3D 打印微流控芯片用于早产儿生物标志物的微芯片电泳分析。

3D Printed Microfluidic Devices for Microchip Electrophoresis of Preterm Birth Biomarkers.

出版信息

Anal Chem. 2019 Jun 4;91(11):7418-7425. doi: 10.1021/acs.analchem.9b01395. Epub 2019 May 14.

DOI:10.1021/acs.analchem.9b01395

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6561337/

Abstract

This work demonstrates for the first time the creation of microchip electrophoresis devices with ∼50 μm cross-sectional dimensions by stereolithographic 3D printing and their application in the analysis of medically significant biomarkers related to risk for preterm birth (PTB). We determined that device current was linear with applied potential up to 800 V (620 V/cm). We optimized device and separation conditions using fluorescently labeled amino acids as a model system and compared the performance in our 3D printed microfluidic devices to that in other device materials commonly used for microchip electrophoresis analysis. We demonstrated for the first time microchip electrophoresis in a 3D printed device of three PTB biomarkers, including peptides and a protein, with suitable separation characteristics. Limits of detection for microchip electrophoresis in 3D printed microfluidic devices were also determined for PTB biomarkers to be in the high picomolar to low nanomolar range.

摘要

这项工作首次展示了通过立体光刻 3D 打印创建具有约 50 µm 横截面尺寸的微芯片电泳设备，并将其应用于分析与早产 (PTB) 风险相关的具有医学意义的生物标志物。我们确定设备电流在 800 V（620 V/cm）的应用电势范围内呈线性关系。我们使用荧光标记的氨基酸作为模型系统优化了设备和分离条件，并将我们的 3D 打印微流控设备中的性能与其他常用于微芯片电泳分析的设备材料进行了比较。我们首次展示了在 3D 打印设备中对三种 PTB 生物标志物（包括肽和蛋白质）进行微芯片电泳，具有合适的分离特性。3D 打印微流控设备中微芯片电泳的检测限也确定为 PTB 生物标志物的高皮摩尔到低纳摩尔范围。

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