Flow-Lysometry and its Biomedical Application: Cytosolic Analysis of Single Cells in Large Populations

Author

Lee, W.C. ; Kuypers, F.A. ; Cho, Y.-H. ; Pisano, A.P.

Author_Institution

Red Cell Membrane Lab., Children´´s Hosp. Oakland Res. Inst., CA

fYear

2009

fDate

25-29 Jan. 2009

Firstpage

64

Lastpage

67

Abstract

We present a novel single-cell analyzer, flow-lysometry, to measure cytosolic components in large cell populations. The present flow-lysometry performs and synchronizes three functions (cell-detection, cell-lysis, and component-sensing) in a continuous microfluidic channel, thus achieving high-throughput measurements (20 cells/min) of wide target components. In the experimental study, we measure the cytosolic component (Ca⁺⁺ ion) from each single RBC and verify population analysis of single cells in mixed cell populations. Thus, this work shows that the present flow-lysometry is useful to characterize complex cell populations, which is required for various biomedical studies.

Keywords

bioMEMS; bioelectric phenomena; biomedical measurement; blood; cellular biophysics; microfluidics; microsensors; biomedical application; cell detection; cell lysis; cell population analysis; cell-component sensing; continuous microfluidic channel; cytosolic component measurement; electrical pulse measurement; flow lysometry; single RBC; single-cell cytosolic analyzer; Biomedical measurements; Biomembranes; Cells (biology); Electric variables measurement; Fluorescence; Information analysis; Optical devices; Optical pumping; Plasma measurements; Pulse measurements;

fLanguage

English

Publisher

ieee

Conference_Titel

Micro Electro Mechanical Systems, 2009. MEMS 2009. IEEE 22nd International Conference on

Conference_Location

Sorrento

ISSN

1084-6999

Print_ISBN

978-1-4244-2977-6

Electronic_ISBN

1084-6999

Type

conf

DOI

10.1109/MEMSYS.2009.4805320

Filename

4805320