用于分子诊断平台的集成压力驱动单向阀的低成本微流体盒的设计与制造

IF 2.4 4区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Micromechanics and Microengineering Pub Date : 2023-09-22 DOI:10.1088/1361-6439/acf8d2

R Scott Downen, Quan Dong, Julius Lee Chen, Zhenyu Li

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引用次数: 0

摘要

摘要:本文介绍了一种低成本、易于制造的微流体盒的设计、制造和初步测试，该微流体盒能够通过定制的压力驱动单向阀进行流体存储和操作。使用台式数控和激光切割机制造墨盒组件，在定制丙烯酸模具中使用PDMS制造单向阀，并使用热扩散焊机组装组件。组装后，对药筒进行了初步测试，包括流体操作和用于分子诊断。为了将样品拉入裂解室，需要超过1.4PSI的真空。没有观察到通往反应室的阀门打开。将流体从裂解室移动到反应室需要超过4.5PSI的真空。最后，使用定制的台式LAMP系统进行了一个潜在应用的概念验证演示，用于分子诊断测试。设计的低成本特性、易于制造、流体储存和操作证明，使该设计成为低资源环境下研究和大批量测试的理想选择。

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Design and fabrication of a low-cost microfluidic cartridge with integrated pressure-driven check valve for molecular diagnostics platforms

Abstract This paper describes the design, fabrication, and preliminary testing of a low-cost, easy to manufacture microfluidics cartridge capable of fluid storage and manipulation through a custom pressure-driven check valve. Cartridge components are fabricated using a desktop CNC and laser cutter, the check valve is fabricated using PDMS in a custom acrylic mold, and the components are assembled using a thermal diffusion welder. Following assembly, preliminary testing of the cartridge, including fluid manipulation and use for molecular diagnostics, was performed. To pull a sample into the lysing chamber, a vacuum over 1.4PSI was required. No opening of the valve to the reaction chamber was observed. Moving fluid across the custom valve from the lysing chamber to the reaction chamber then required a vacuum over 4.5PSI. Finally, a proof-of-concept demonstration of one potential application was performed using a custom benchtop LAMP system for molecular diagnostic testing. The low-cost nature of the design, ease of manufacturing, fluid storage and manipulation demonstrated make this design ideal for research and high-volume testing in low resource environments.

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来源期刊

Journal of Micromechanics and Microengineering 工程技术-材料科学：综合

CiteScore

4.50

自引率

4.30%

发文量

136

审稿时长

2.8 months

期刊介绍： Journal of Micromechanics and Microengineering (JMM) primarily covers experimental work, however relevant modelling papers are considered where supported by experimental data. The journal is focussed on all aspects of: -nano- and micro- mechanical systems -nano- and micro- electomechanical systems -nano- and micro- electrical and mechatronic systems -nano- and micro- engineering -nano- and micro- scale science Please note that we do not publish materials papers with no obvious application or link to nano- or micro-engineering. Below are some examples of the topics that are included within the scope of the journal: -MEMS and NEMS: Including sensors, optical MEMS/NEMS, RF MEMS/NEMS, etc. -Fabrication techniques and manufacturing: Including micromachining, etching, lithography, deposition, patterning, self-assembly, 3d printing, inkjet printing. -Packaging and Integration technologies. -Materials, testing, and reliability. -Micro- and nano-fluidics: Including optofluidics, acoustofluidics, droplets, microreactors, organ-on-a-chip. -Lab-on-a-chip and micro- and nano-total analysis systems. -Biomedical systems and devices: Including bio MEMS, biosensors, assays, organ-on-a-chip, drug delivery, cells, biointerfaces. -Energy and power: Including power MEMS/NEMS, energy harvesters, actuators, microbatteries. -Electronics: Including flexible electronics, wearable electronics, interface electronics. -Optical systems. -Robotics.