Michael D. Ward, Gregory Kaduchak
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引用次数: 19
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Abstract
Acoustic cytometry uses radiation pressure forces instead of or in addition to hydrodynamic focusing to position cells or particles in a flowing stream for analysis. Commercial implementations to date combine both hydrodynamic and acoustic focusing together to enable high precision analysis of a broad dynamic range of volumetric sample input rates up to an order of magnitude higher than is practical with hydrodynamic focus alone. This capability allows great flexibility in reducing assay time or modifying or eliminating concentration requirements or concentration steps in sample preparation protocols. It also provides a practical method for processing sub-microliter volumes using sample dilution. In order to take full advantage of this dynamic range, it is necessary to understand the fundamental benefits and limitations of acoustic focusing as applied to flow cytometry. © 2018 by John Wiley & Sons, Inc.
声学细胞术基础
声学细胞术使用辐射压力来代替流体动力学聚焦来定位细胞或颗粒在流动的流中进行分析。迄今为止,商业应用将流体动力聚焦和声学聚焦结合在一起,可以对体积样本输入率的宽动态范围进行高精度分析,其精度比单独使用流体动力聚焦的精度高一个数量级。这种能力在减少分析时间或修改或消除样品制备方案中的浓度要求或浓度步骤方面具有很大的灵活性。它还提供了一种实用的方法处理亚微升体积使用样品稀释。为了充分利用这一动态范围,有必要了解声聚焦应用于流式细胞术的基本优点和局限性。©2018 by John Wiley &儿子,Inc。
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