Scientists at the Institute of Food Research on the Norwich Research
Park have teamed up with Oxford Instruments to develop a fast, cheap
alternative to DNA testing as a means of distinguishing horse meat from
beef. Because horses and cattle have different digestive systems, the
fat components of the two meats have different fatty acid compositions,
as the team report in the journal 'Food Chemistry'. The new method looks
at differences in the chemical composition of the fat in the meats,
using similar technology to a hospital MRI scanner.
In just ten minutes, a technician can determine whether a piece of
raw meat is horse or beef. The method, developed with funding from
Innovate UK and the Biotechnology and Biological Sciences Research
Council (BBSRC) has recently been trialled in an industrial setting by a
leading meat processor. It is currently being extended by the team of
scientists to test for other meat species, including pork and lamb.
The horse meat scandal of 2013 was sparked by the discovery of horse meat in a number of beef burgers. Soon, horse meat was detected in other meat products, leading to millions of pounds worth of food being taken off supermarket shelves. The crisis exposed the potential vulnerability of the meat supply chain to fraud and even to threats to public health, and highlighted gaps in testing. The currently favoured method of meat species testing relies on DNA, which can tell one meat from another based on the genetic makeup of the source animals, but is relatively slow and expensive and prone to contamination if not used carefully.
In response to this, a new method using a totally different approach was developed by Oxford Instruments and IFR. The key technology is the 'Pulsar', a high resolution bench-top NMR spectrometer developed by Oxford Instruments. NMR spectroscopy is a well-respected analytical technique used in chemistry labs worldwide. However, conventional instruments are large and expensive, and rely on super-cooled magnets and highly trained personnel to run them. Pulsar in contrast is based on permanent magnets and ease of operation.
For a test to be useful as a screening tool it needs to be quick and cheap. With this goal in mind, the team discovered that a couple of minutes shaking about a gram of meat in a solvent followed by a few minutes of data acquisition on Pulsar was enough to tell horse meat from beef. Software to carry out mathematical analysis of the spectral data has also been developed at IFR.
"It's a stroke of luck really that some of the most important meats turn out to have fat signatures that we can tell apart so easily with this method," says Dr Kate Kemsley. "It's been very satisfying to see results from a real industrial setting sit right on top of those we generated in our two labs. We think this testing method should work well at key points in the supply chain, say at meat wholesalers and processors."
The horse meat scandal of 2013 was sparked by the discovery of horse meat in a number of beef burgers. Soon, horse meat was detected in other meat products, leading to millions of pounds worth of food being taken off supermarket shelves. The crisis exposed the potential vulnerability of the meat supply chain to fraud and even to threats to public health, and highlighted gaps in testing. The currently favoured method of meat species testing relies on DNA, which can tell one meat from another based on the genetic makeup of the source animals, but is relatively slow and expensive and prone to contamination if not used carefully.
In response to this, a new method using a totally different approach was developed by Oxford Instruments and IFR. The key technology is the 'Pulsar', a high resolution bench-top NMR spectrometer developed by Oxford Instruments. NMR spectroscopy is a well-respected analytical technique used in chemistry labs worldwide. However, conventional instruments are large and expensive, and rely on super-cooled magnets and highly trained personnel to run them. Pulsar in contrast is based on permanent magnets and ease of operation.
For a test to be useful as a screening tool it needs to be quick and cheap. With this goal in mind, the team discovered that a couple of minutes shaking about a gram of meat in a solvent followed by a few minutes of data acquisition on Pulsar was enough to tell horse meat from beef. Software to carry out mathematical analysis of the spectral data has also been developed at IFR.
"It's a stroke of luck really that some of the most important meats turn out to have fat signatures that we can tell apart so easily with this method," says Dr Kate Kemsley. "It's been very satisfying to see results from a real industrial setting sit right on top of those we generated in our two labs. We think this testing method should work well at key points in the supply chain, say at meat wholesalers and processors."
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