A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles

A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles

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Fluid suspended biological particles (bioparticles) flowing through a non-uniform electric field are actuated by the induced dielectrophoretic (DEP) force, known to be dependent upon the bioparticles’ dielectric phenotypes. In this work: a 10-1000 kHz DEP actuation potential applied to a co-planar...

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Bibliographic Details
Main Author: Romanuik, Sean
Other Authors: Thomson, Douglas (Electrical and Computer Engineering)
Language:en_US
Published: 2009
Subjects:
Microflow
Microfluidic
Cytometer
Cytometry
Dielectrophoretic
Dielectrophoresis
Interferometer
Interferometric
Capacitive Sensor
Capacitance Sensing
Capacitive Detector
Capacitance Detection
Polystyrene
Optical Assay
Electrokinetic
Actuation
Yeast
Saccharomyces cerevisiae
Single-cell Diagnostic
Single-cell Diagnosis
Dielectric Modeling
COMSOL
Tracker
Trajectory
Velocity Profile
Capacitive Signature
Capacitance Signature
Microelectrode
Online Access:http://hdl.handle.net/1993/3205
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-MWU.1993-32052014-03-29T03:42:26Z A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles Romanuik, Sean Thomson, Douglas (Electrical and Computer Engineering) Bridges, Gregory (Electrical and Computer Engineering) Lin, Francis (Physics and Astronomy) Microflow Microfluidic Cytometer Cytometry Dielectrophoretic Dielectrophoresis Interferometer Interferometric Capacitive Sensor Capacitance Sensing Capacitive Detector Capacitance Detection Polystyrene Optical Assay Electrokinetic Actuation Yeast Saccharomyces cerevisiae Single-cell Diagnostic Single-cell Diagnosis Dielectric Modeling COMSOL Tracker Trajectory Velocity Profile Capacitive Signature Capacitance Signature Microelectrode Fluid suspended biological particles (bioparticles) flowing through a non-uniform electric field are actuated by the induced dielectrophoretic (DEP) force, known to be dependent upon the bioparticles’ dielectric phenotypes. In this work: a 10-1000 kHz DEP actuation potential applied to a co-planar microelectrode array (MEA) induces a DEP force, altering passing bioparticle trajectories as monitored using: (1) an optical assay, in which the lateral bioparticle velocities are estimated from digital video; and (2) a capacitive cytometer, in which a 1.478 GHz capacitance sensor measures the MEA capacitance perturbations induced by passing bioparticles, which is sensitive to the bioparticles’ elevations. The experimentally observed and simulated lateral velocity profiles of actuated polystyrene microspheres (PSS) and viable and heat shocked Saccharomyces cerevisiae cells verify that the bioparticles’ dielectric phenotypes can be inferred from the resultant trajectories due to the balance between the DEP force and the viscous fluid drag force. 2009-09-14T21:24:54Z 2009-09-14T21:24:54Z 2009-09-14T21:24:54Z Ferrier, G.A., A.N. Hladio, D.J. Thomson, G.E. Bridges, M. Hedayatipoor, S. Olson, and M.R. Freeman (2007). Microfluidic electromanipulation with capacitive detection for cell diagnositc applications, Proc. NSTI 2:214-217. Ferrier, G.A., S.F. Romanuik, D.J. Thomson, G.E. Bridges, and M.R. Freeman (2008). Capacitance signatures for rapid detection of the polarity of the dielectrophoretic force on single yeast cells, Proc. NSTI 2:589-592. Ferrier, G.A., A.N. Hladio, D.J. Thomson, G.E. Bridges, M. Hedayatipoor, S. Olson, and M.R. Freeman (2008). Microfluidic electromanipulation with capacitive detection for the mechanical analysis of cells, Biomicrofluidics 2(4-044102):1-13. Ferrier, G.A., S.F. Romanuik, D.J. Thomson, G.E. Bridges, and M.R. Freeman (Submitted 2009). A microwave interferometric system for simultaneous actuation and detection of single biological cells, Lab on a Chip. Ferrier, G.A., S.F. Romanuik, D.J. Thomson, G.E. Bridges, and M.R. Freeman (Submitted 2009). Rapid classification of biological cells based on dielectrophoretic actuation with simultaneous capacitive detection, Proc. micro-TAS. Nikolic-Jaric, M., S.F. Romanuik, G.A. Ferrier, G.E. Bridges, M. Butler, K. Sunley, D.J. Thomson, and M.R. Freeman (2009). Microwave frequency sensor for detection of biological cells in microfluidic channels, Biomicrofluidics 3(3-034103):1-15. Romanuik, S.F., G.A. Ferrier, D.J. Thomson, G.E. Bridges, S. Olson, and M.R. Freeman (2008). All-electronic detection and actuation of single biological cells for lab-on-a-chip applications, Proc. IEEE Sensors 1:634-637. Romanuik, S.F., G.A. Ferrier, M.N. Jaric, D.J. Thomson, G.E. Bridges, and M.R. Freeman (Submitted 2009). Dielectrophoretic actuation and simultaneous detection of individual bioparticles, Advances in Biomedical Sensing, Measurements, Instrumentation, and Systems, Eds. A. Lay-Ekuakille and S.C. Mukhopadhyay, Springer – Verlag. http://hdl.handle.net/1993/3205 en_US
collection NDLTD
language en_US
sources NDLTD
topic Microflow
Microfluidic
Cytometer
Cytometry
Dielectrophoretic
Dielectrophoresis
Interferometer
Interferometric
Capacitive Sensor
Capacitance Sensing
Capacitive Detector
Capacitance Detection
Polystyrene
Optical Assay
Electrokinetic
Actuation
Yeast
Saccharomyces cerevisiae
Single-cell Diagnostic
Single-cell Diagnosis
Dielectric Modeling
COMSOL
Tracker
Trajectory
Velocity Profile
Capacitive Signature
Capacitance Signature
Microelectrode
spellingShingle Microflow
Microfluidic
Cytometer
Cytometry
Dielectrophoretic
Dielectrophoresis
Interferometer
Interferometric
Capacitive Sensor
Capacitance Sensing
Capacitive Detector
Capacitance Detection
Polystyrene
Optical Assay
Electrokinetic
Actuation
Yeast
Saccharomyces cerevisiae
Single-cell Diagnostic
Single-cell Diagnosis
Dielectric Modeling
COMSOL
Tracker
Trajectory
Velocity Profile
Capacitive Signature
Capacitance Signature
Microelectrode
Romanuik, Sean
A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
description Fluid suspended biological particles (bioparticles) flowing through a non-uniform electric field are actuated by the induced dielectrophoretic (DEP) force, known to be dependent upon the bioparticles’ dielectric phenotypes. In this work: a 10-1000 kHz DEP actuation potential applied to a co-planar microelectrode array (MEA) induces a DEP force, altering passing bioparticle trajectories as monitored using: (1) an optical assay, in which the lateral bioparticle velocities are estimated from digital video; and (2) a capacitive cytometer, in which a 1.478 GHz capacitance sensor measures the MEA capacitance perturbations induced by passing bioparticles, which is sensitive to the bioparticles’ elevations. The experimentally observed and simulated lateral velocity profiles of actuated polystyrene microspheres (PSS) and viable and heat shocked Saccharomyces cerevisiae cells verify that the bioparticles’ dielectric phenotypes can be inferred from the resultant trajectories due to the balance between the DEP force and the viscous fluid drag force.
author2 Thomson, Douglas (Electrical and Computer Engineering)
author_facet Thomson, Douglas (Electrical and Computer Engineering)
Romanuik, Sean
author Romanuik, Sean
author_sort Romanuik, Sean
title A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
title_short A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
title_full A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
title_fullStr A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
title_full_unstemmed A microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
title_sort microflow cytometer with simultaneous dielectrophoretic actuation for the optical assay and capacitive cytometry of individual fluid suspended bioparticles
publishDate 2009
url http://hdl.handle.net/1993/3205
work_keys_str_mv AT romanuiksean amicroflowcytometerwithsimultaneousdielectrophoreticactuationfortheopticalassayandcapacitivecytometryofindividualfluidsuspendedbioparticles
AT romanuiksean microflowcytometerwithsimultaneousdielectrophoreticactuationfortheopticalassayandcapacitivecytometryofindividualfluidsuspendedbioparticles
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