Glycoprotein Matrix Zinc Exhibits Improved Absorption: A Randomized Crossover Trial.

Biotransformation of minerals via glycosylation by microorganisms such as yeast and/or probiotics yields nutrients bound to a food matrix, resulting in increased bioavailability. The purpose of this study was to compare the effects of glycoprotein matrix-bound zinc (GPM) on absorption compared to inorganic zinc oxide. Sixteen participants ingested 11 mg of zinc as either GPM™ Soy-Free Zinc (GPM, Ashland, Kearny, NJ, USA) or zinc oxide (USP). Blood samples were taken at 0 (i.e., baseline), 30, 60, 90, 120, 180, 240, 300, 360, 420, and 480 min post-ingestion. GPM zinc concentrations were significantly higher at 120 min (p = 0.02; 12.4 ± 5.1 mcg/dL), 180 min (p = 0.002; 16.8 ± 5.1 mcg/dL), and 240 min (p = 0.007; 14.6 ± 5.1 mcg/dL) in comparison to USP zinc oxide. In addition, GPM zinc significantly increased iAUC by 40% (5840 ± 2684 vs. 4183 ± 1132 mcg/dL * 480 min, p = 0.02), and Cmax values were 10% higher in GPM compared to USP (148 ± 21 mcg/dL vs. 135 ± 17.5 mcg/dL, p = 0.08). Tmax was 12% slower in GPM compared to USP (112.5 ± 38.7 min vs. 127.5 ± 43.1 min); however, differences in Tmax failed to reach statistical significance (p = 0.28). Zinc bound to a glycoprotein matrix significantly increased absorption compared to zinc oxide.

Trends in fisheries waste utilization: a valuable resource of nutrients and valorized products for the food industry.

The rise in fisheries production worldwide has caused a remarkable increase in associated anthropogenic waste. This poses significant concerns due to adverse environmental impacts and economic losses. Owing to its renewability, high abundance, and potential as a rich source of many nutrients and bioactive compounds, strategies have been developed to convert fish waste into different value-added products. Conventional and improved methods have been used for the extraction of biomolecules from fish waste. The extracted fish waste-derived value-added products such as enzymes, peptides, fish oil, etc. have been used to fortify different food products. This review aims to provide an overview of the nature and composition of fish waste, strategies for extracting biomolecules from fish waste, and the potential application of fish waste as a source of calcium and other nutrients in food fortification and animal feed has been discussed. In context to fishery waste mitigation, valorization, and circular bioeconomy approach are gaining momentum, aiming to eliminate waste while producing high-quality value-added food and feed products from fishery discards.

Application of deep learning for image-based Chinese market food nutrients estimation.

With commercialization of deep learning (DL) models, daily precision dietary record based on images from smartphones becomes possible. This study took advantage of DL techniques on visual recognition tasks and proposed a suite of big-data-driven DL models regressing from food images to their nutrient estimation. We established and publicized the first food image database from the Chinese market, named ChinaMartFood-109. It contained 10,921 images with 23 nutrient contents, covering 18 main food groups. Inception V3 was optimized using other state-of-the-art deep convolutional neural networks, achieving up to 78 % and 94 % for top-1 and top-5 accuracy, respectively. Besides, this research compared three nutrient estimation algorithms and achieved the best regression coefficient (R2) by normalization + AM compared with arithmetic mean and harmonic mean, validating applicability in practice as well as theory. These encouraging results provide further evidence supporting artificial intelligence in the field of food analysis.

Alcalase Enzymolysis of Red Bean (adzuki) Ferritin Achieves Nanoencapsulation of Food Nutrients in a Mild Condition.

Classical methods to fabricate ferritin-nutrients shell-core nanoparticles usually apply extremely acid/alkaline pH transition, which may cause the activity loss of nutrients or the formation of insoluble aggregates. In this work, we prepared an extension peptide (EP) deleted red bean (adzuki) ferritin (apoRBFΔEP) by Alcalase 3.0T enzymolysis. Such enzymolysis could delete the EP domain and remain the typical shell-like structure of the ferritin. Meanwhile, the α-helix content of apoRBFΔEP was decreased by 5.5%, and the transition temperature (Tm) was decreased by 4.1 °C. Interestingly, the apoRBFΔEP can be disassembled into subunits under a benign condition at pH 4.0 and is assembled to form an intact cage protein when the pH was increased to 6.7. By using this novel route, the epigallocatechin gallate (EGCG) molecules were successfully encapsulated into the apoRBFΔEP cage with an encapsulation ratio of 11.6% (w/w), which was comparable with that by the traditional pH 2.0 transition. The newly prepared EGCG-loaded apoRBFΔEP exhibited a similarly protective effect on the EGCG upon simulated gastrointestinal tract and thermal treatment as compared with the control. In addition, the EGCG-loaded apoRBFΔEP could significantly relieve the ferritin association induced by pH transition, which was superior to traditional method. The thinking of this work will be especially suitable for encapsulating pH-sensitive molecules based on ferritin in a benign condition.

Survey results on laboratory analysis in food nutrients around secondary school food environment / Монголын Анагаах Ухаан

BackgroundSchoolchildren spent most of time in school and the school environment is one of several settings thatcan influence children’s food choices and eating habits. Schools can ensure that the available food andbeverage options are healthy and help young people eat food that meets dietary recommendations forfruits, vegetables, whole grains, and nonfat or low-fat dairy products.GoalTo assess quality of common foods and diet in school environmentsObjectives:1. Define food items and groups in school environment;2. laboratory analysis in sample foods on “School lunch” and around school environmentMaterial and MethodsThirty public and private schools from six districts of city of UB were randomly selected from a list of allschools. Laboratory tests were analyzed total 250 samples from school canteens and within 250 metersdistances around sampled schools.ResultSchoolchildren are exposed to a wide range of unhealthy food and beverages in the school environmentand healthier food and drink’s choices are very limited in these settings. The high availability of differentvarieties of unhealthy food and drinks at affordable prices makes these products the most preferablechoices for children. Overall, 46.5 percent of schoolchildren were served in school canteen and 33.9percent of schoolchildren were served outside of schools including shops and buffet. Main factors of foodchoice were first, like eating (30.2%), food price (27.8%), hungry (16.7%) and food advertisement was6.3% among schoolchildren. Most of common foods (92.5%) were analyzed with high in salt, sugar andlow content of vitamins and minerals around school environment. There was very high sugar content per100 gram products for instance, “Batos” ice-cream 22.75 gr, “Iberry” ice cream 14.05 gr and, “Granat”juice 1364 gr. In addition, fat content is also high in schoolchildren’s common food consumption. Fatcontent tested 31.4gr in chips and 30.6 gr in pie, cake and 26.9 gr in biscuits per 100 gr products.