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Five Bucks and a Cell Phone Builds a Flow Cytometer

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LOS ANGELES, July 27, 2011 — At the University of California, researchers from the Henry Samueli School of Engineering and Applied Science have developed a compact, lightweight and cost-effective optofluidic platform that integrates imaging cytometry and fluorescent microscopy and can be attached to a cell phone. The resulting highly portable flow cytometer can rapidly image bodily fluids for cell counts or cell analysis.

Flow cytometry, a technique for counting and examining cells, bacteria and other microscopic particles, is routinely used for diagnosing disorders, infections and cancers and for evaluating the progression of HIV and AIDS. But flow cytometers are big, bulky contraptions that cost tens of thousands of dollars, making them less than ideal for health care in the field or wherever resources are limited.

The research, which was led by Aydogan Ozcan, a professor of electrical engineering and bioengineering, was reported online in Analytical Chemistry.


A team led by Aydogan Ozcan has developed an ultraportable flow cytometer based on cell phone technologies. (Photo: UCLA)


"In this work, we developed a cell phone–based imaging cytometry device with a very simple optical design, which is very cost-effective and easy to operate," said Hongying Zhu, a co-author of the research. "It has great potential to be used in resource-limited regions to help people there improve the quality of their health care."

The device is the latest advance by Ozcan's research team, which has developed a number of innovative, scaled-down cell phone–based technologies that have the potential to transform global health care.

"We have more than 5 billion cell phone subscribers around the world today, and because of this, cell phones can now play a central role in telemedicine applications," Ozcan said. "Our research group has already created a very nice set of tools, including cell phone microscopes, that can potentially replace most of the advanced instruments used currently in laboratories."

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Ozcan's group integrated compact optical attachments to create the optofluidic fluorescence cytometry platform. The platform, which weighs only 18 g, includes a simple lens, a plastic color filter, two LEDs and a set of batteries.

The microfluidic assembly is placed just above a separate, inexpensive lens that is put in contact with the cell phone's existing camera unit. This way, the entire cross section of the microfluidic device can be mapped onto the phone's CMOS sensor. The sample fluid is delivered continuously through a disposable microfluidic channel via a syringe pump.

The device is illuminated from the side by the LEDs using a simple butt-coupling technique. The excitation light is then guided within the cross section of the device, uniformly exciting the specimens in the imaging fluid. The optofluidic pumping scheme also allows for the use of an inexpensive plastic absorption filter to create the dark-field background needed for fluorescence imaging.

In addition, video postprocessing and contour-detection and tracking algorithms count and label the cells or particles passing through the microfluidic chip.

To demonstrate proof-of-concept for the new platform, the team used the device to measure the density of white blood cells in human whole-blood samples, as white blood cell density is routinely tested to diagnose various diseases and infections, including leukemia, HIV and bone marrow deficiencies.

"For the next step, we'd like to explore other potential applications of this device," Zhu said. "For example, we also want to utilize this device to count potential waterborne parasites for water quality monitoring."

For more information, visit: www.ucla.edu

Published: July 2011
Glossary
fluorescence microscopy
Fluorescence microscopy is a specialized optical imaging technique used in biology, chemistry, and materials science to visualize and study specimens that exhibit fluorescence. Fluorescence is the phenomenon where a substance absorbs light at one wavelength and emits light at a longer wavelength. In fluorescence microscopy, fluorescent dyes or proteins are used to label specific structures or molecules within a sample. The basic principles of fluorescence microscopy involve illuminating the...
AmericasAydogan OzcanBasic ScienceBiophotonicsblood cellsCaliforniacamerascell countscell phonesCMOScytometryflow cytometersfluorescence microscopyHenry Samueli School of Engineering and Applied ScienceHongying ZhuImagingMicroscopyoptofluidic imagingResearch & TechnologySensors & DetectorsUniversity of California Los Angeles

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