Sorting and manipulation of biological cells and the prospects for using optical forces

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY Micro and Nano Systems Letters Pub Date : 2018-05-23 DOI:10.1186/s40486-018-0064-3
Arslan Atajanov, Alexander Zhbanov, Sung Yang
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引用次数: 35

Abstract

Contemporary biomedical research requires development of novel techniques for sorting and manipulation of cells within the framework of a microfluidic chip. The desired functions of a microfluidic chip are achieved by combining and integrating passive methods that utilize the channel geometry and structure, as well as active methods that include magnetic, electrical, acoustic and optical forces. Application of magnetic, electric and acoustics-based methods for sorting and manipulation have been and are under continuous scrutiny. Optics-based methods, in contrast, have not been explored to the same extent as other methods, since they attracted insufficient attention. This is due to the complicated, expensive and bulky setup required for carrying out such studies. However, advances in optical beam shaping and computer hardware, and software have opened up new opportunities for application of light to development of advanced sorting and manipulation techniques. This review outlines contemporary techniques for cell sorting and manipulation, and provides an in-depth view into the existing and prospective uses of light for cell sorting and manipulation.

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生物细胞的分选和操作以及使用光力的前景
当代生物医学研究需要在微流控芯片框架内开发新的细胞分选和操作技术。通过结合和集成利用通道几何和结构的被动方法以及包括磁、电、声和光力在内的主动方法,实现了微流控芯片的所需功能。基于磁、电和声学的分类和操作方法的应用已经并且正在受到不断的审查。相比之下,基于光学的方法还没有像其他方法那样被探索到同样的程度,因为它们引起的关注不够。这是由于进行此类研究所需的复杂、昂贵和笨重的装置。然而,光束整形和计算机硬件和软件的进步为光的应用开发先进的分选和操作技术开辟了新的机会。这篇综述概述了当代的细胞分选和操作技术,并提供了一个深入的观点,光在细胞分选和操作的现有和未来的用途。
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来源期刊
Micro and Nano Systems Letters
Micro and Nano Systems Letters Engineering-Biomedical Engineering
CiteScore
10.60
自引率
5.60%
发文量
16
审稿时长
13 weeks
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