电动力学驱动的微流控装置,用于集成免疫亲和整体柱萃取和早产生物标志物的电泳分离。
Electrokinetically operated microfluidic devices for integrated immunoaffinity monolith extraction and electrophoretic separation of preterm birth biomarkers.
机构信息
Department of Chemistry and Biochemistry, Brigham Young University, Provo, UT 84602, USA.
出版信息
Analyst. 2017 Dec 18;143(1):224-231. doi: 10.1039/c7an01357d.
Abstract
Biomarkers are often present in complex biological fluids like blood, requiring multiple, slow sample preparation steps that pose limitations in simplifying analysis. Here we report integrated immunoaffinity extraction and separation devices for analysis of preterm birth biomarkers in a human blood serum matrix. A reactive polymer monolith was used for immobilization of antibodies for selective extraction of target preterm birth biomarkers. Microfluidic immunoaffinity extraction protocols were optimized and then integrated with microchip electrophoresis for separation. Using these integrated devices, a ∼30 min analysis was carried out on low nanomolar concentrations of two preterm birth biomarkers spiked in a human serum matrix. This work is a promising step towards the development of an automated, integrated platform for determination of preterm birth risk.
摘要
生物标志物通常存在于血液等复杂的生物流体中,需要进行多个缓慢的样品制备步骤,这给分析带来了限制。在这里,我们报告了用于分析人血清基质中早产生物标志物的集成免疫亲和提取和分离装置。使用反应性聚合物整体柱用于固定抗体,以选择性提取目标早产生物标志物。优化了微流控免疫亲和提取方案,然后与微芯片电泳集成用于分离。使用这些集成装置,在人血清基质中添加两个低纳摩尔浓度的早产生物标志物进行了约 30 分钟的分析。这项工作是朝着开发用于确定早产风险的自动化集成平台迈出的有希望的一步。
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