Time encoded multicolor fluorescence detection in a microfluidic flow cytometer

Time-resolved luminescence detection using long-lived probes with lifetimes in the microsecond region have shown great potential in ultrasensitive and multiplexed bioanalysis.

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AOTF-based multicolor fluorescence detection for short tandem repeat (STR) analysis in an electrophoretic microdevice

Lab on a Chip ◽

10.1039/b801759j ◽

2008 ◽

Vol 8 (8) ◽

pp. 1285 ◽

Cited By ~ 8

Author(s):

James M. Karlinsey ◽

James P. Landers

Keyword(s):

Fluorescence Detection ◽

Tandem Repeat ◽

Short Tandem Repeat ◽

Str Analysis ◽

Multicolor Fluorescence ◽

Short Tandem

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Characterization of Microscale Particles Using a Microfluidic Flow Cytometer Equipped With a Multi-Plex Photon Counter

Volume 1A: Abdominal Aortic Aneurysms; Active and Reactive Soft Matter; Atherosclerosis; BioFluid Mechanics; Education; Biotransport Phenomena; Bone, Joint and Spine Mechanics; Brain Injury; Cardiac Mechanics; Cardiovascular Devices, Fluids and Imaging; Cartilage and Disc Mechanics; Cell and Tissue Engineering; Cerebral Aneurysms; Computational Biofluid Dynamics; Device Design, Human Dynamics, and Rehabilitation; Drug Delivery and Disease Treatment; Engineered Cellular Environments ◽

10.1115/sbc2013-14800 ◽

2013 ◽

Author(s):

Pouya Asrar ◽

Nastaran Hashemi

Keyword(s):

Integrated Optics ◽

Scattered Light ◽

Photon Counting ◽

High Gain ◽

Flow Cytometer ◽

Photon Counter ◽

Microfluidic Flow ◽

Compact Size ◽

Using Data ◽

New Generation

We have shown the design and fabrication of a microfluidic flow cytometer. The microfluidic flow cytometer has been used to characterize microspheres of different sizes. The device is consisted of a microchannel, electronics, and integrated optics. The microchannel has three inlets. Two inlets are used to introduce sheath flows and one middle inlet is assigned as sample inlet. The sample flow is hydrodynamically focused at the center of the microchannel by two side streams (sheath flows). Also arrays of four chevron grooves compress the sample flow from the top and bottom of the microchannel. The core flow contains microspheres at a certain concentration. Detection of the microspheres at the interrogation region of the channel is performed by integrated optics and electronics. The scattered light emitted from the microspheres is collected by a multi-plex photo diode (MPPC). The results are recorded using data acquisition (DAQ) unit. The MPPCs employed in the setup is the new generation of photon counter devices with an excellent detection limit, a compact size, and capability of recording data at high gain compared to previous generation of photodetectors such as photomultipliers or avalanche photon diodes. The flow cytometer was sensitive enough to collect data from 3 μm microspheres using such mentioned sensitive photon counting unit. We have also used COMSOL Multiphysics software to investigate velocity and pressure distribution as well as concentration distribution along the microchannel. The average voltage collected by MPPC was 1.9 V for 10.2 μm and 1.6 V for 3.2 μm microsphere.

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Integration of glass micropipettes with a 3D printed aligner for microfluidic flow cytometer

Sensors and Actuators A Physical ◽

10.1016/j.sna.2017.11.056 ◽

2018 ◽

Vol 269 ◽

pp. 382-387 ◽

Cited By ~ 10

Author(s):

Abdullah Bayram ◽

Murat Serhatlioglu ◽

Bulend Ortac ◽

Serafettin Demic ◽

Caglar Elbuken ◽

...

Keyword(s):

Flow Cytometer ◽

Microfluidic Flow ◽

3D Printed

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MICROFLUIDIC FLOW-THROUGH REACTOR WITH ELECTROCHEMICAL SENSOR ARRAY FOR REAL-TIME PCR

Modern Physics Letters B ◽

10.1142/s0217984909018424 ◽

2009 ◽

Vol 23 (03) ◽

pp. 369-372

Author(s):

HUEY-FANG TEH ◽

NAVEEN RAMALINGAM ◽

HAI-QING GONG ◽

SWEE-NGIN TAN

Keyword(s):

Real Time ◽

Fluorescence Detection ◽

Microelectrode Array ◽

Dna Amplification ◽

Active Species ◽

Dna Intercalator ◽

Detection Scheme ◽

Microfluidic Flow ◽

Pcr Products ◽

Flow Through

We developed an integrated microfluidic flow-through EC-PCR (EC-PCR) microdevice for the concurrent DNA amplification, PCR products EC detection and PCR products quantification instead of the current available fluorescence detection scheme. The microfluidic flow-through EC-PCR microdevice was fabricated with the state-of-the-art microfabrication technology, by bonding a bottom glass substrate having a microelectrode array to a top glass cover having the microchannels made of PDMS material. Both the amplification of the target DNA sequence and the subsequent EC detection of the PCR products were carried out concurrently on the integrated device by real-time monitoring. The underlying principle of the microfluidic flow-through EC-PCR method was based on the changes of current signal of methylene blue (MB), which worked as an electrochemically active species DNA intercalator in the PCR mixture, during the amplification process at the extension phase. The results shown in this work indicated that the nucleic acid analysis could be performed in a fast thermal cycling and true real-time quantitative electrochemical detection. The signal variation trends of the EC detection and the fluorescence detection were the same in our verification measurements for both methods, which suggested that the EC detection method was feasible for this application.

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