微流体流式细胞仪:微制造方法、性能和功能规范的作用。

TECHNOLOGY Pub Date : 2018-03-01 Epub Date: 2018-03-16 DOI:10.1142/S2339547818300019
Anil B Shrirao, Zachary Fritz, Eric M Novik, Gabriel M Yarmush, Rene S Schloss, Jeffrey D Zahn, Martin L Yarmush
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引用次数: 0

摘要

在现代生物医学研究和临床应用中,流式细胞仪是一种非常有价值的工具,需要对细胞和颗粒进行高通量、高分辨率的颗粒分析,以便对细胞和颗粒进行表征和/或分选,以及分析免疫细胞测定的结果。近年来,研究的重点是开发微流体流式细胞仪,以期创造出体积更小、成本更低、更简单、更自主的传统流式细胞仪替代品。理想的情况是,这些设备高度便携、操作简便,无需对用户进行大量培训,可用于研究目的和/或护理点诊断,特别是在资源有限的设施或需要现场分析的地点。然而,设计一种既能满足高通量分析、自动化和便携性标准,又不牺牲性能的设备并非易事。本综述旨在介绍该领域的现状,并通过重点讨论微流体流式细胞仪的关键设计组件,为进一步改进提供参考。本综述详细介绍并比较了粒子聚焦和检测策略方面的最新创新。本综述概述了流式细胞仪的性能矩阵参数,这些参数之间相互依存,建议根据应用要求进行选择。微流体技术的持续贡献表明,它是一种可行的技术,可推动流式细胞仪的发展,并开发出自动化、易于操作且经济高效的流式细胞仪。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Microfluidic flow cytometry: The role of microfabrication methodologies, performance and functional specification.

Microfluidic flow cytometry: The role of microfabrication methodologies, performance and functional specification.

Microfluidic flow cytometry: The role of microfabrication methodologies, performance and functional specification.

Microfluidic flow cytometry: The role of microfabrication methodologies, performance and functional specification.

Flow cytometry is an invaluable tool utilized in modern biomedical research and clinical applications requiring high throughput, high resolution particle analysis for cytometric characterization and/or sorting of cells and particles as well as for analyzing results from immunocytometric assays. In recent years, research has focused on developing microfluidic flow cytometers with the motivation of creating smaller, less expensive, simpler, and more autonomous alternatives to conventional flow cytometers. These devices could ideally be highly portable, easy to operate without extensive user training, and utilized for research purposes and/or point-of-care diagnostics especially in limited resource facilities or locations requiring on-site analyses. However, designing a device that fulfills the criteria of high throughput analysis, automation and portability, while not sacrificing performance is not a trivial matter. This review intends to present the current state of the field and provide considerations for further improvement by focusing on the key design components of microfluidic flow cytometers. The recent innovations in particle focusing and detection strategies are detailed and compared. This review outlines performance matrix parameters of flow cytometers that are interdependent with each other, suggesting trade offs in selection based on the requirements of the applications. The ongoing contribution of microfluidics demonstrates that it is a viable technology to advance the current state of flow cytometry and develop automated, easy to operate and cost-effective flow cytometers.

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来源期刊
TECHNOLOGY
TECHNOLOGY ENGINEERING, MULTIDISCIPLINARY-
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