在高电导率介质中进行混合电动操控。
Hybrid electrokinetic manipulation in high-conductivity media.
机构信息
Department of Aerospace and Mechanical Engineering, University of Arizona, Tucson, Arizona 85721, USA.
出版信息
Lab Chip. 2011 May 21;11(10):1770-5. doi: 10.1039/c1lc20054b. Epub 2011 Apr 12.
Abstract
This study reports a hybrid electrokinetic technique for label-free manipulation of pathogenic bacteria in biological samples toward medical diagnostic applications. While most electrokinetic techniques only function in low-conductivity buffers, hybrid electrokinetics enables effective operation in high-conductivity samples, such as physiological fluids (∼1 S m(-1)). The hybrid electrokinetic technique combines short-range electrophoresis and dielectrophoresis, and long-range AC electrothermal flow to improve its effectiveness. The major technical hurdle of electrode instability for manipulating high conductivity samples is tackled by using a Ti-Au-Ti sandwich electrode and a 3-parallel-electrode configuration is designed for continuous isolation of bacteria. The device operates directly with biological samples including urine and buffy coats. We show that pathogenic bacteria and biowarfare agents can be concentrated for over 3 orders of magnitude using hybrid electrokinetics.
摘要
本研究报告了一种用于在生物样本中对致病细菌进行无标记操作的混合电动技术,以应用于医学诊断。虽然大多数电动技术仅在低电导率缓冲液中起作用,但混合电动技术可在高电导率样本(如生理流体(约 1 S m(-1)))中有效操作。混合电动技术结合了短程电泳和介电泳以及远程交流电热流,以提高其效果。通过使用 Ti-Au-Ti 三明治电极解决了用于处理高电导率样品的电极不稳定性这一主要技术障碍,并设计了 3 个并联电极结构来连续隔离细菌。该设备可直接与包括尿液和血球层在内的生物样本一起使用。我们表明,致病细菌和生物战剂可以使用混合电动技术浓缩超过 3 个数量级。
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