Gravity-driven microhydrodynamics-based cell sorter (microHYCS) for rapid, inexpensive, and efficient cell separation and size-profiling

机译：基于重力驱动的微信息动力学的细胞分子（MicroHycs），用于快速，廉价，高效的细胞分离和尺寸 - 分析

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This paper describes a new type of gravity-driven polymeric microfluidic cell sorter developed for low-power, low-cost, and rapid cell separation. The device takes advantage of size-based differential migration of cells/particles in flows where widening of flow streamlines amplifies the separation between sample particles. We studied the migration and separation of polystyrene microbeads, red blood cells, and perfluorocarbon droplets used for ultrasound imaging and therapy having different sizes in the novel cell sorter. Compared to other conventional cell separation systems, microHYCS reduces power and cost requirements, and is advantageous for the development of easy-to-use sample separation and diagnostics tools.

机译：本文介绍了一种新型重力驱动的聚合物微流体细胞分子，用于低功耗，低成本和快速的细胞分离。该器件利用流动流化的流动中的细胞/粒子的基于细胞/粒子的尺寸的差分迁移的尺寸的差分迁移放大样品颗粒之间的分离。我们研究了用于超声成像的聚苯乙烯微珠，红细胞和全氟碳液滴的迁移和分离，所述全氟化物液滴和在新细胞分选仪中具有不同尺寸的疗法。与其他常规细胞分离系统相比，MicroHycs降低了功率和成本要求，并且有利于开发易于使用的样品分离和诊断工具。

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来源
《Annual International IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine Biology》|2002年||共4页
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作者
Dongeun Huh; Hsien-Hung Wei; Oliver D. Kripfgans; J. Brian Fowlkes; James B. Grotberg; Shuichi Takayama;
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中图分类 R-53;
关键词
Cell sorting; Microhydrodynamics; Flow streamlines; Gravity;

机译：细胞分选;微信息动力学;流动流线;重力;

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3. Rapid, automated separation of specific bacteria from lake water and sewage by flow cytometry and cell sorting. [J] . J Porter, C Edwards, J A Morgan, Applied and Environmental Microbiology . 1993,第10期

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4. Gravity-driven microhydrodynamics-based cell sorter (microHYCS) for rapid, inexpensive, and efficient cell separation and size-profiling [C] . Dongeun Huh, Hsien-Hung Wei, Kripfgans, . 2002

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Gravity-driven microhydrodynamics-based cell sorter (microHYCS) for rapid, inexpensive, and efficient cell separation and size-profiling

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