Search Results (234)

In recent years, consumers have become increasingly aware of the health implications of diets high in sugar. This has prompted the baking industry to engage in the development of low-calorie biscuits while preserving the sensory and technological properties typically provided by sucrose. The present study evaluated the use of five polyols (erythritol, isomalt, maltitol, sorbitol, and xylitol), trehalose, and fructose (included because of its lower postprandial glycemic response compared with sucrose) as sucrose replacers in whole-wheat biscuits by assessing their physicochemical properties and sensory acceptability. The results demonstrated that the isomalt, maltitol and trehalose were able to preserve or improve the structural characteristics of the biscuits. Such an outcome was mainly associated with their ability to promote adequate dough spreadability and to produce biscuits with desirable crispness. Moreover, the biscuits formulated with isomalt and trehalose achieved the highest sensory appreciation, likely due to their high content of 2,4-decadienol, 2-acetatone and 2-pentanone, compounds associated with roasted and buttery flavour notes. Overall, the study demonstrated the feasibility of a complete replacement of sucrose in the production of reduced-calorie biscuits that could be highly acceptable by the consumers, utilizing polyols or low-digestibility sugar such as trehalose. Full article

The brewing industry remains at the forefront of technological innovation, with growing interest in alternative yeasts. Saccharomyces cerevisiae var. boulardii, a well-established probiotic yeast, has attracted attention for its potential to produce probiotic-enriched beers, offering an option for moderate consumers seeking functional beverages. This mini-review brings together current research on the use of S. boulardii in craft brewing, focusing on fermentation performance, flavour and sensory characteristics, and potential health-related functions. While often regarded as a variant of S. cerevisiae, S. boulardii shows comparable or greater cell growth, increased acetic acid production at the expense of glycerol, and lower alcohol yield compared to S. cerevisiae. Despite these differences, beers brewed with S. boulardii exhibit similar volatile compound profiles and sensory characteristics to those produced with S. cerevisiae. In terms of health-related attributes, S. boulardii-fermented beers show higher antioxidant activity, the presence of malto-oligosaccharides with prebiotic potential, and the ability of yeast to survive both storage and gastrointestinal transit. Strategies explored to optimise its brewing performance and customer acceptance include co-fermentation with S. cerevisiae, modified mashing protocols, and natural flavour additions. Overall, the available evidence supports S. boulardii as a promising yeast for developing probiotic-enriched beers. Further research is needed to validate current findings at commercial scales, investigate host–microbiome interactions following beer consumption and develop strategies that balance probiotic efficacy and desirable beer appearance over shelf life. The paper may assist brewers in making informed decisions about deploying S. boulardii, aligning consumer interest in functional beverages with the enjoyment of beer. Full article

Wuhua Yellow Chicken (WYC) is a Guangdong heritage breed known for its characteristic “three yellow” phenotype and distinctive meat flavour. Despite its commercial importance, data on muscle flavour chemistry remain scarce. In this study, 180 one-day-old chicks (90 cocks, 90 hens, 18 replicates of 5 chickens per sex) were raised to 20 weeks under cage conditions, after which slaughter traits, meat physicochemical indices, proximate composition, amino acid and fatty acid profiles, and volatile compounds were measured. Cocks were heavier and had higher eviscerated yields and leg muscle percentages, whereas hens accumulated more abdominal fat (6.47–0.46%, p < 0.01). Shear force was greater in cock breast muscle (2.86–2.13 kg·f, p < 0.01), indicating firmer texture. Cock breast muscle contained more crude protein (26.89%) and less crude fat. Amino acid totals were identical between sexes (21.10 g/100 g), with all six essential amino acids surpassing FAO/WHO reference values; lysine scored highest (168%). Unsaturated fatty acid proportions were 63.33% (cocks) and 66.64% (hens), with PUFA/SFA ratios of 61.95% and 53.60%, respectively. Gas chromatography-mass spectrometry identified 10 volatile compounds in cocks and 14 in hens; aldehydes dominated in both, with hexanal alone accounting for over 50%. Hen muscle contained a richer volatile profile, including additional ketone and ester compounds. These data collectively confirm that WYC is nutritionally dense, organoleptically appealing, and well-suited for further breed promotion. Full article

Background: Coffee quality is strongly influenced by origin-related factors, or terroir, which shape chemical composition and sensory characteristics. In the specialty coffee sector, where authenticity, traceability, and flavour distinctiveness drive value, understanding the molecular basis of sensory attributes, particularly perceived intensity, is essential. Methods: This study combined analytical chemistry and explainable artificial intelligence to explore relationships between volatile composition, coffee origin, and sensory intensity. Roasted and ground single-origin coffees from five provenances were analysed using headspace solid-phase microextraction coupled with gas chromatography–mass spectrometry (HS-SPME/GC–MS). A Support Vector Machine (SVM) classifier discriminated coffee origins based on volatile profile, and SHapley Additive exPlanations (SHAP) identified key compounds. Ridge Regression (RR) was applied to predict sensory intensity values assigned by an expert panel. Results: The SVM model classified coffee origins with 91% accuracy, and SHAP analysis highlighted the volatiles most responsible for differentiation. RR predicted sensory intensity with R² = 0.88 and RMSE = 0.38, linking molecular profiles with panel-assigned intensity scores. Conclusions: This approach connects molecular profile with packaging-declared aroma intensity, offering an indirect yet informative link to sensory perception and illustrating the potential of data-driven methods in sensory science. Overall, the proposed explainable AI approach provides a transparent and reproducible connection between chemical composition, sensory traits, and perceived quality. This strategy supports more objective and traceable quality assessment systems, aligning analytical precision with sensory expertise, which is an essential step toward the evolution of quality control in industrial applications. Full article

This study comparatively assessed the quality of organically and commercially produced turkey meat roasted to internal temperatures of 72 ± 2 °C, 80 ± 2 °C, and 88 ± 2 °C. The evaluation encompassed physical characteristics (pH, WHC, and colour), nutritional value (protein, ash, dry matter, fat and fatty acid profile and caloric value), and sensory characteristics. Thermal processing caused significant differences in the properties of the meat depending on the production system. After thermal processing, organic meat had a more favourable lipid profile (higher MUFA, PUFA and n-3 PUFA content and lower SFA content) compared to conventional meat, which indicates its potential nutritional advantage. The most favourable technological and sensory parameters, in this system, were obtained at an internal temperature of 80 ± 2 °C, while an increase to 88 ± 2 °C resulted in a deterioration in tenderness and juiciness. In commercially farmed meat, the best tenderness was found at 72 ± 2 °C and the highest aroma and flavour ratings at 80 ± 2 °C. The use of a temperature of 88 ± 2 °C led to an increase in cutting force, greater loss and reduced sensory quality. The results indicate the validity of differentiating the heat treatment parameters depending on the origin of the raw material. Full article

Background/Objectives Foods for special medical purposes are an important component of nutritional management in patients at risk of malnutrition or already affected by it. The aim of the study was to evaluate the sensory properties and sensory acceptability of selected powdered foods for special medical purposes (FSMPs) from a single manufacturer with different flavour variants using quantitative descriptive analysis. Methods: The study was conducted under laboratory conditions in accordance with the PN-EN ISO 8589:2010 standard. A semi-trained panel of 49 participants took part in the sensory evaluation. Five powdered FSMP products with comparable nutritional composition and different flavour variants were analyzed. Quantitative descriptive analysis (QDA) was applied using a 10-point rating scale, along with a ranking method to assess consumer preferences. Statistical analysis was performed using Welch’s one-way analysis of variance followed by post hoc tests, with the level of significance set at p < 0.05. Results: Statistically significant differences were observed between the analyzed variants for most of the assessed sensory attributes. Preparations with white chocolate and raspberry, strawberry, and vanilla flavours showed the highest sensory acceptability, characterized by a harmonious taste, creamy texture, and low intensity of undesirable sensory attributes. The neutral variant received the lowest overall ratings. The coffee-flavoured product was distinguished by a high aroma intensity but also by a greater intensity of attributes negatively affecting sensory acceptability. Conclusions: The findings indicate that flavour plays a significant role in determining the sensory acceptability of FSMP products. Considering sensory characteristics in the development and selection of FSMP preparations may increase their consumption and enhance the effectiveness of nutritional interventions in clinical practice. Full article

This study examined the effects of varying enzymatic pretreatment durations (0–80 min) of wheat gluten on flavour characteristics of high-moisture plant-based extrudates (HMPEs). Through a comprehensive analysis involving sensory evaluation, electronic tongue, free amino acid (FAA) profiling, electronic nose, and headspace solid-phase microextraction-gas chromatography-mass spectrometer (HS-SPME-GC-MS) analysis of volatile odour compounds, it was found that HMPEs with moderate enzymatic pretreatment (40 min) achieved the highest overall sensory score. Electronic tongue and FAA results confirmed a significant enhancement in umami and sweetness, while electronic nose effectively discriminated differences in odour profiles. Extending pretreatment durations gradually reduced beany off-flavours substances (hexanal reduced by up to 174.7 μg/kg) and encouraged the formation of meaty aroma compounds (furans and pyrazines). However, excessive pretreatment (>40 min) reduced acceptance due to burnt odour caused by the excessive accumulation of pyrazines, particularly 2,3-diethyl-5-methylpyrazine. Six key volatile odour compounds were identified by integrating the analysis of variable importance projection (VIP ≥ 1) and relative odour activity value (ROAV ≥ 1), offering a foundation for targeted flavour regulation in HMPEs. Full article

Mentha are historically important regarding their volatile oils. Since limited accounts exist for Australian species, we document the variation in volatiles across all Australian Mentha species, using the GC/MS of pentane extractions from leaf samples of replicate populations for all known species. Oil yields were consistently poor (<0.2% w/w) for freshly dried and herbarium specimens. Many species uniformly had high percentages of volatiles characteristically attributed to Mentha (viz. Menthone, Pulegone); yet, others—consistently or variably—lacked them. Mentha australis had the highest concentrations of menthone (25%), isomenthone, (9%) and pulegone (24%), and M. diemenica had menthone (32.5%) and pulegone (29.8%). Extracts from M. grandiflora from herbarium specimens produced weak traces, high in menthone and pulegone. Mentha satureioides had the highest menthone (20–30%) and pulegone (22–28%) in populations across the extent of its range; yet, an entirely different chemotype was identified from eastern New South Wales that contained limonene (17%), 1,8-cineole (19%), and α-terpineol (8%). Mentha laxiflora consistently exhibited limonene (27%); yet, the levels of the other main components (e.g., menthone, β-pinene, germacrene-D, and bicyclogermacrene) varied across populations. Mentha atrolilacina exhibited the most unique oil profile, with main components consisting of linalool (21%), β-caryophyllene (14%), germacrene-D (14%), and bicyclogermacrene (23.7%). Commercial samples of M. satureioides were found only to be the chemotype high in limonene (17%) and 1,8-cineole, which warrants further taxonomic research and caution for the industry seeking mint flavours from Australian sources. Full article

This study investigated the aroma characteristics of three grades of raw tea leaves and their corresponding jasmine tea products from Guangxi, China. Aromatic profiles of jasmine tea varieties were analysed using two-dimensional gas chromatography-olfactory-mass spectrometry (GC×GC-O-MS), stir bar sorptive extraction (SBSE), and descriptive sensory evaluation. Chemometric methods were applied to compare sensory scores with instrumental data. Volatile compound concentrations and relative odour activity values (r-OAVs) were calculated. The results indicated significant differences in base tea leaf quality: high-grade tea leaf G1 exhibited pure, sweet characteristics, serving as an excellent aroma-absorbing carrier. The scenting process significantly imparted jasmine fragrance to the finished product, although its efficacy was constrained by tea leaf grade. GH1 finished tea exhibited a fresh, vibrant, and rich aroma with a sweet, mellow fragrance and high floral integration. In contrast, GH3, due to its inferior base material quality, yielded a weak aroma after scenting with limited quality improvement. The initial quality of the tea base is the fundamental determinant of the upper limit of the finished jasmine tea’s sensory quality, while the scenting process is the core means of shaping its signature floral aroma. The combination of high-quality tea leaves and precise scenting techniques is essential for developing the fresh, vibrant, and rich flavour profile of premium jasmine tea. This study reveals that the flavour formation of jasmine tea originates from the foundational quality of the tea leaves, providing a theoretical basis for monitoring the aroma quality of jasmine tea produced from different grades of tea leaves. Full article

This study involved developing a novel lemon flower-scented white tea (LT) through multiple aroma-imparting cycles, and taking an integrated approach to investigating its flavour formation mechanism. Sensory evaluation and electronic tongue analysis revealed that the LT exhibited more balanced taste characteristics, with significantly reduced bitterness and astringency, attributed to the decreased caffeine content and conversion of esterified catechins. Electronic nose and HS-SPME/GC-MS results confirmed that the LT had acquired a distinctive aroma characterised by floral and citrus notes, primarily originating from lemon flower volatiles such as methyl anthranilate and limonene. Multivariate statistical analysis identified 32 key differential compounds (variable importance in projection value > 1), with methyl anthranilate, β-ionone, and geraniol (relative odour activity value > 80) jointly forming the shared flavour base among teas. These findings demonstrate that lemon flower infusion can effectively enhance the sensory quality of white tea and provide theoretical support for the development of diverse floral teas. Full article

Sheep’s meat production and quality are influenced by genetic and physiological factors that affect muscle development, growth, and fat deposition metabolism. However, the breed-specific transcriptional landscapes driving these traits in Indian sheep breeds, especially in Nellore (meat-type) and Deccani (wool-meat type) breeds are remain unexplored. Therefore, this study aimed to investigate the differences in muscle growth and fat deposition between Nellore and Deccani breeds by integrating transcriptomic profiling, carcass characteristics, and histological analysis of longissimus dorsi muscle and liver tissues. Carcass assessment revealed higher Hot Carcass Weight (HCW), Cold Carcass Weight (CCW), Hot Carcass Yield (HCY) and Cold Carcass Yield (CCY), and larger myofibrillar cross-sectional area (p < 0.05), indicating enhanced musculature, which was observed in Nellore. Deccani showed elevated Intramuscular Fat (IMF) deposition (p < 0.05), indicating improved meat flavour/juiciness. Transcriptomic profiling revealed several Differentially Expressed Genes (DEGs) associated with meat quality and quantity traits. In Nellore, the genes WFIKKN2, FGFRL1, FKBP4, and IRF1 were upregulated, while the gene TAS1R2 was downregulated, leading to enhanced muscle development, superior carcass traits, thermotolerance, and immunity. While Deccani showed higher expression of lipid metabolism genes PLA2G4F, ACSL1, ACOX1, CPT1A, and PLIN1, which are linked to higher IMF content. Functional enrichment analysis revealed 46 significantly enriched GO terms for the DEGs (p < 0.05), including oxidoreductase activity, muscle development, etc. These outcomes demonstrate novel genetic markers and key biological insights into the regulation of muscle development, thermotolerance, immunity, and IMF for future validation in Indian sheep breeds. Full article

Excessive sodium intake is a major public health concern, and bread is one of the main dietary sources of sodium chloride. This study evaluated the potential of inactive yeast flakes as a functional ingredient for the partial replacement of sodium chloride in bread formulations. Bread samples with reduced salt and increasing levels of yeast flakes were analysed in terms of physicochemical properties, texture profile, colour, crumb structure, and sensory characteristics. The substitution of NaCl with yeast flakes significantly influenced bread quality. A reduction in crumb porosity, water activity, and springiness, as well as an increase in hardness and acidity, were observed. Colour analysis revealed crumbs with higher redness (a*) and yellowness (b*). Colour changes were confirmed by total colour difference values. Sensory evaluation showed a decrease in saltiness compared to the control sample, however, bread containing a moderate level of yeast flakes maintained acceptable sensory quality and flavour perception. Correlation analysis demonstrated strong relationships between selected instrumental and sensory parameters, particularly for colour, hardness, springiness, and porosity, confirming the consistency of both evaluation approaches. The results indicate that yeast flakes may represent a promising, naturally derived alternative for partial sodium chloride reduction in bread. Full article

The Dartmoor Estate Tea plantation in Devon, UK, benefits from a unique microclimate and diverse soil conditions, which, together with its different processing methods, contribute to the distinctive flavours and chemical profiles of its teas. Objectives: The chemical diversity of Dartmoor tea was assessed via samples collected during processing of green and black tea. Methods: Leaf samples were collected during the processing of green and black tea and analysed using Flow Infusion Electrospray Ionisation Mass Spectrometry (FIE-MS). Results: For green tea processing, random forest regression identified features associated with the processing steps, resulting in a total of 272 m/z explanatory features. The analysis of black tea processing (4 h and overnight oxidation prior to roasting) yielded 209 discriminatory m/z features (4 h) and the model for the overnight oxidation and roasting treatments yielded 605 discriminatory m/z features. K-means clustering was performed on the percentage of relative abundance of the discriminatory m/z features. This grouped the discriminatory m/z features into 15 clusters of features showing similar trends across the processing stages. Functional and structural enrichment analysis was performed on each of the clusters and significant metabolic pathways included metabolism and biosynthesis of flavonoids, amino acids and lipids, the Pentose phosphate pathway, and the TCA cycle. Many discriminatory features were putatively classified as catechin-derived flavan-3-ols and flavonol glycosides. Conclusions: This research highlights the complex role that processing plays in shaping tea quality. It provides valuable insights into the metabolic pathways that influence tea production and emphasises how these factors determine the final chemical profile and sensory characteristics of tea. Full article

The increasing trend in the consumption of milk and dairy products, as well as meat and meat-derived products, may be one of the factors contributing to the growing popularity of cheese-added frankfurters, which combine these two product categories. The aim of this study was to compare the textural, colour, and sensory properties of commercially available cheese-containing frankfurters using instrumental measurements and descriptive sensory analysis. The study focused on ready-to-eat products with naturally varying formulations to identify measurable differences in quality attributes and explore potential associations between composition and product characteristics. Instrumental methods were applied, including texture profile analysis (TPA), the Warner–Bratzler shear force test (WBSF), and CIE L*a*b* colour measurement, along with quantitative descriptive analysis. The results confirmed significant differences between the samples in terms of texture and flavour. Notably, Sample B showed the highest shear force (2.91 N), while Sample C exhibited the lowest (1.82 N). Samples A and D, both containing 12% processed cheddar cheese, had the highest b* values (30.1 and 22.4, respectively), which corresponded to their more intense yellow colour and higher scores for cheese flavour. The addition of cheese had a beneficial effect on product acceptability; however, the final outcome depended on the form and amount of cheese, as well as other ingredients. These findings suggest that cheese may serve as a valuable additive to homogenised meat products, enhancing sensory appeal without compromising technological quality. Future studies will compare different cheese types and concentrations and include consumer testing on a larger sample. Full article

Fusion cuisine blends ingredients, cooking techniques, and flavours from different cultures, yet little is known about how it is perceived within the context of gastrodiplomacy. This study explores perceptions of fusion cuisine at a multicultural gastrodiplomacy event held in Kosovo, where the participants first sampled Turkish–Kosovar fusion dishes during tasting sessions and subsequently completed an online questionnaire designed to assess their experience. In this event, participants attended structured tasting activities in Prizren and Pristina, where they sampled dishes combining elements of both culinary traditions, and then completed an online structured questionnaire consisting of 5-point Likert-type items evaluating their fusion cuisine preferences. The study was conducted in Kosovo as part of a unilateral gastrodiplomatic initiative. A total of 451 participants responded to an online questionnaire, which included fusion cuisine preference scores and metaphorical descriptions of their culinary experiences. A key contextual characteristic of this study is that data were collected exclusively during a fusion cuisine event held in Kosovo, with participation from a multinational audience who attended the event. Therefore, the sample reflects diverse cultural backgrounds within a single-location setting. The results indicate that younger, highly educated, and higher-income participants exhibited significantly greater openness to culinary diversity. These findings advance the state of knowledge by demonstrating that public reception of gastrodiplomacy is stratified by socioeconomic factors rather than defined solely by national background. Practically, this implies that effective fusion-based diplomacy requires targeted strategies to bridge demographic gaps and ensure broader social inclusivity, rather than relying on a one-size-fits-all approach. Full article