaceutical industry. To achieve this goal, microfluidic cell culture platforms are created and improved for modeling the native cell microenvironment because they can precisely reconstruct in vivo cellular behavior. In this study, a 3D low-cost microfluidic device is used to compare the difference between the static and dynamic environment in 3D cell culture. Cells were seeded in the microfluidic device, and to produce the fluidic flow, the pump was used with the set speed was 0.045ml/min. In 3D cell culture, the viability of cells was monitored by size growth of the spheroids for 7 days. All systems were designed and optimized without leakage of the medium. In the results, the 3D dynamic condition showed a faster increase in size than in the static condition. Overall, the study was prepared for microfluidic platforms with low-cost and simple settings. Moreover, the usage of 3D microfluidic to mimic in vivo returned favorable results that were expected for drug testing in the future.

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开发新颖、简单、低成本的微流控平台，支持三维动态细胞培养

更准确的细胞培养模型对医学领域和制药行业具有重要的价值。为了实现这一目标，微流体细胞培养平台被创建和改进，以模拟天然细胞微环境，因为它们可以精确地重建体内细胞行为。本研究采用一种低成本的三维微流控装置来比较三维细胞培养中静态和动态环境的差异。将细胞接种于微流控装置中，使用泵产生流控流，设定流速为0.045ml/min。在三维细胞培养中，通过球体的大小生长监测细胞的活力，持续7天。所有系统的设计和优化均无介质泄漏。结果表明，三维动态条件下的尺寸增长速度比静态条件下的要快。总的来说，本研究是为低成本和简单设置的微流控平台准备的。此外，使用3D微流体模拟体内的情况也获得了良好的结果，有望用于未来的药物测试。

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

Vietnam Journal of Science and Technology

CiteScore

0.50

自引率

0.00%

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