Science

Device uses light to detect bacteria in food, on location

Device uses light to detect bacteria in food, on location
The technology has successfully been used to detect E. coli bacteria that was added to ground beef
The technology has successfully been used to detect E. coli bacteria that was added to ground beef
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The technology has successfully been used to detect E. coli bacteria that was added to ground beef
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The technology has successfully been used to detect E. coli bacteria that was added to ground beef
The prototype silicon photomultiplier (SiPM)
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The prototype silicon photomultiplier (SiPM)

If bacterially-tainted food is present in a store or kitchen, then the sooner that authorities know, the better. That's why scientists have created a device that detects harmful bacteria on the spot, instead of in the lab.

The portable 3D-printed tool is being developed by a team led by Dr. Euiwon Bae and Prof. Bruce Applegate, at Indiana's Purdue University. It's known as a silicon photomultiplier, or SiPM.

Users start by rinsing a food sample, adding a proprietary "enrichment liquid," then leaving the sample to incubate within that solution. The liquid contains a specially-modified phage, which is a virus that infects bacteria. If any harmful bacteria are present in the sample, the phage thus infects them.

Another chemical is then added, which causes the infected bacteria to emit light. The SiPM is able to count the individual photons (light-transmitting particles), sending the data by Bluetooth to a smartphone or laptop. That device in turn advises users as to the amount of bacteria present in the sample.

The prototype silicon photomultiplier (SiPM)
The prototype silicon photomultiplier (SiPM)

In a test of the technology, the scientists inoculated store-bought ground beef with E. coli bacteria. When the SiPM was used to analyze the meat 10 hours later, it successfully detected the microbes.

"Our assay offers higher sensitivity, lower cost, better portability and other distinct advantages when compared to existing detection methods," says Applegate, who is now commercializing the device via his spin-off company, Phicrobe.

A paper on the research was recently published in the journal Applied Optics.

Source: Purdue University

1 comment
1 comment
buzzclick
And how long does this detection process take? It may be simpler and more efficacious to just make sure the food is cooked thoroughly when in doubt. The Chinese figured out the importance of consuming hot food and drink waaay before Louis Pasteur came up with his brilliant process in the 19th century.