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Stopping foodborne illnesses

Purdue researchers develop technology to detect technology and E.coli in food samples.

Researchers at Purdue University have developed a lanthanide-based assay coupled with a laser that can be used to detect toxins and pathogenic E. coli in food samples, water and a variety of industrial materials. The new technology is to help stop the spread of foodborne illnesses, which kill 3,000 people a year, by detecting them more efficiently.

Purdue UniversityPurdue researchers have developed a lanthanide-based assay coupled with a laser that can be used to detect toxins and pathogenic E. coli in food samples, water and a variety of industrial materials.

Purdue researchers have developed a lanthanide-based assay coupled with a laser that can be used to detect toxins and pathogenic E. coli in food samples, water and a variety of industrial materials.

The two key features of the new technology are the incorporation of lanthanides and simple lateral flow paper-based assays. The Purdue team created a method for combining different heavy metals that when linked to antibodies can detect multiple agents in a single analysis. The Purdue team’s work is published in the January edition of Analytical and Bioanalytical Chemistry.

“Our goal was to incorporate easily detectable elements into a paper-based assay which is low-cost and effective,” said J. Paul Robinson, the SVM Professor of Cytomics in Purdue’s College of Veterinary Medicine and a professor of biomedical engineering in Purdue’s College of Engineering. “Designing a technology that is both low-cost but also accurate and can detect multiple antigens simultaneously was a critical factor in our decision to work on this problem.”

The innovators worked with the Purdue Research Foundation Office of Technology Commercialization to patent the technology in the United States and in Europe.

“We are very excited about the acceptance of the intellectual property as this will enhance the possibility of finding commercial partners,” Robinson said. “The potential for moving this to handheld, field deployable use is something we see in the future.”

 The group is evaluating the potential for fully portable use that would allow field use in virtually any environment.

The approach uses a high-powered laser pulse to obliterate a sample, while simultaneously collecting the spectral signature of the resultant emission. These signals are then compared with a database that translates the signals into an identification of the toxin or pathogen.

What makes the technology effective is the linking of antibodies to different heavy metal tags. This creates a unique fingerprint of atomic signatures that can be used to determine if any particular pathogen of interest in present in a sample.

Source: Purdue University, which is solely responsible for the information provided and is wholly owned by the source. Informa Business Media and all its subsidiaries are not responsible for any of the content contained in this information asset. 

 

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