Cell Phone Camera Photographs Microscopic Cell Samples, University of California, Los Angeles (UCLA) Study
Published: Apr 08, 2013
In the new video article electrical and bio engineers from the University of California Los Angeles show the construction of the device and how it can be modified to fit any cellphone with a camera. The team expects the device to be helpful to doctors and scientists in countries with limited supplies and in fast-paced clinical environments.
“There is a huge need for these [miniaturized] devices. Resource poor countries demand compact, cost effective and light weight devices to replace bulky equipment common in our labs and hospitals,” Dr. Ozcan explains. “These devices bring the diagnostic, testing, and microanalysis capabilities of larger machines to your cellphone.”
Flow cytometry is a way to count and characterize cells in a liquid sample, and was first developed by Wallace H. Coulter in 1953. Since then, flow cytometry has become ubiquitous in scientific research, particularly in the fields of molecular biology, pathology, and immunology.
Dr. Ozcan’s device brings fluorescent microscopy and flow cytometry, two widely used tools in biomedical research, to the common cellphone. The vast network of cellphone subscribers around the world, estimated by the United Nations to top 6 billion subscribers, provides a massive infrastructure to be able to conduct complex biological tests. Dr. Ozcan’s device can be constructed for less than $50 plus the cost of the cellphone, while full sized fluorescent flow cytometers can cost more than $150,000 and require expansive lab space to operate.
“A cellphone has almost the computing power of a super computer of the early 1990s, and with over 6 billion cellphone subscribers in the world there is a massive cost reduction to owning a cellphone. That is exactly why I and my colleagues are trying to deploy these micro-devices to cellphones.” Dr. Ozcan and his colleagues have filed more than 20 intellectual property licenses as part of Holomic LLC, a startup focused on the development of laboratory equipment for mobile devices.
Dr. Nandita Singh, senior science editor at JoVE, says of Dr. Ozcan’s publication “We are very excited to publish this inexpensive cell phone based technology platform that enables the detection of white blood cells to monitor HIV positive patients in geographical regions with limited resources. This technology can also be extended to detect E. Coli contamination in water and milk supplies.”
This is Dr. Ozcan’s fourth publication in JoVE. “JoVE is a great methods journal. Video and text regarding the details of the methods can be quite instructive, and I’ve seen how JoVE has grown up in the last couple of years into a great means to communicate your method’s details and messages to other researchers and colleagues.”
Ozcan et. al.; http://www.jove.com/video/50451/wide-field-fluorescent-microscopy-fluorescent-imaging-flow-cytometry About JoVE, the Journal of Visualized Experiments:
JoVE, the Journal of Visualized Experiments, is the first and only PubMed/MEDLINE-indexed, peer-reviewed journal devoted to publishing scientific research in a video format. Using an international network of videographers, JoVE< films and edits videos of researchers performing new experimental techniques at top universities, allowing students and scientists to learn them much more quickly. As of April 2013, JoVE has published video-protocols from an international community of nearly 6,000 authors in the fields of biology, medicine, chemistry, and physics.
The Journal of Visualized Experiments