Huang Cheng-Yeh, Tsai Po-Yen, Lee I-Chin, Hsu Hsin-Yun, Huang Hong-Yuan, Fan Shih-Kang, Yao Da-Jeng, Liu Cheng-Hsien, Hsu Wensyang
Department of Mechanical Engineering, National Chiao Tung University , Hsinchu, Taiwan.
Department of Applied Chemistry, National Chiao Tung University , Hsinchu, Taiwan.
Biomicrofluidics. 2016 Jan 12;10(1):011901. doi: 10.1063/1.4939942. eCollection 2016 Jan.
Here, we describe a technique to manipulate a low number of beads to achieve high washing efficiency with zero bead loss in the washing process of a digital microfluidic (DMF) immunoassay. Previously, two magnetic bead extraction methods were reported in the DMF platform: (1) single-side electrowetting method and (2) double-side electrowetting method. The first approach could provide high washing efficiency, but it required a large number of beads. The second approach could reduce the required number of beads, but it was inefficient where multiple washes were required. More importantly, bead loss during the washing process was unavoidable in both methods. Here, an improved double-side electrowetting method is proposed for bead extraction by utilizing a series of unequal electrodes. It is shown that, with proper electrode size ratio, only one wash step is required to achieve 98% washing rate without any bead loss at bead number less than 100 in a droplet. It allows using only about 25 magnetic beads in DMF immunoassay to increase the number of captured analytes on each bead effectively. In our human soluble tumor necrosis factor receptor I (sTNF-RI) model immunoassay, the experimental results show that, comparing to our previous results without using the proposed bead extraction technique, the immunoassay with low bead number significantly enhances the fluorescence signal to provide a better limit of detection (3.14 pg/ml) with smaller reagent volumes (200 nl) and shorter analysis time (<1 h). This improved bead extraction technique not only can be used in the DMF immunoassay but also has great potential to be used in any other bead-based DMF systems for different applications.
在此,我们描述了一种在数字微流控(DMF)免疫分析的洗涤过程中操纵少量珠子以实现高洗涤效率且洗涤过程中珠子零损失的技术。此前,在DMF平台上报道了两种磁珠提取方法:(1)单侧电润湿法和(2)双侧电润湿法。第一种方法可提供高洗涤效率,但需要大量珠子。第二种方法可减少所需珠子数量,但在需要多次洗涤时效率较低。更重要的是,在这两种方法中,洗涤过程中的珠子损失都是不可避免的。在此,提出了一种改进的双侧电润湿法,通过使用一系列不等电极来提取珠子。结果表明,在适当的电极尺寸比下,对于液滴中珠子数量少于100的情况,仅需一步洗涤就能实现98%的洗涤率且无任何珠子损失。这使得在DMF免疫分析中仅使用约25颗磁珠就能有效增加每颗珠子上捕获的分析物数量。在我们的人可溶性肿瘤坏死因子受体I(sTNF-RI)模型免疫分析中,实验结果表明,与我们之前未使用所提出的珠子提取技术的结果相比,使用少量珠子的免疫分析显著增强了荧光信号,从而在更小的试剂体积(200 nl)和更短的分析时间(<1小时)下提供了更好的检测限(3.14 pg/ml)。这种改进的珠子提取技术不仅可用于DMF免疫分析,而且在任何其他基于珠子的DMF系统用于不同应用方面也具有巨大潜力。