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What’s on your plate?

Food fraud is an ever-present danger around the world. Despite increased regulations, huge scandals still occur regularly, such as deliberately tainted infant formula (2008), or the horse meat affair in the UK due to improper labelling (2013). Other more common examples include the adulteration of highly valued items with lower cost substitutes, or the illegal enhancement of color in foods and beverages with unsafe dyes.

As the population continues to grow, driving the demand for high quality food and beverage choices, so will the amount of food fraud cases. Only a concerted effort to test foodstuffs more frequently in an efficient manner along the supply chain with accurate and precise analytical techniques will bring these cases to light before more people come to harm.

MISA to the rescue

Meet the newest addition to the Metrohm Instant Raman Analyzer family: MISA, the Metrohm Instant SERS Analyzer. MISA is fast, smart, and portable, with powerful algorithms that simplify high-tech analyses for non-technicians. MISA is designed with safety in mind, purposefully designed to detect illicit drugs and food additives in complex matrices.

The SERS Principle

Surface Enhanced Raman Scattering (SERS) is an extension of Raman. Perhaps you read in my previous blog post about Raman spectroscopy that «If you can see it, Raman can ID it»… well, SERS amplifies the Raman signal of trace analytes, making it an extremely sensitive method for «ID when you can’t see it.»

Metrohm Blog: How MIRA Became Mobile

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When SERS-active analytes adsorb to silver or gold nanoparticles, their Raman signal is enhanced as much as a million-fold, providing incredibly sensitive detection abilities.

SERS is used in biosensor applications, including single-cell sensing, antibody detection, and pathogen monitoring. It can be used to detect chemical warfare agents and illicit drug laboratory residues. Additionally, SERS is a particularly powerful technique for detecting trace contaminants in foodstuffs such as antibiotics, fungicides, pesticides, herbicides, illicit dyes, and other additives.


If you know ID Kit for MIRA DS, then you already know a little about SERS. SERS is an «enhancement» technique to Raman that enables detection of trace materials. For example, ID Kit was developed as a method for identifying heroin and fentanyl in street drug samples. The cutting agents and added stimulants that constitute the bulk of street heroin fluoresce under investigation with Raman and overwhelm the signal coming from heroin. SERS sees right through the cutting agents and identifies the drug.

Find out more in our free White Papers below:

Surface Enhanced Raman Scattering (SERS) - Expanding the Limits of Conventional Raman Analysis

Determination of Heroin in Street Drug Samples

Overlaid Raman and SERS spectra demonstrating the ability of SERS to detect the active ingredient in street heroin.
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Another example of how Raman and SERS complement each other can be seen with Yaba, a common street drug in southeast Asia. Yaba is a red tablet that contains significant caffeine with a small amount of methamphetamine. When a red Yaba tablet is analyzed with Raman, caffeine and the red dye in the coating are the primary identification targets. This makes sense, because Raman is very good at identifying bulk materials.

However, when a Yaba tablet is subjected to SERS analysis, the story is very different (reminder: these are both also capabilities of MIRA DS!) Only SERS can ID the methamphetamine in Yaba and complete the story.

Protecting Consumer Safety with MISA

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Consumer safety relies on the ability of food inspectors to detect unwanted additives and assure the quality of the products. Trace detection of food adulterants is traditionally very involved laboratory work, using HPLC, GC/MS, and other techniques requiring extensive sample preparation and scientific training. MISA is designed to simplify food testing, from sample preparation to sharing results.

The unique capabilities of MISA and SERS analysis in food testing deserve some explanation. Raman is used in food testing in some incredible ways: identifying counterfeit honey, distinguishing scotch from different producers, discriminating between very similar sugars, even making a distinction between grass- and grain-fed beef. However, these are bulk, inherent qualities of a food.

Looking for trace levels of pesticides is a very different science. A successful SERS analyte must interact with nanoparticles—target molecules with amine, carboxyl, and thiol groups often have the required interaction. Fortunately, many food additives fit this definition. Metrohm Raman sponsored a year-long study to identify 82 different food adulterants that can be successfully detected with our SERS substrates. That was just the beginning.

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Are you looking for applications suitable for MISA? Check out our free selection of application notes available on the Metrohm website:

MISA Application Notes

Additionally, reference spectra for several other analytes can be obtained by contacting your local Metrohm sales organization.

The next step was to determine the foods which were typically treated with these illicit substances, then how to simplify sample preparation for potentially demanding food matrices. Metrohm Raman is taking two different approaches to this challenge. First, MISA will be released with 17 different «real world» food safety applications (click to download):

MISA is a unique instrument, which is reflected in this broad collection of Application Notes (ANs). In addition to standard spectra and experiments, each AN includes a special section titled «Field Test Protocol». Briefly, the Field Test Protocol guides any user through a complete experiment using MISA and the tools in the ID Kits. ID Kits for MISA contain dedicated SERS substrates, in addition to the basic tools required for field testing. These, combined with companion Operating Procedures included on MISA, make food safety testing accessible to anyone, anywhere.

Our second approach to application development for MISA is a very interactive process with our users as we identify the target and food matrix, provide standard spectra for library building, advise sample preparation, and help to optimize results. This approach acknowledges that food is different around the world, adulterants vary, and concerns may be localized. These ANs that accompany MISA at release are intended to give the user an idea of how to use SERS and when it is a useful technique for detection of food contaminants, but custom applications will certainly increase demand for MISA.

Metrohm Raman is excited to introduce you to MISA. MISA has all of the qualities that you appreciate about MIRA—intuitive user interface, simple guided workflow, and smart attachments to facilitate onsite testing by non-chemists. Our approach to simplifying food testing includes libraries, dozens of reference spectra, and developed applications targeting food adulterants.

Discover more about how MISA can help the fight against food adulteration scandals

 

Author
Gelwicks

Dr. Melissa Gelwicks

Technical Writer
Metrohm Raman, Laramie, Wyoming (USA)

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