METHOD AND COMPOSITION FOR STAINING AND SAMPLE PROCESSING

A method for imaging a plurality of particles using a particle analysis system configured for combined viscosity and geometric hydrofocusing is provided. The particles are included in a biological fluid sample having a sample fluid viscosity. The method comprises flowing a sheath fluid along a flowp...

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Bibliographic Details
Main Authors CREMINS, JACK, QUON, CAROL
Format Patent
LanguageEnglish
French
German
Published 20.01.2016
Subjects
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Summary:A method for imaging a plurality of particles using a particle analysis system configured for combined viscosity and geometric hydrofocusing is provided. The particles are included in a biological fluid sample having a sample fluid viscosity. The method comprises flowing a sheath fluid along a flowpath of a flowcell. The sheath fluid has a sheath fluid viscosity that differs from the sample fluid viscosity by a viscosity difference in a predetermined viscosity difference range. The method also comprises injecting the biological fluid sample into the flowing sheath fluid within the flowcell so as to provide a sample fluid stream enveloped by the sheath fluid. The method further comprises flowing the sample fluid stream and the sheath fluid through a reduction in flowpath size toward an imaging site, such that a viscosity hydrofocusing effect induced by an interaction between the sheath fluid and the sample fluid stream associated with the viscosity difference, in combination with a geometric hydrofocusing effect induced by an interaction between the sheath fluid and the sample fluid stream associated with the reduction in flowpath size, is effective to provide a target imaging state in at least some of the plurality of particles at the imaging site while a viscosity agent in the sheath fluid retains viability of cells in the sample fluid stream leaving structure and content of the cells intact when the cells extend from the sample fluid stream into the flowing sheath fluid. The plurality of particles are imaged at the imaging site.
Bibliography:Application Number: EP20140721152