Denmark's National Food Institute Employs Thermo Scientific ICP-MS to Speciate Arsenic and Measure Nanoparticles in Food as Part of EU-sponsored Projects

Danish lab helps European Union to develop easy methods to identify and measure arsenic and nanoparticle contamination in food. Inorganic arsenic is far more toxic than organic arsenic, and ICP-MS technology lets scientists tell the difference. End Quote

(1888PressRelease) December 18, 2012 - SAN JOSE, Calif. - Thermo Fisher Scientific Inc., the world leader in serving science, today announced that The National Food Institute, Technical University of Denmark (DTU), has adopted a Thermo Scientific iCAP Q inductively-coupled plasma mass spectrometer (ICP-MS) for research supporting EU Commission development of standards for arsenic and nanomaterials in food.

Dr. Erik Huusfeldt Larsen, senior researcher at The National Food Institute,(DTU) and his Metals, Minerals & Nano Group at DTU are using the iCAP Q ICP-MS system to determine the species of arsenic found in food samples. EU Commission researchers have found that it is no longer adequate to measure total arsenic in food because small amounts of inorganic arsenic can be associated with diseases such as cancers of the skin and bladder, while organic arsenic is much less toxic. Larsen notes that until recently, arsenic contamination was associated mainly with fish and other marine products; but in recent years, arsenic found in drinking water, rice and wheat have also attracted public attention.

This work supports the European Conffidence project which aims to develop easy-to-use methods of analysis for contaminants, including inorganic arsenic. In this project, the iCAP Q instrument will be used for selective and sensitive detection of arsenic following solid phase extraction.

Dr. Larsen's group also collaborates on the EU-funded NanoLyse project for determination of nanoparticles including silver, silica and organic nanoparticles in the food matrix. The iCAP Q system will be used in "single particle" ICP-MS mode for determination of metallic nanoparticles in food.

"This technology gives us the capability to detect and count individual nanoparticles in food, and this is very important," said Dr. Larsen.. "We need to know more than just the size of the particles present, we must also be able to determine the number-based size distribution of particles in a sample. This matters because toxic effects are likely to be associated with the huge surface area of nanoparticles."

"Our company has enjoyed supporting the work of the National Food Institute for a number of years, and this cooperative effort is an extension of this relationship," said Adrian Holley, Thermo Fisher director of marketing, Trace Elemental Analysis. "Few things affect quality of life more than food quality, and we're resolutely committed to providing food scientists with an extremely wide range of the best possible measurement tools."

About Thermo Fisher Scientific

Thermo Fisher Scientific Inc. is the world leader in serving science. Our mission is to enable our customers to make the world healthier, cleaner and safer. With revenues of $12 billion, we have approximately 39,000 employees and serve customers within pharmaceutical and biotech companies, hospitals and clinical diagnostic labs, universities, research institutions and government agencies, as well as in environmental and process control industries. We create value for our key stakeholders through three premier brands, Thermo Scientific, Fisher Scientific and Unity™ Lab Services, which offer a unique combination of innovative technologies, convenient purchasing options and a single solution for laboratory operations management. Our products and services help our customers solve complex analytical challenges, improve patient diagnostics and increase laboratory productivity.

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