The Use of BrownAlgae Laminaria Saccharinain Iodine Enriched Products Aimed at PreventingIodine Deficiency

The high content of iodine in dried algae has allowed it to be used as a physiologically functional food ingredient in the technology of fortified foods, which can help prevent iodine deficiency. The aim of this research was to develop a technology for food products enriched with iodine (Italian crispbreads), as well as fermented dairy products (thick and drinking yoghurts with various fruit fillings). The brown algae Laminaria saccharina, which originates from the islandFrøya (in Norway), was used to enrich the products with iodine. This algaewas grown on the farms of the company ”Energy Solutions AS” and was dried by various methods of low-temperature drying (heat pump at a temperature of minus 10 ∘C, drying in 1-3 layers; vacuum freeze drying with pre-storage at a temperature of minus 8 ∘C; and pre-freezing and storing at a temperature of minus 25 ∘C for 2-6 days). The chemical composition of the algae was studied. The findings showed that the modes of pretreatment of algae and the method of cold drying did not influence the following indicators (in % of the total mass of dried algae): the mass fraction of water (6.00±0.50% to 6.93±0.50%),ash (46.40-50.14%), andsodium chloride (31.00±1.75%). The above technological factors substantially affected the content of protein and iodine in the dried algae. Thus, the mass fraction of protein varied from 5.88% to 12.35% per total mass, and iodine varied from 0.367% to 0.522% in terms of dry matter. The optimal dosage of dried algae for adding to raw material was calculated (which provided anabove-stated iodine content of % of the recommended level of adequate consumption in 100g of the developed products): from 66% in crispbreads to 88% in fermented dairy products. All new products provided a high level of organoleptic evaluation. Keywords: brown algae, Laminaria saccharina, iodine, functionalproduct, crispbreads, drinking yoghurts, thick yoghurts

Methodological Approach to Designing Fermented Dairy Products with Optimal Biological Value

The development of food products implies ensuring the optimal composition and ratio of the basic components, as well as their technological compatibility. A priori, the quality of raw materials, the optimal formula of the product and the efficiency of the technological process determine the quality of products, including biological value. The use of whole-cell sensors such as infusoria Tetrahymena pyriformis is most productive for screening biological studies. At present, for a comprehensive assessment there are no data on the use of simplest technology of fermented dairy products and the design of their biological value. The purpose of this research is to develop a methodology for creating whole-milk products of optimal biological value using the express method of biotesting. The research object was yogurt with the ratio of the mass fraction of fat and protein in the range of 0.36 ÷ 1.5, sucrose in the range of 5 ÷ 10%. An express method for determining the relative biological value of fermented dairy products using test organisms and an original methodology for creating whole-milk products of optimal biological value have been developed. A software has been developed to calculate formula of the product optimized for the following indicators: the relative biological value of the product, the cost of raw material and basic materials. The methodology is a tool to assist industry organizations in improving production technologies and quality management systems.

Caseinolytic proteases of Lactobacillus and Lactococcus strains isolated from fermented dairy products

Proteases of Lactobacillus and Lactococcus strains catalyze casein degradation in fermented dairy products, which can result in the production of bioactive peptides. Proteolytic properties of a selection of lactic acid bacteria (LAB) strains previously isolated in Croatia, including Lactococcus lactis and Lactobacillus strains, are described. All strains of Lactobacillus and Lactococcus showed an Fmc+ phenotype that can be associated with efficient growth in milk. The significant caseinolytic effect, after incubation of culture supernatant or concentrated cell biomass, was observed for Levilactobacillus brevis D6 and Lactiplantilactobacillus plantarum D13 after growth in the optimal growth medium, while for Lactoccocus lactis ZGBP5-32 and Levilactobacillus brevis SF9B strains after growth in skimmed milk. To assess the LAB growth in skimmed milk, the acidification rate was monitored. Statistically, significant acidification capacity was determined for L. plantarum D13 in the optimal medium and by the proteolytic strain Lactobacillus helveticus M92 in skimmed milk. After extraction of proteinases from the strains with caseinolytic activity, protein samples were analysed by the SDS-PAGE. The protein extract of the Lc. lactis ZGBP5-32 and ZGZA7-10, retained proteolytic activity even at very low concentrations. The ultrafiltration improved protein extraction. The crude extract possibly contained putative protease, as a decrease in contaminating proteins was confirmed by SDS-PAGE in samples of L. brevis D6 and SF9B, L. fermentum D12 and L. plantarum D13.

Obtaining of a Milk Drink with Mushrooms and Bioactive Compounds

Fermented dairy products are a rich source of nutrients. Buttermilk is part of fermented dairy products and is highly valued by consumers due to its sensory and nutritional qualities. The study aims to capitalize on buttermilk by adding mushroom powder and volatile oil of dill and caraway encapsulated in sodium alginate. The research was performed over for 20 days using sensory and physicochemical analysis methods. The samples analyzed were plain buttermilk, buttermilk with encapsulated dill volatile oil, buttermilk with encapsulated caraway volatile oil, buttermilk with added mushroom powder, buttermilk with added mushroom powder and encapsulated dill volatile oil and buttermilk with the addition of mushroom powder and encapsulated caraway volatile oil. The results of the physicochemical analyzes were statistically processed using the Minitab program. The addition of mushroom powder in buttermilk has positively influenced its sensory characteristics, and the results obtained from physicochemical analyzes were superior to plain buttermilk. The addition of volatile oil of dill and caraway has positively influenced both the sensory and physical-chemical characteristics of buttermilk.

QUALITY MANAGEMENT SYSTEM TO IMPROVE THE QUALITY AND EFFICIENCY OF THE PRODUCTION OF BUTTERMILK WITH MUSHROOMS

In order to obtain safe and high quality dairy products, fermented dairy processors implement and maintain procedures based on HACCP principles, which are based on a systemic approach to risks and corrective measures to eliminate any potential risk associated with food safety. The aim of this study was to use tools to analyze hazard, risk assessment and determine critical control points during the production process of buttermilk with mushrooms as an innovative product. The safety control system for fermented dairy products based on HACCP concepts, involves a systemic approach to risks and corrective measures to eliminate any potential risk associated with food safety.

Associations Between Intake of Fermented Dairy Products and Blood Lipid Concentrations Are Affected by Fat Content and Dairy Matrix – The Tromsø Study: Tromsø7

Introduction: Dairy fat is rich in saturated fatty acids known to increase serum low-density lipoprotein cholesterol (LDL-C) concentration, an important risk factor for cardiovascular disease (CVD). However, intake of fermented dairy products has been associated with reduced CVD risk in observational studies. How intakes of different fermented dairy products are associated with blood lipid concentrations may provide a possible explanation for the suggested reduced CVD risk.Aim: To examine the associations between different types of fermented dairy products, with various fat contents and dairy matrix structures, and blood lipid concentrations in a general population.Methods: In 11,377 women and men aged between 40-99 participating in the population-based Tromsø Study 2015-2016, multivariable linear regression was used to examine associations between total intake of fermented dairy products, intake of yogurt (including regular-fat, low-fat, and semi-solid yogurt), cheese (including regular-fat and low-fat), and liquid fermented dairy, and serum concentrations of total cholesterol, LDL-C, high-density lipoprotein cholesterol (HDL-C), and triglycerides. Dietary data was collected using a validated food frequency questionnaire. Analyses were adjusted for potential confounding factors, and cheese intake analyses were stratified by self-reported use of cholesterol-lowering drugs.Results: Cheese intake was positively associated with HDL-C [regression coefficient 0.02 mmol/l (95 % CI 0.01, 0.03)], and inversely associated with LDL-C [regression coefficient−0.03 mmol/l (95 % CI−0.04,−0.01)] and triglycerides [relative change −1.34 % (95 % CI: −2.29 %, −0.37 %)] per 25 g/day among non-users of cholesterol-lowering drugs, while no associations were found among users. Total intake of fermented dairy was inversely associated with triglycerides [relative change −1.11 % (95 % CI: −1.96 %, −0.24 %)] per 250 g/day, while no associations were found for yogurt intake. Intake of low-fat cheese was more favorably associated with blood lipids compared to regular-fat cheese, and semi-solid yogurt was inversely associated with LDL-C and triglycerides, while intake of liquid fermented dairy was not associated with any of the blood lipids.Conclusion: This study highlights the importance of investigating specific types of dairy products separately, based on fat content and dairy matrix, when examining effects on blood lipid concentrations, and stratifying statistical models by use of cholesterol-lowering drugs when relevant.

Dairy products as sources of methanogens for humans

Methanogens are detected in human gut from the first moments of life and there is a diversification of methanogens during infancy. However, the sources of acquisition of methanogens are not well elucidated. We therefore investigated 56 dairy products as potential sources of methanogens by applying molecular biology. In the presence of negative controls, we obtained an overall prevalence of methanogens in 85.7% (48/56) of samples by real-time PCR. Further PCR-sequencing identified 73.2% (41/56) of Methanobrevibacter smithii. We also found for the first time in dairy products 1.8% (1/56) of Methanobrevibacter oralis, 7.1% (4/56) of Methanobrevibacter millerae, 1.8% (1/56) of Methanobrevibacter ruminantium, 1.8% (1/56) of Methanocorpusculum sp. We observed a significant presence (p-value=0.001) of methanogens in fermented dairy products compared to unfermented dairy products. This study gives credit to the fact that dairy products could be considered as a source of methanogens for humans, especially for children.