Search Results (2,291)

This study examined the profile of bioactive peptides and polysaccharides in beer wort enriched with malted and unmalted hemp seeds. The aim of this research was to evaluate the influence of different hemp processing methods (malted versus unmalted) on the concentration and characteristics of bioactive compounds—specifically (1) peptides exhibiting antioxidant, anti-inflammatory, and antihypertensive activities and (2) soluble polysaccharide fractions that affect wort viscosity and prebiotic potential. The results indicated that supplementation with 10% malted hemp seeds was most favorable. This level of addition enhanced the peptide composition of the wort without adversely affecting fermentation efficiency. Moreover, it facilitated the generation of functional peptides with antioxidant and flavor-enhancing properties and introduced non-fermentable polysaccharides that improved wort viscosity and foam stability without the negative effects observed at higher hemp seed concentrations. In contrast, a 30% addition of hemp seeds, particularly in unmalted form, led to a reduction in fermentable sugar and peptide contents and increased the likelihood of fermentation slowdown. The incorporation of 10% malted hemp seeds has the potential to enhance the sensory and functional attributes of beer, primarily due to the presence of bioactive peptides and polysaccharides, while maintaining fermentation performance and clarity. Fermentation and brewing efficiency may decline at higher hemp seed inclusion rates, warranting further investigation. The use of unmalted hemp necessitates enzymatic treatment to improve fermentable sugar availability. Additionally, high-performance size-exclusion chromatography (HPSEC) proved to be a valuable analytical tool for optimizing wort composition in the development of hemp-enriched beers. Full article

The high environmental impact caused by the accumulation of single-use plastic calls for measures to curb this problem, from a ban on single-use plastic tableware to the production of a wide range of biodegradable and reusable products. The aim of this study was to investigate how tableware made of different materials affects consumers’ sensory perception and emotional and hedonic responses when eating the same meal. In this study, four types of meals of animal or plant origin were selected for the experiments, which were served warm or cold. Accordingly, four groups of university students were instructed to taste the corresponding meal while using three sets of tableware made of different materials: polypropylene, wood/cardboard, and a stainless steel/ceramic/glass control set (regular set). Overall, the results suggest that the use of regular tableware elicited a positive emotional profile, while the use of disposable, wooden, and plastic tableware elicited negative emotional responses, which is consistent with the acceptability of the meal samples—regular tableware received higher ratings, while both types of disposable tableware received lower ratings. Finally, the material of the tableware only led to changes in odor and flavor perception when warm-served meals were sampled—higher intensities were reported when students used the regular tableware sets. Wooden cutlery imparted an atypical woody flavor to the meals, regardless of the type of meal. Full article

Efficient nitrogen fertilization is critical for maximizing crop productivity while minimizing environmental and health risks. Red beet baby leaves are valued for their vibrant color, flavor, and antioxidant content, particularly betalains, but they are also prone to accumulating antinutritional compounds such as nitrate and oxalate. Excessive nitrogen supply can exacerbate this accumulation, highlighting the need to optimize nitrate input to balance yield, nutritional quality, and safety. This study examined how different nitrate concentrations (1 mM and 10 mM NO₃⁻) in hydroponic systems influence red beet baby leaf yield, quality, and levels of beneficial and harmful compounds. The plants were sampled at 10 and 17 days after planting (DAP), and the effects of the treatments in relation to plant age were assessed. Both sampling time and nitrate concentration significantly influenced red beet baby leaf growth and quality. Extending cultivation to 17 days improved yield and antioxidant levels (phenols, flavonoids, betalains) but also increased soluble oxalates. Low nitrate (1 mM) reduced both yield and antioxidant content, regardless of harvest time. However, after 17 days, low nitrate also lowered total oxalate levels, likely due to increased oxalate oxidase activity. Although 1 mM nitrate reduces fertilizer input, it compromises yield and quality. Therefore, intermediate nitrate levels should be explored to optimize both fertilizer use and product quality. Full article

Water consumption in adults usually reaches lower levels than the recommendations, and evidence of the beverage consumption habits of women in the stages around menopause is scarce. The aim of this study was to assess the consumption of beverages and to determine how physical, psychological, and environmental factors modify the hydration habits of reproductive-age and postmenopausal women in the northeast of Mexico. We carried out a cross-sectional study of 40–65-year-old female (n = 690) residents in the metropolitan area of Monterrey, Nuevo León state, Mexico, who were classified as reproductive (n = 263) and postmenopausal (n = 427). Anthropometrics, including body composition, beverage consumption, physical activity, and physical, psychological, and environmental factors, were assessed. There were no differences between the BMI and waist-to-height ratio of reproductive-age and postmenopausal women. The total daily beverage consumption did not differ between reproductive-age and postmenopausal women, with an average beverage consumption of 2723–2915 g/day. A third of the women studied consumed less than 1.5 L/day, and another third—mainly the younger participants—consumed between 1.5 and 2.0 L/day. The most consumed beverage was plain water, followed by regular soda, flavored beverages, coffee, and diet soda. Consumption of regular soda, flavored beverages, and milk was higher among reproductive-age women. The postmenopausal women indicated a higher consumption of plain water and juices. Similar effects of physical and psychological factors and environmental temperature on the beverage consumption of reproductive and postmenopausal women were observed. Physical activity, maximum daily temperature, and body composition were the factors that conditioned beverage intake. Full article

The growing awareness of celiac disease and gluten sensitivities has generated interest in gluten-free products. Whole sorghum (Sorghum bicolor) is an excellent source of nutrients and is gluten-free. However, the absence of gluten makes it technologically challenging to produce leavened products. This research aims to utilize a response surface methodology to optimize the specific loaf volume and crumb firmness of a whole sorghum-based gluten-free bread formulation, evaluating different levels of milk powder, egg white, yeast, sugar, psyllium husk powder, xanthan gum, and soy lecithin. The models fit achieved an $R^2\ge 80\%$. The optimized formulation increased the specific loaf volume from 1.7 to 2.8 cm³ g⁻¹ and decreased crumb firmness from 10.6 to 3.7 N compared to the initial gluten-free bread formulation (C1). Egg white, milk powder, and psyllium contribute to the formation of a gluten-like network, which enables gas retention, dough expansion, and volume increase. In addition, soy lecithin, among hydrocolloids, enhances dough stability and moisture retention, resulting in a softer crumb. Sensory evaluation indicated good consumer acceptability (average score of 7 on a 9-point hedonic scale), particularly for texture and flavor. These findings suggest that optimal formulation of sorghum achieves both technological and sensory properties, supporting its potential as a viable gluten-free bread alternative. Full article

Background: Developing suitable dosage forms presents multiple challenges, such as ensuring the medication can be easily swallowed by young children, mixed with a small amount of food or liquid, and effectively taste-masked. There is no standardized guidance on pediatric dosage forms, taste preferences, or acceptable excipients, often resulting in costly delays due to required toxicology studies. Additionally, regulatory considerations around bioequivalence may necessitate further discussions between industry and regulatory authorities. Objective: This research aimed to investigate and analyze Bulgarian parents’ perspectives on their children’s preferences regarding different oral dosage forms, with a particular emphasis on orodispersible tablets (ODTs). Additionally, challenges related to the development of age-appropriate formulations were comprehensively discussed. Methods: A cross-sectional, online questionnaire-based study was conducted among 303 parents in Plovdiv, the second-largest city in Bulgaria, between January and March 2021. Results: The majority of parents (78.2%) reported no difficulties in administering medication to their child. Liquids were identified as the most preferred oral dosage form (68.3%), followed by tablets (21.8%). With respect to the importance of taste, most parents indicated that it is a very important factor influencing their child’s acceptance of medication. Although 249 parents stated that they were familiar with ODTs, only 11.2% reported that their child had previously taken ODTs. Conclusions: The results of our study show that the taste of the dosage form is a leading factor in child acceptability. The sweet fruit flavor was a favorite among children. Parental attitudes toward ODTs were strongly positive, with 91.1% indicating a preference for their child to receive ODTs rather than conventional tablets. Full article

Traditional sausage in the Republic of Kosovo has been produced for centuries as a traditional method of preserving the nutritional value of meat. In sausage fermentation, natural microbiota such as lactic acid bacteria (LAB) and Micrococcaceae usually participate; these are not only critical for ensuring product safety and flavor development but also represent significant biotechnological potential. The purpose of this study was to analyze traditional fermented sausage, in terms of production practices and hygiene, throughout the production and storage phases. Samples in three stages of production and maturation were analyzed for microbiota, pH, and water activity level. Our results show that the main changes in the bacterial populations from 0 to 7 days of storage included increases in the total numbers of viable mesophilic aerobic bacteria (LAB) and Micrococcaceae (MC). However, the Enterobacteriaceae and coliforms (EC) count showed a significant decrease (p < 0.05) in 1.60 ± 1.62 lg cfu/g by day 14. In conclusion, the number of EC in the traditional sausage was decreased during storage, while LAB and MC were stable, data that indicate the safety and quality of this product. No differences regarding the production practices and storage of traditional sausage were observed, based on the data from the butchers who participated in this study. Full article

This study investigates the impact of epigenetic modification on Saccharomyces cerevisiae using sodium butyrate (SB), a histone deacetylase inhibitor (HDACi), to enhance sensory characteristics in beer fermentation. Epigenetics offers a non-GMO approach to modifying gene expression, with potential for cost-effective strain development in brewing. A commercial ale yeast was cultured under different SB exposure regimes and used to ferment wort. Sensory evaluation was conducted with untrained participants, alongside GC-MS and enzymatic assays for ethanol, glycerol, and residual sugars. While no significant differences were found in ethanol production or smoothness and creaminess—likely due to uniform wort composition—flavor and taste scores varied between treatments. Notably, yeast pre-treated with SB but fermented without additional SB (1G W/O) received the highest flavor acceptability. Treatments involving SB during fermentation showed reduced sensory scores, likely due to butyric off-notes. Higher alcohol levels remained within acceptable thresholds and were more likely influenced by wort amino acid content than epigenetic modification. Though SB had a limited impact on metabolic pathways, this study highlights the feasibility of using dietary epigenetic modifiers to develop novel yeast strains with improved sensory profiles in beer or other fermented beverages and warrants further investigation with alternative compounds. Full article

This study investigates the aroma differences among various peach and nectarine varieties by sensory evaluation, electronic nose (E-nose) analysis, and metabolomics. Peach is a significant fruit crop in China, and identifying unique fragrances is essential for germplasm selection and cultivar improvement. Six peach and nectarine varieties were collected from the National Peach Germplasm Repository in Nanjing, China. Sensory evaluation revealed significant differences in aroma and taste, with ”Zi Jin Hong 3” and “Bai Mi Pan Tao” showing high scores for aroma, sweetness, and overall sensory quality, while “Tachibanawase” had the lowest overall impression score. E-nose analysis showed distinct response values among varieties, with sensors W1S, W1W, and W5S exhibiting the highest sensitivity. GC-MS identified 446 metabolites, including esters and terpenes. PCA and OPLS-DA differentiated metabolite profiles among varieties, revealing significant differences in metabolite expression. The integration of these techniques provides a comprehensive understanding of aroma differences, highlighting the potential for identifying unique germplasms for breeding high-quality cultivars with charming flavor, and offering a theoretical foundation for raw material selection and process optimization in the deep-processing industry of peach fruits in future research. Full article

This study aimed to clarify the sensory characteristics of Koshu wine, which is the most popular white wine produced in Japan, by identifying descriptive terms for sour taste, a primary aspect of wine flavor. A sensory evaluation generated 56 terms related to sour taste quality. Some terms were categorized on the basis of the timing of perception— immediately after sipping, holding in the mouth, and after swallowing—while others were classified as expressing “temporal change”, “overall impression terms”, or “metaphorical terms”. From these, 12 terms—“fresh”, “stand out”, “sharp”, “soft”, “round”, “gentle”, “bright”, “duration”, “crisp”, “intensity”, “mild”, and “calm”—were selected, with definitions and reference standards (materials or examples that represent each characteristic) established. A trained sensory panel evaluated 16 Koshu wines, revealing significant differences in all sour taste quality terms except “duration”. The evaluation of “duration” may require improvement. Correlation analysis indicated that pH was strongly associated with “sharp” sour taste immediately after sipping, while titratable acidity and pH correlated with “round” and “gentle” sour taste when the wine was held in the mouth. Total acidity was linked to the duration of sour taste. Applying the sour taste quality terms determined from this study will enable the quantification of the sour taste quality of wines. Full article

Pea protein isolate (PPI) is a plant protein with high nutritional value, but its application in food is limited by an unpleasant beany flavor. This study aimed to investigate the feasibility of improving the flavor of PPI through fermentation with Enterococcus faecalis 07. PPI was subjected to fermentation by E. faecalis 07 for different durations (0 H, 24 H, 48 H, and 72 H). After fermentation, pH, viable cell counts, free amino acid contents, electronic tongue analysis, and volatile organic compounds were determined. The results showed that fermentation significantly reduced the bitterness of PPI and enhanced its umami intensity. A total of 64 volatile organic compounds were identified in the fermented samples, 42 more than in the unfermented sample. Quantitative analysis revealed that hexanal (grass-like odor) decreased by 92% after 72 h of fermentation, 1-octen-3-ol (mushroom-like odor) decreased from 6.94 mg/kg to 1.73 mg/kg, and trans-2-octenal decreased to 0.59 mg/kg; meanwhile, aromatic compounds such as esters and ketones were produced. Along with changes in the physicochemical properties, organic acids, and free amino acid composition of PPI, correlation analysis between electronic tongue data and volatile compounds further indicated that changes in volatile components simultaneously affected the perception of five taste attributes of PPI (bitterness, sourness, sweetness, saltiness, and umami). In conclusion, this study demonstrated the feasibility of fermenting PPI with E. faecalis 07, which effectively improved its sensory attributes and physicochemical properties to a certain extent. Full article

Fu tea is a unique microbially fermented tea from China, and has two types. The primary distinction between these two types—Fu brick tea (FBT) and Fu loose tea (FLT)—is that FBT is compressed into bricks, whereas FLT is maintained as loose leaves. To investigate the differences in the chemical composition and sensory characteristics between the two types of Fu tea, this study utilized samples produced from the same batch of raw dark tea material to ensure comparability. Multiple analytical approaches were applied, including main active component analysis, sensory flavor evaluation, metabolomics, and differential characteristic component analysis. These methods were employed to comprehensively compare and characterize the two tea types. The results showed that compared to FBT, FLT exhibited a longer-lasting fungal flower aroma and a mellower taste. Furthermore, the quantity of Eurotium cristatum in FLT was 56.7% higher than that in FBT, indicating a significant difference. Untargeted ultrahigh-performance liquid chromatography–mass spectrometry was used to screen metabolites in Fu tea samples, and after multivariate statistical analysis, 12 differential metabolites were finally identified, including phenolic acids and their derivatives, coumarins and their derivatives, phenylpropanoids, and flavonoids and their glycosides. Subsequently, a targeted UHPLC-QQQ-MS/MS-based method was established and validated for the main differential metabolites, phenolic acids and catechins. The results indicated that gallic acid, catechin, and epicatechin can serve as characteristic markers for distinguishing between FBT and FLT. Notably, the content of gallic acid in FLT was 168.6% higher than that in FBT. These findings elucidate the impact of the pressing process on Fu tea, provide guidance for discriminating between FBT and FLT, and are significant for quality control in the industrial production of Fu tea. Full article

Sour camel milk, as a nutritious fermented dairy product, faces challenges in terms of quality stability. Sparassis crispa, due to its antioxidant and antibacterial properties, shows potential in improving food quality. This study aimed to investigate the effects of different active components of Sparassis crispa on the quality of sour camel milk. The results indicated that Component I was the most effective Sparassis crispa component in enhancing the quality of sour camel milk. The components of Component I were identified as LysoPC(0_0_18_2(9Z,12Z)), LysoPC(18_1(11Z)_0_0), and N-(2-hydroxymethyl-3-chloro-4-hydroxyphenyl) anthranilic acid, among others. It increased the total viable count of lactic acid bacteria (LAB) and water-holding capacity (WHC) while improving the texture of sour camel milk. Metabolomics analysis revealed that the first component of sour camel milk (FCS) and Sparassis crispa sour camel milk (SS) have a high degree of similarity in the composition of flavor substances. The characteristic flavor metabolites included 2-amylfuran, isoamyl alcohol, 2-methylbutyraldehyde, and 2-ethyl-1-hexanol. Additionally, the supplementation of Component I increased the levels of metabolites such as amino acids, free fatty acids, organic acids, and carbohydrates, thereby contributing to the enhanced taste and nutritional quality of sour camel milk. This intervention also strengthened carbohydrate and amino acid metabolism in LAB. These findings provide a theoretical basis for utilizing Component I to improve the quality of sour camel milk. Full article

A prepared dish needs to be reheated before eating, and various reheating methods affect its flavor quality. This study evaluated the influence of stir-frying reheating, steaming reheating and microwave reheating on moisture content, lipid oxidation and flavor profiles of prepared beef with tangerine peel. Stir-frying reheating samples obtained a higher moisture content and the highest thiobarbituric acid reactive substance value. Fifty-seven volatile compounds were identified by gas chromatography–mass spectrometry, of which fifteen compounds were considered as odor-active compounds with an odor activity value > 1. Aldehydes were the most prominent contributors to the aroma of reheated samples. Results revealed that stir-frying reheating samples had the most varieties of odor-active compounds, and the odor activity values of most of them were relatively higher. The heatmap analysis based on the odor activity values indicated that the stir-frying reheating process could maintain the original flavor of samples. A total of fifty-two volatile organic compounds were identified by gas chromatography–ion mobility spectrometry, and the principal component analysis revealed that the three reheated samples could be well distinguished from each other. Moreover, the content of free amino acids and nucleotides in stir-frying reheating samples was higher than that in other reheated samples. In conclusion, different reheating treatments affected the flavor quality of beef samples, and stir-frying process was better to obtain the aroma and taste characteristics of samples. The results of this study could provide useful information about the appropriate reheating method of a dish of prepared beef with tangerine peel for consumers, caterers and industrial production. Full article

As a high-value product used as food, medicine, or cosmetics, honey is particularly susceptible to adulteration. Therefore, it must be regularly tested at various stages of its life cycle to ensure its quality and authenticity, especially its botanical origin. Sensory quality features play a huge role in creating the quality of products, but also in determining their authenticity. Sensory analysis helps determine the honey’s overall quality based on attributes like color, aroma, taste, and texture. Sensory evaluation of honey can reveal issues like crystallization, off-flavors, or off-odors that might indicate adulteration or spoilage. The aim of our work was therefore sensory quality assessment of 84 honey samples in order to create sensory profiles for the varietal classification of honeys. In order to obtain information on the differences in sensory features and their classification based on the assessment of honey quality descriptors, a discriminant analysis was carried out. Then, an assessment was carried out to check whether the compared varieties differ in terms of the value of the sensory feature parameter assessment. As a result, a statistical tool was constructed (canonical discriminant functions, distinguishing/classifying the varieties of honeys tested). These models will ensure the repeatability of results in the classification of sensory profiles of varietal honeys on the example of Polish honey varieties. The results indicate that the sensory analysis is a good analytical tool to differentiate honey types. The findings of this study can be applied by honey producers, suppliers, and customers to differentiate and determine honey varieties according to their sensorial attributes. Full article