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Effect of Flax Cake and Lupine Flour Addition on the Physicochemical, Sensory Properties, and Composition of Wheat Bread
Bread is consumed by people all over the world. Its quality may be modified by the application of other raw materials or changes in production technology. The addition of flax cake (FC) and lupine flour (LF) was proposed as a modification of the nutritional value of wheat bread. Bread with non-fermented and fermented FC and LF was prepared, and its physicochemical, sensory properties and composition were compared to wheat bread. A higher than 5% addition of these components reduced the bread volume and increased their hardness, gumminess, and chewiness. To reduce the negative impact of these additives on the physical and sensory properties of bread, these raw materials were fermented by selected starter cultures. The addition of FC and LF fermented by Lactobacillus plantarum lowered the undesirable changes in the physicochemical properties of the bread. It also slightly increased the overall acceptability of the products. Propionic fermentation lowered sensory assessment rates considerably. The following changes in the composition of bread prepared with the addition of fermented by L. plantarum FC and LF were noted: increase in protein (by ~30%), ash (by ~100%), both soluble and insoluble fiber (by ~500%) content. The starch content was reduced by about 18–20%. The modifications increased the nutritional value of the obtained bread, preserving its physicochemical properties and sensory acceptability.
Flaxseed (Linum usitatissimum L.) protein and peptide identification of raw and roasted seeds: application of the UHPLC-Q-TOF-MS/MS method
AbstractBACKGROUNDFlax (Linum usitatissimum L.) seeds are in the spotlight due to their enormous potential as a functional food ingredient, and proteins and peptides play a crucial role in their functional food properties. Flax seeds can be added to foods during production either before or after heat pre‐treatment (roasting), creating the need for thermally stable peptides as markers for flax seed identification. In this study, the proteins of untreated and roasted seeds of three flax cultivars (Jantarol, Oliwin and Szafir) were analyzed by high‐resolution tandem mass spectrometry coupled to high‐performance liquid chromatography (UHPLC‐Q‐TOF‐MS/MS) to search for species‐specific peptides as potential markers of flax seeds.RESULTSTwenty‐three proteins found in untreated seeds of each cultivar were selected using UHPLC‐Q‐TOF‐MS/MS. After roasting, six of them were identified based on 13 unique and species‐specific peptides, and they have been suggested as potential thermally stable species‐specific markers for the identification of flax seed proteins. Among them, one new unique and thermally stable peptide, DPVLAWR, was found that had not been identified in previous studies.CONCLUSIONOur research has provided novel information on the protein and peptide identification of flax seeds taking into account possible cultivar diversity. In the study, the proteomics UHPLC‐Q‐TOF‐MS/MS method was applied. In addition, heat‐stable peptides were determined as a potential indicator for the identification of flax seeds after roasting, a process often used for oilseed pre‐treatment. © 2025 Society of Chemical Industry.
The Effect of Ultrasound and Lactic Acid Fermentation on the Selected Quality Parameters and Bioactive Compounds Content in Fermented Pumpkin (Cucurbita pepo L.)
Increasing the consumption of fruit and vegetables can be achieved by creating new products. A promising method seems to be the directed fermentation of vegetables. The aim of this study was to investigate the effect of ultrasonic pretreatment (US; 25 kHz; 5 min) and the lactic acid bacteria strain (LAB; Lactiplantibacillus plantarum 299v and Lacticaseibacillus rhamnosus GG) on the quality of fermented pumpkin (Cucurbita pepo L.). The pumpkin was inoculated with 5 log CFU/g of specific LAB strain. Fermentation was carried out for 7 days at 35 °C. Some samples were US treated at the washing stage. During fermentation, there was an increase in the LAB count of 3 logarithmic cycles compared to the initial inoculum. For L. rhamnosus, preceding fermentation by US treatment contributed to an increased bacteria count of 4 logarithmic cycles. In the case of fermentation with L. rhamnosus, the lactic acid content was significantly higher than for L. plantarum. These samples are also characterized by higher sensory properties, desirability of taste, and overall desirability. Fermentation contributed to a decrease in carotenoid and phenolic compounds content and an increase in the antioxidant capacity of the pumpkins, regardless of the bacterial strain.
Heme iron as potential iron fortifier for food application – characterization by material techniques
Abstract The modern food industry requires new analytical methods for high-demand food supplements, personalized diets, or bioactive foods development. One of the main goals of the food industry is to discover new ways of food fortification. This applies to food products or supplements for human and animal diets. In our research, we focused on the solid particles of AproTHEM (dried porcine hemoglobin), which is approved for animal feeding and as a meat product additive, and AproFER 1000 (heme iron polypeptides), which is still being investigated. The study showed the possible application of advanced techniques for the examination of iron-based food additives. We evaluated selected techniques for particle size and morphology examination such as laser diffraction, optical microscopy, as well as scanning electron microscopy, and briefly discussed their usefulness compared with other techniques. On the basis of our results, we proposed a path of microscopic analysis for the study of material homogeneity. The structure of heme iron was evaluated by X-ray diffraction, FT-IR, and Raman spectroscopy supported with thermal behavior analysis (differential scanning calorimeter). Furthermore, a portable colorimeter was applied for L*a*b* color analysis. Our study proved that for new food product development, particle size analysis as well as typically used advanced materials techniques can be successfully applied.
Application of Chia and Flaxseed Meal as an Ingredient of Fermented Vegetable-Based Spreads to Design Their Nutritional Composition and Sensory Quality
Fermented vegetable spreads could offer an opportunity to diversify the range of plant-based foods. The challenge in developing the spreads is to achieve high quality, including stable consistency, consumer desirability and high nutritional value. The aim was to evaluate the application of chia and flaxseed meal for fermented zucchini-cucumber spread production. The effect on the chemical composition, phenolic compound content, antioxidant activity, and sensory quality of the vegetable spread was evaluated. Its color, viscosity, and microstructure were also analyzed using instrumental methods. The meal addition varied from 4.0 to 14.0%. The spread with meal addition had higher fat, protein, ash, and dietary fiber content than the control. Total free phenolic compound content and antioxidant activity also increased, and chia seed meal impacted the parameters more. On the contrary, flaxseed meal improved more the product’s consumer desirability than chia. Both were effective gelling agents that increased viscosity and enhanced product spreadability, and only flaxseed meal showed a masking ability. Its addition reduced the perception and intensity of the bitter, tart, and sour taste. The spread formula consisting of fermented zucchini and cucumber with 9 to 11.5% flaxseed meal addition was the most recommended to achieve the product with high consumer desirability.
The Selection of the Optimal Impregnation Conditions of Vegetable Matrices with Iodine
This study aimed to determine the use of selected vegetables (pumpkin, cauliflower, broccoli, carrot) as carriers of potassium iodide (KI) and potassium iodate (KIO3) by determining changes in iodine content under various conditions of impregnation as the degree of hydration, impregnated sample temperature, and impregnation time. The influence of these conditions on iodine contents in vegetables after their fortification and storage (21 °C/230 days) was analyzed. The results showed that all selected vegetables could be efficient iodine carriers. However, the conditions of the impregnation process are crucial for fortification efficiency, particularly the degree of hydration and the temperature of the impregnated samples before drying. The results showed that the lowest iodine content was in samples fortified at 4 °C and 1:4 hydration. On the other hand, the highest reproducibility of iodine was for the following fortification conditions: temperature of −76 °C and hydration of 1:1. The studies confirmed the higher stability of iodine in KIO3 form compared to KI. To increase recovery of the introduced iodine in the product after drying, using the conditioning step at 4 °C is not recommended. We recommend freezing vegetables immediately after the impregnation process
Fermenting of flaxseed cake with Lactiplantibacillus plantarum K06 to increase its application as food ingredient - The effect on changes in protein and phenolic profiles, cyanogenic glycoside degradation, and functional properties
Oilseed By-Products Valorization Using Lactic Acid Fermentation: Nutritional and Technological Aspects of Applications in Wheat Bread
This study aimed to determine the effect of lactic acid fermentation with Lactiplantibacillus plantarum on the bioactive compound composition and fatty acid profile of black cumin, camelina, milk thistle, and evening primrose cakes, as well as to evaluate their application as ingredients in wheat bread production (9% of wheat flour substitution). Fermentation increased the content of flavonoids and phenolic acids in camelina cake by approximately 30%, while causing a 30% decrease in carotenoid content. In black cumin cake, an eightfold increase in 4-hydroxybenzoic acid content and a 10% reduction in thymoquinone were observed. For milk thistle, silymarin content decreased by approximately 10%. Fermentation increased the proportion of saturated fatty acids (SFAs) and monounsaturated fatty acids (MUFAs), reducing polyunsaturated fatty acids (PUFAs) in all analyzed cakes. Breads containing 9% fermented cakes exhibited lower specific volume and greater hardness (22–80%), gumminess (17–64%), and chewiness (8–48%), compared to the breads with unfermented cakes. The contents of bioactive compounds in breads depended on the type of cake added. The bread with fermented camelina cake showed a 15% increase in flavonoid content and higher levels of selected phenolic acids compared to the bread with unfermented camelina. The breads containing camelina cake, both fermented and unfermented, also had the most favorable physical quality (texture and volume). The amount of ferulic acid in all samples of bread with the addition of fermented cakes was lower in comparison to the bread samples with unfermented cakes.
Bioactive Chemicals and Biological Activity of Tropaeolum majus L. and the Importance of Trichoderma spp. in the Cultivation of This Species
Tropaeolum majus L. is a popular ornamental plant. All parts of T. majus plant (flowers, leaves, and seeds) are edible and are appreciated for their pungent taste, although their chemical composition varies. T. majus is known for its many health benefits. It is a source of trace elements and bioactive compounds that are easily absorbed by the human body. The flowers of T. majus contain flavonoids from the flavone and flavonol groups, as well as their glycosides, which exhibit antibacterial, antifungal and antiviral activity. They also inhibit the activity of certain enzymes. Among the flavonoids, the flowers and leaves of T. majus contain derivatives of kaempferol and quercetin. Flavonoids also include anthocyanins, which are responsible for the color of T. majus flowers. In red flowers, delphinidin predominates; in orange flowers, pelargonidin; and in yellow flowers, pelargonidin and delphinidin are present in similar amounts. In the flowers of T. majus, seven carotenoids have been identified: violaxanthin, antheraxanthin, lutein, zeaxanthin, α, β and γ-carotene. In the leaves, however, lutein, violaxanthin, β-carotene and neoxanthin were detected. In T. majus, the presence of two glucosinolates has been reported: glucotropaeolin and sinalbin. The flowers and leaves of T. majus also contain both macroelements (N, P, K, Ca, Mg, Na) and microelements (Fe, Mn, Cu, Zn, Mo), and essential oils which have anti-cancer, antibacterial, and antiviral properties. The quality and flowering of T. majus are enhanced by fungi of the Trichoderma genus, which is important both ecologically and in terms of increasing the yield of raw material extracted from the plant. T. aureoviride, T. hamatum, and T. harzianum stimulated the flowering of the T. majus ‘Spitfire’. The plants treated with T. harzianum after being planted in pots flowered the most abundantly. Trichoderma spp. caused the plants to grow more intensively, producing longer and more leafy shoots with a greater number of offshoots. Trichoderma spp. stimulated the uptake of macronutrients, except for P. In the case of Ca and Na, this phenomenon was only observed in plants treated with T. aureoviride and T. hamatum, and for Mg, only when T. hamatum was applied to sown seeds. As for the developed root systems, as far as the micronutrients are concerned, Trichoderma spp. stimulated the uptake of Zn and Mn. Additionally, there was a higher Fe content in the plants treated with T. harzianum on both dates and T. aureoviride after planting the plants in pots.
Influence of Heat Treatment Prior to Fortification on Goitrogenic Compounds, Iodine Stability and Antioxidant Activity in Cauliflower
Iodine deficiency remains a global public health concern. Preliminary studies confirmed that cauliflower can serve as a carrier for iodine salts. However, the influence of its endogenous goitrogenic compounds (phenolic compounds and glucosinolates) on iodine utilisation is not fully understood. This study aimed to assess the potential for enhancing cauliflower’s effectiveness as an iodine carrier through various thermal pre-treatment methods, and to examine how these methods, along with the plant’s endogenous goitrogens, affect iodine stability. Cauliflower was cooked by steaming or boiling (covered or uncovered) and fortified with KI or KIO3. Iodine content, selected phenolic compounds (sinigrin, progoitrin, glucobrassicin, gluconapin, indole-3-carbinol) and antioxidant activity (ABTS●+, DPPH●) were analysed immediately after fortification and after 90 days of storage at 4, 21, or 40 °C under controlled humidity and darkness. The results showed that both the heat-treatment method and storage temperature significantly affected iodine retention and were associated with changes in goitrogenic compounds and antioxidant capacity. Cauliflower demonstrated favourable stability as a carrier of iodine, although phytochemical composition influenced fortification outcomes. These findings suggest that the initial heat treatment of cauliflower significantly affects its effectiveness as a matrix for iodine fortification, likely due to differences in the content of goitrogenic compounds.
The Effect of Yogurt and Kefir Starter Cultures on Bioactivity of Fermented Industrial By-Product from Cannabis sativa Production—Hemp Press Cake
Cannabis sativa (hemp) is a plant considered to be abundant in bioactive compounds. The increasing production of hemp oil is leaving considerable amounts of hemp press cakes (HPC), which have not been sufficiently managed so far. One of the directions of development of plant-based food is the use of by-products of the agri-food industry in accordance with the idea of zero waste and the circular economy, so the purpose of this study was to determine the possibility of HPC fermentation using yogurt and kefir cultures and to determine the effect of the type of starter on the properties of the products. In the present study, starter cultures of yogurt (YO 122) and kefir (commercial grains) were used for HPC fermentation. Changes in lactic acid bacteria (LAB) and yeast population, pH, acidity, the content of bioactive compounds by spectrophotometric methods (proteins, amino acids, polyphenols, flavonoids, reducing sugars) and antioxidant activity (DDPH, ABTS, FRAP and reducing power) were determined. The results showed that it was possible to develop high-value beverages based on HPC with high fermentation efficiency: survivability of LAB and yeast (>106 CFU/g) and acidification (pH in a range of 4.82–6.36 and 5.34–6.49 for yogurt and kefir culture, respectively). Moreover, the stability of hemp protein, with its variable free amino acid composition, antioxidant potential and presented changes in polyphenolic content, was observed during storage. The presented results show a new way to manage HPC as an oil industry residue by using it as a raw material for the development of a bioactive food product and illustrate the relationship between applied starter culture, the direction of fermentation and changes in the content of bioactive compounds.
Probiotyczne liofilizowane dania dla dzieci o zaprojektowanych właściwościach funkcjonalnych i sposób ich wytwarzania
Hybrid Drying of Apples: A Comparison of Continuous and Intermittent Process Modes
In recent years, microwave and ultrasound technology has been under extensive development in drying technologies. Researchers are constantly searching for improved solutions or alternatives to hot air drying. The goal of this work was to determine the intermittent action of ultrasound and microwaves on convective drying. An examination of five specific cases of stationary and nonstationary drying processes was conducted. The evolution of moisture content and drying rate over process time was discussed, and the average drying rate and time, drying constant, effective diffusion coefficient, and specific energy consumption were also compared. To identify the differences between the dried products, the quality characteristics such as: water activity, color, shrinkage, rehydration, polyphenol content, odor, and flavor of apples were analyzed. The results indicate that intermittent drying provides a good alternative to convective drying, including when combined with microwave and ultrasound treatments. Applying microwaves or ultrasound intermittently resulted in an increase in the effective diffusion coefficient (by 68%) and drying rate (by 117%) and a reduction in drying time (by 53%), compared to convective drying. This processing method resulted in lower energy consumption by up to 13% and well-preserved quality attributes—this could be very promising for the production of healthy, ready-to-eat apple snacks.
Protein fractions from flaxseed: the effect of subsequent extractions on composition and antioxidant capacity
Flaxseed proteins exhibit functionalities interesting for the food industry, including antioxidant capacity. Antioxidant activity depends on the protein composition and the presence of phenolic compounds extracted with them from the matrix. The research focused on the effect of subsequent protein extractions (water, salt and alkaline) of flaxseed meals (of three cultivars) on the protein fraction composition and its relations to antioxidant capacity. The protein and phenolic profiles and antioxidant functionalities (in antiradical ORAC and emulsion assays) were analysed. Spectroscopic characteristics of the fractions (fluorometric and FT-IR analysis) were also included. Our study has shown the effect of fractionation on the share of proteins at MW from 56–38 kDa (globulin-like) and <15 kDa (albumin-like) in the protein profiles. The highest globulin share was in the alkaline-extracted fractions (AEF) and albumin in the salt-extracted (SEF) ones. SDG (secoisolariciresinol diglucosides) and phenolic acids (p-coumaric and ferulic) were extracted with flaxseed proteins. Their contents were fraction-dependent and the highest in AEF. The concentration of phenolics in AEF corresponded with the highest antiradical capacity (ORAC) compared with the other fractions. However, the SEF showed a higher ability to inhibit oxidation in emulsions than AEF, which could be associated with the higher content of the low MW proteins.