Skip to main content
good news
Open this photo in gallery:

Dr. Tarek Awad, left to right, Prof. Ben Hatton, Dr. Dalal Asker, of the University of Toronto, are shown in this undated handout image. Canadian researchers say cooking oil may be the key to helping prevent the spread of foodborne bacteria such as salmonella, listeria and E. coli. THE CANADIAN PRESS/HO-University of Toronto *MANDATORY CREDIT *HO/The Canadian Press

Canadian researchers say cooking oil may be the key to helping prevent the spread of foodborne bacteria such as salmonella, listeria and E. coli.

They say many foods produced on an industrial scale include raw ingredients that are mixed together in large stainless steel machines that can be difficult to clean.

MORE GOOD NEWS

Need some good news in your day? Read our collection of uplifting and inspiring stories here.

In a study published in the journal ACS Applied Materials & Interfaces, the engineering researchers say the surfaces of the machines get minute scratches and grooves that are ideal hiding places for bacteria.

Prof. Ben Hatton, Dr. Dalal Asker and Dr. Tarek Awad of the University of Toronto say their research indicates a thin layer of cooking oil fills in the microscopic scrapes, forming an effective barrier to bacterial attachment.

They say this minimizes the risk of cross-contamination, which can lead to foodborne disease.

Hatton says they found their system reduced bacterial levels inside the machines they tested between 1,000 and 100,000 times.

The researchers collaborated on the project with Agri-Neo, an Ontario seed processing company looking for a solution to bacterial contamination.

The process involves treating the stainless steel to make it hydrophobic — so it repels water — which allows the oil to stick to the surface, Hatton said.

However, he noted that the oil on the surface will be worn away as the machine operates.

“The focus of the paper was to see if we take this food-safe, really cheap, everyday oil and kind of trap it at the surface … and then look at what happens when you wear it away, is it still effective?” Hatton said.

The study shows it is still effective because it fills in the grooves and scratches, which are the main problem sites in the machines, he said.

Hatton said they have tested the process only in the lab and don’t know if it can be applied for industrial use, but “we’re definitely interested in trying to do a scaled-up test of this for real equipment.”

The researchers tried to keep the process as simple, cheap and scalable as possible, he said, noting there’s “the economic cost of an outbreak that shuts down a whole line and recalls and liability.”

He said they had not yet followed up with Agri-Neo and were also considering reaching out to other food companies to see if they were interested in testing their process.

Health Canada has said salmonella is the leading cause of bacterial foodborne illness in the country, with more than 200,000 cases in 2015 alone.

More Good News:

Follow related authors and topics

Authors and topics you follow will be added to your personal news feed in Following.

Interact with The Globe