Researchers develop a rapid, hands-free test for detecting bacteria in liquids
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A novel new test for bacteria in fluids makes it as easy as observing a color change to confirm the presence of disease-causing pathogens, promising much easier diagnostic tests and greater food safety.
Engineers and biochemists at McMaster University have brought their skills together to make it possible for untrained users to confirm contamination in fluids using a biogel test that changes color in the presence of such bacteria as E. coli, listeria and other frequent testing targets.
The test uses harmless bacteriophages embedded in the gel to locate target bacteria in a sample of fluid, such as lake water, urine or a container of milk—even in low concentrations.
Bacteriophages are the most common form of life on Earth. Each form of bacteriophage is specialized to destroy one form of bacteria.
In the test, phages—as they are called informally—find and attack the target bacteria in a sample, causing the bacteria to release microscopic amounts of intracellular material which the test can read, triggering a color change that is readily visible to the eye. If the sample is clean, the color stays the same.
The new process takes just hours, producing results much more quickly than lab cultures, which can take two days to generate results.
"We've been using phages' destructive power to kill bacteria and resolve infections for years," says Zeinab Hosseinidoust, an associate professor of biomedial and chemical engineering who holds the Canada Research Chair in Bacteriophage Bioengineering.
"Here, we're channeling that power in another way. Because phages can burst bacteria open, they can give us quick access to the biological components of those bacteria that we use to confirm their presence."
The test, described in a new paper published in the journal Advanced Materials, is the latest in a series of technologies the group has developed, all aimed at placing simple technology within reach of producers, retailers, consumers and medical professionals.
"Now we have a tool that can be used in food samples, environmental samples and clinical samples," says corresponding author Tohid Didar, an associate professor of mechanical and biomedical engineering who holds the Canada Research Chair in Nano-Biomaterials.
The group's previous work includes creating a portable testing library to match phages to otherwise untreatable antibiotic-resistant infections, a contamination test incorporated into food packaging, and a temperature-stable storage system for live vaccines.
The group confirmed the concept of their newest test using urine samples from patients at Hamilton Health Sciences, and in all cases, results from the experimental test produced the same results as traditional lab tests. The test also worked accurately to detect E. coli in lake water samples.
The new test can be adapted to any bacterium by using bacteriophages and DNA probes that specifically target microbes, such as listeria and salmonella.
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"Phages can knock on every biological door, but they will only enter the ones they are programmed to find," says Carlos Filipe, a professor of chemical engineering and a senior author on the paper. "That specificity is a huge advantage for quick and precise detection, even at low levels."
Such a test could have provided early and accurate detection in the recent listeria contamination of plant-based milk that killed two, sickened 10 and caused wide recalls in Canada, the researchers say.
"This technology could be helpful in rapidly limiting outbreaks," says co-author Akansha Prasad, a Vanier Scholar and Ph.D. student in biomedical engineering.
Testing for contamination in complex fluids such as milk, blood or urine is especially challenging, making simple, reliable alternatives such as the new test very useful, say the researchers, who hope to work with commercial partners to bring the technology to the marketplace.
"Once we have the appropriate approvals and partnerships to move this test to market, it could be very useful in many settings," says the paper's lead author Hannah Mann, a Ph.D. student in chemical engineering and bioengineering. "About 12% of Canadians don't have access to municipal piped water, for example, and this could bring them a lot of peace of mind."
More information: Hannah Mann et al, Bacteriophage‐Activated DNAzyme Hydrogels Combined with Machine Learning Enable Point‐of‐Use Colorimetric Detection of Escherichia coli, Advanced Materials (2024). DOI: 10.1002/adma.202411173
Journal information: Advanced Materials
Provided by McMaster University