用于多步生物测定自动化的泡打粉驱动离心气动阀门

Baking Powder Actuated Centrifugo-Pneumatic Valving for Automation of Multi-Step Bioassays.

作者信息

Kinahan David J, Renou Marine, Kurzbuch Dirk, Kilcawley Niamh A, Bailey Éanna, Glynn Macdara T, McDonagh Colette, Ducrée Jens

机构信息

School of Physical Sciences, Dublin City University, Glasnevin, Dublin 9, Ireland.

Biomedical Diagnostics Institute, Dublin City University, Glasnevin, Dublin 9, Ireland.

出版信息

Micromachines (Basel). 2016 Oct 1;7(10):175. doi: 10.3390/mi7100175.

DOI:10.3390/mi7100175

PMID:30404349

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6189914/

Abstract

We report a new flow control method for centrifugal microfluidic systems; CO₂ is released from on-board stored baking powder upon contact with an ancillary liquid. The elevated pressure generated drives the sample into a dead-end pneumatic chamber sealed by a dissolvable film (DF). This liquid incursion wets and dissolves the DF, thus opening the valve. The activation pressure of the DF valve can be tuned by the geometry of the channel upstream of the DF membrane. Through pneumatic coupling with properly dimensioned disc architecture, we established serial cascading of valves, even at a constant spin rate. Similarly, we demonstrate sequential actuation of valves by dividing the disc into a number of distinct pneumatic chambers (separated by DF membranes). Opening these DFs, typically through arrival of a liquid to that location on a disc, permits pressurization of these chambers. This barrier-based scheme provides robust and strictly ordered valve actuation, which is demonstrated by the automation of a multi-step/multi-reagent DNA-based hybridization assay.

摘要

我们报道了一种用于离心微流控系统的新型流量控制方法；二氧化碳在与辅助液体接触时从机载储存的泡打粉中释放出来。产生的高压将样品驱动到由可溶解薄膜（DF）密封的死端气动腔室中。这种液体侵入会润湿并溶解DF，从而打开阀门。DF阀的开启压力可以通过DF膜上游通道的几何形状进行调节。通过与尺寸合适的圆盘结构进行气动耦合，我们实现了阀门的串联级联，即使在恒定的旋转速率下也是如此。同样，我们通过将圆盘划分为多个不同的气动腔室（由DF膜分隔）来演示阀门的顺序驱动。打开这些DF，通常是通过液体到达圆盘上的那个位置，允许这些腔室增压。这种基于屏障的方案提供了强大且严格有序的阀门驱动，这在基于多步/多试剂DNA的杂交检测自动化中得到了证明。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2cd9/6189914/a0b4a843602b/micromachines-07-00175-g001.jpg

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用于多步生物测定自动化的泡打粉驱动离心气动阀门

Baking Powder Actuated Centrifugo-Pneumatic Valving for Automation of Multi-Step Bioassays.

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