Determination of Carminic Acid in Foodstuffs and Pharmaceuticals by Microchip Electrophoresis with Photometric Detection

Marián Masár,Eva Vargová,Jasna Hradski,Adriána Miškovčíková,Peter Božek,Juraj Ševčík,Roman Szucs

doi:10.3390/separations7040072

Marián Masár, Eva Vargová + Show 5 more

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https://doi.org/10.3390/separations7040072

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Abstract

This paper presents a novel miniaturized analytical method for the determination of carminic acid, a natural red food dye, in complex food and pharmaceutical matrices by microchip electrophoresis (MCE) with photometric detection. MCE has become a very attractive microscale separation technique because it offers high-speed, high-throughput, small sample injection volume and low reagents consumption. Fast determination of carminic acid in less than 5 min was achieved on a poly(methyl methacrylate) microchip in anionic separation mode at pH 6. Photometric detector based on light-emitting diode technology was set to a wavelength of 490 nm. Using a sample injection volume of 900 nL, a limit of detection of 69 nmol L−1 was achieved. A wide linear dynamic range over four orders of magnitude (from nmol L−1 to mmol L−1) was observed for peak area. Developed method provided favorable intra- and inter-day repeatability of the migration time (up to 2.5% RSD), as well as the repeatability of the peak area (less than 1.9% RSD), regardless of the sample type. The content of carminic acid was determined in various foodstuffs and pharmaceuticals, such as candies, saffron, non-alcoholic drink, and sore throat lozenges with good recoveries (92.5–104.0%).

Highlights

One of the most important organoleptic properties of foodstuff is its appearance, e.g., size, shape, structure or color, which significantly affects consumer choice and the success of the product on the market
Optimization of microchip electrophoresis (MCE) separation conditions started with selection of the background electrolytes (BGEs) in terms of pH, ionic strength and buffer capacity
The second criterion applied for the selection of the pH of BGE was to maximize the signal corresponding to the individual ionic forms of Carminic acid (CA) at selected detection wavelength of 490 nm

Summary

Introduction

One of the most important organoleptic properties of foodstuff is its appearance, e.g., size, shape, structure or color, which significantly affects consumer choice and the success of the product on the market. An intensive use of dyes in food and pharmaceutical industry can have an adverse effect on the human body, and their monitoring and strict control in a variety of products is very important. Dyes authorized for use in foodstuffs in EU are regulated according to Regulation (EC) No 1333/2008 [3]. 2009/35/EC [4], dyes approved for use in foodstuff can be used in medicinal products. Food and Agriculture Organization of the United Nations L-histidine

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