Nutritional Quality of Meat Analogues: Results From the Food Labelling of Italian Products (FLIP) Project

Nowadays, the interest in meat substitutes is increasing, and consumers perceive their nutritional quality better than that of the animal products they intend to resemble. Therefore, this work aimed to investigate the overall nutritional quality of these new products. Regulated information [Regulation (EU) 1169/2011], the presence/absence of nutrition or health claim and organic declarations, the gluten-free indication, and the number of ingredients were collected from the food labels of 269 commercial meat analogues currently sold on the Italian market. Nutritional information of reference animal meat products was used to compare the nutrition profile. As an indicator of the nutritional quality, the Nutri-Score of meat analogues and counterparts was also determined. Plant-based steaks showed significantly higher protein, lower energy, fats and salt contents, and better Nutri-Scores than the other analogues. All the meat analogues showed a higher fibre content than meat products, while plant-based burgers and meatballs had lower protein contents than meat counterparts. Ready-sliced meat analogues showed a lower salt content than cured meats. Overall, all these plant-based products showed a longer list of ingredients than animal meat products. Results from this survey highlighted that plant-based steaks, cutlets, and cured meats have some favourable nutritional aspects compared to animal-based products. However, they cannot be considered a "tout-court" alternative to meat products from a nutritional point of view

Protein Quality and Protein Digestibility of Vegetable Creams Reformulated with Microalgae Inclusion

Microalgae are considered a valuable source of proteins that are used to enhance the nutritional value of foods. In this study, a standard vegetable cream recipe was reformulated through the addition of single-cell ingredients from Arthrospira platensis (spirulina), Chlorella vulgaris, Tetraselmis chui, or Nannochloropsis oceanica at two levels of addition (1.5% and 3.0%). The impact of microalgae species and an addition level on the amino acid profile and protein in vitro digestibility of the vegetable creams was investigated. The addition of microalgae to vegetable creams improved the protein content and the amino acid nutritional profile of vegetable creams, whereas no significant differences were observed in protein digestibility, regardless of the species and level of addition, indicating a similar degree of protein digestibility in microalgae species despite differences in their protein content and amino acid profile. This study indicates that the incorporation of microalgae is a feasible strategy to increase the protein content and nutritional quality of foods.This research was funded by the ProFuture project (2019–2023 “Microalgae protein-rich ingredients for the food and feed of the future”). The ProFuture project received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 862980. CERCA Programme (Generalitat de Catalunya) also supported this research.info:eu-repo/semantics/publishedVersio

Multi-mycotoxin determination in plant-based meat alternatives and exposure assessment

The aim of this study was to fill in the gap regarding the occurrence of mycotoxins in plant-based meat alter-natives. Hence, a multi-mycotoxin method (aflatoxins, ochratoxin A, fumonisins, zearalenone, and mycotoxins from the Alternaria alternata genera) was developed followed by an exposure assessment for the Italian con-sumers' exposure to mycotoxins. A total of 13 meat alternatives samples based on soy, pea, chickpea, lupin, and seitan were analysed. With the exception of seitan, all of the remaining samples were contaminated with one mycotoxin or mixtures of up to seven mycotoxins. The level of contamination was as low as 0.2 mu g/kg alternariol methyl ether and as high as 66.9 mu g/kg fumonisin B1. To analyse the exposure to mycotoxins due to plant-based meat alternatives consumption we used the consumption meat data from the Food and Agriculture Organization for Italian adult consumers and simulated a full replacement of meat with plant-based meat alternatives. Based on our model, consumption of plant-based meat alternatives led to a non-tolerable exposure to alternariol (hazard index (HI) > 1) in pea-based burger and soy + wheat-based steak, while samples contaminated with aflatoxins, respectively ochratoxin A, indicated a health concern related to liver and renal cancer (margin of exposure (MOE) < 10,000). This is the first study that presents the co-occurrence of mycotoxins in multiple plant -based meat alternatives. Moreover, these results indicate that there is a need for policymakers to consider the regulation of mycotoxins in plant-based meat alternatives in order to ensure consumers' safety

Protein Quality and Protein Digestibility of Vegetable Creams Reformulated with Microalgae Inclusion

Microalgae are considered a valuable source of proteins that are used to enhance the nutritional value of foods. In this study, a standard vegetable cream recipe was reformulated through the addition of single-cell ingredients from Arthrospira platensis (spirulina), Chlorella vulgaris, Tetraselmis chui, or Nannochloropsis oceanica at two levels of addition (1.5% and 3.0%). The impact of microalgae species and an addition level on the amino acid profile and protein in vitro digestibility of the vegetable creams was investigated. The addition of microalgae to vegetable creams improved the protein content and the amino acid nutritional profile of vegetable creams, whereas no significant differences were observed in protein digestibility, regardless of the species and level of addition, indicating a similar degree of protein digestibility in microalgae species despite differences in their protein content and amino acid profile. This study indicates that the incorporation of microalgae is a feasible strategy to increase the protein content and nutritional quality of foods