2010
DOI: 10.1039/b919495a
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Sheathless inertial cell ordering for extreme throughput flow cytometry

Abstract: Rapid and accurate differentiation of cell types within a heterogeneous solution is a challenging but important task for various applications in biological research and medicine. Flow cytometry is the gold standard in cell analysis and is regularly used for blood analysis (i.e., complete blood counts). Flow cytometry, however, lacks sufficient throughput to analyze rare cells in blood or other dilute solutions in a reasonable time period because it is an inherently serial process. In this study, we exploit ine… Show more

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Cited by 340 publications
(339 citation statements)
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“…5b), which are both useful operations to prepare cellular samples for downstream analysis. In these applications we also simultaneously make use of inertial focusing of particle streams that is dependent on particle size 11,16,21 . In this case while 10 mm particles maintain their preferred inertial focusing position due to larger inertial lift forces, smaller 1 mm particles or dye molecules, which experience two orders of magnitude weaker inertial lift forces, follow the flow streamlines away from the channel centre.…”
Section: Resultsmentioning
confidence: 99%
“…5b), which are both useful operations to prepare cellular samples for downstream analysis. In these applications we also simultaneously make use of inertial focusing of particle streams that is dependent on particle size 11,16,21 . In this case while 10 mm particles maintain their preferred inertial focusing position due to larger inertial lift forces, smaller 1 mm particles or dye molecules, which experience two orders of magnitude weaker inertial lift forces, follow the flow streamlines away from the channel centre.…”
Section: Resultsmentioning
confidence: 99%
“…Sheath flow that supports hydrodynamic focusing is possible in optofluidic designs but perhaps the most promising solution is the massive parallelization of the interrogation channel. The insertion at the sample inlet of a 256 parallel straight channel ''filter'' was shown to produce the ordered flow of cells in an equal amount of parallel tracks (14). Large field-of-view imaging solutions like afforded by the lensless approaches can then be used to interrogate cells flowing at rates up to a million cells per second.…”
Section: Miniature Imaging Cytometrymentioning
confidence: 99%
“…Moreover, they can be harnessed for microuidic and lab-on-a-chip applications. Orderly ow eases recognition and interrogation of suspended objects in cytometry 7 and bioassays. 8 Flowing crystals could be used as dynamically programmable metamaterials, assembled with high throughput in continuously operating microdevices, or as tunable diffraction gratings.…”
Section: Introductionmentioning
confidence: 99%