Abstract
The frenetic lifestyle in the developed countries has driven us to be deficient in some nutrients, which may be overcome by supplements. Microalgae, like spirulina (Arthrospira platensis) and chlorella (Chlorella ssp.) are widely used as supplements due to their high contents of macro- and micronutrients. Chlorella and spirulina can be grown naturally in a range of water bodies, showing their high adaptability to harsh environments. They are mainly produced in countries with poor water quality and sometimes inexistent water legislation, which can be a vector of micropollutant introduction into the food chain. Thus, a method for the simultaneous determination of 31 emerging contaminants commonly found as micropollutants in freshwater (pharmaceutical and personal care products, hormones, flame retardants and biocides) in two microalgae is presented. Target contaminants were extracted from the microalgae employing ultrasound-assisted matrix solid-phase dispersion followed by gas chromatography-mass spectrometry analysis. The method was validated for chlorella and spirulina with recoveries ranging from 70% to 111% at concentrations of 25 and 100 ng·g−1, and good linearity in the range from 5 to 400 ng·g−1 with limits of detection below 2.5 ng·g−1, in both microalgae. The method validated was applied to a range of microalgae supplement foods and the results proved that the compounds studied were below limits of detection.
Highlights
The human population is increasing and by 2050 it will probably be larger by 2 to 4 billion people [1].As the population continues to rise, the demand for high nutritive food and healthy products will increase as well
The method validated was applied to a range of microalgae supplement foods and the results proved that the compounds studied were below limits of detection
An ultrasound assisted-matrix solid-phase dispersion (UA-MSPD) extraction method developed in our laboratory for the determination of CEC
Summary
As the population continues to rise, the demand for high nutritive food and healthy products will increase as well. Due to the diverse nutritional components found in microalgae, its rapid growth and environmental and health benefits [2], the demand for microalgae is on rise. Microalgae have been postulated to improve the nutritional content of conventional foods, as food or dietary supplements, prebiotic agents or in therapeutic applications with a positive effect on human health. This is mainly due to the presence of compounds such as fiber, carbohydrates, lipids, unsaturated fatty acids (with double bonds in ω-3 and ω-6), vitamins, pigments, polyphenols and minerals [3,4]. Studies carried out on pure extracts or isolated molecules of chlorella (mainly in vitro) have demonstrated its potential benefits to treat and prevent many diseases due to its anti-inflammatory [5] and antimicrobial
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