Leonie de Rond, Frank A. W. Coumans, Rienk Nieuwland, Ton G. van Leeuwen, Edwin van der Pol
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引用次数: 41
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Abstract
Flow cytometry is commonly used to investigate the potential for extracellular vesicles (EVs) to be biomarkers of disease. A typical flow cytometer detects fluorescence and scatter intensities of single EVs in arbitrary units. These arbitrary units complicate data interpretation and data comparison between different flow cytometers. For example, comparison of detected EV concentrations requires knowledge of the detectable EV sizes. Using Mie theory and knowledge of the optical configuration of the flow cytometer, EV size can be derived from the scatter intensity for a given EV refractive index. Here, a protocol is described to derive the size of EVs and other nanoparticles from the scatter intensity. The resulting size distribution allows the comparison of data between flow cytometers, which is a prerequisite for clinical application of EVs as biomarkers and may advance other fields where sizing of nanoparticles is essential. © 2018 by John Wiley & Sons, Inc.
从流式细胞术测量的散射强度中得出细胞外囊泡大小
流式细胞术通常用于研究细胞外囊泡(ev)作为疾病生物标志物的潜力。典型的流式细胞仪可以检测任意单位的单个ev的荧光和散射强度。这些任意单位使不同流式细胞仪之间的数据解释和数据比较复杂化。例如,比较检测到的EV浓度需要了解可检测到的EV大小。利用Mie理论和流式细胞仪光学结构的知识,可以从给定EV折射率的散射强度推导出EV尺寸。本文描述了一种从散射强度推导ev和其他纳米粒子尺寸的方法。由此产生的尺寸分布允许流式细胞仪之间的数据比较,这是ev作为生物标志物临床应用的先决条件,并可能推进纳米颗粒尺寸至关重要的其他领域。©2018 by John Wiley &儿子,Inc。
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