Search Results (1,052)

Mead is a fermented alcoholic beverage obtained through a diluted honey solution and the action of yeasts. Although a potentially probiotic mead obtained by mixed fermentation of Saccharomyces cerevisiae var. boulardii with kombucha has already been proposed in the scientific literature, aspects regarding the shelf life and sensory properties of this product must be evaluated in order to provide further knowledge for its potential market introduction. The present study aimed to evaluate the shelf life and sensory profile of potentially probiotic mead produced by mixed fermentation of S. boulardii and kombucha. The main results showed that the microorganisms in the mead exhibited fermentative metabolic activity, albeit reduced, under refrigerated storage conditions, with a decrease in soluble solids and an increase in alcohol content observed during storage. Mead with S. boulardii and kombucha maintained microbial viability above 6 log CFU/mL for both yeasts and lactic acid bacteria up to 60 days of storage, meeting the minimum recommended count for probiotic foods. For the sensory analysis, mead with S. boulardii and kombucha showed higher acceptance and purchase intention, being characterized by sensory attributes such as carbonated, effervescent, flavorful, honey taste, sweeter, refreshing, and less alcoholic. In conclusion, potentially probiotic mead produced with S. boulardii and kombucha presents a shelf life of 60 days and high sensory acceptability. Full article

The sustainable valorisation of agro-industrial by-products offers a promising pathway to address global protein demand while supporting circular food systems. This study explored the biotechnological potential of pumpkin (Cucurbita pepo), sunflower (Helianthus annuus), and walnut (Juglans regia L.) oilseed cakes as substrates for developing vegan yoghurt-like fermented beverages. Each formulation was fermented with Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus, and comprehensively evaluated for composition, functionality, sensory properties, and bioactivity. The oilseed-based beverages exhibited protein levels between 3.7–4.6%, fibre content up to 1.9%, and reduced syneresis (14–18%) compared with the commercial almond-based product (21.5%). The walnut-based variant (WOCY) showed the highest total polyphenol content (1108.97 mg GAE kg⁻¹) and antioxidant activity (412.54 mg Trolox kg⁻¹ DPPH; 51.5 mg TE g⁻¹ DW ABTS), surpassing both the almond-based vegan yoghurt (238.82 mg GAE kg⁻¹) and dairy reference (96.10 mg GAE kg⁻¹). Preliminary sensory profiling through the Check-All-That-Apply (CATA) method indicated that pumpkin- and walnut-based samples were most associated with “creamy texture,” “nutty aroma,” and “very pleasant” descriptors, achieving acceptance comparable to or higher than conventional yoghurts. Microbiological analyses confirmed product safety and high viable cell counts (<10⁸ CFU mL⁻¹) after 14 days of storage. Oilseed cakes serve as efficient substrates for producing nutrient-dense, antioxidant-rich, and sensorially appealing plant-based fermented beverages, supporting functional food innovation and promoting circular bioeconomy through the sustainable valorisation of agro-industrial by-products. Full article

This review examines the nutritional and functional potential of Acheta domesticus, the impact of fermentation on its biochemical and microbiological properties, and its application in food ingredients and products. Relevant literature was reviewed on the composition, fermentation behavior, product development, and consumer perceptions related to cricket-based ingredients, with a focus on fermented applications and microbiota interaction. Fermentation improves the safety, digestibility, flavor, and nutritional value of cricket powder. Lactic acid bacteria (e.g., Lactiplantibacillus plantarum and Latilactobacillus curvatus) enhanced substrate acidification, reduced biogenic amines and acrylamide levels, and contributed to desirable volatile compounds production. Additionally, fermentation using yeasts like Yarrowia lipolytica and Debaryomyces hansenii resulted in the production of antimicrobial substances, reduction in chitin, and an increase in the matrix digestibility. Fermented cricket-based ingredients have been successfully applied to bread, biscuits, yogurt, and beverages. Protein hydrolysates produced by fermentation exhibited antioxidant, anti-aging, and preservative properties, expanding potential beyond food. Consumer acceptance was highest when insects were integrated into familiar and visually unobtrusive food formats. To conclude, A. domesticus shows great promise as a sustainable and functional food ingredient. Fermentation offers a key strategy to overcome safety, sensory, and acceptability barriers. Full article

Esters are predominant fragrance components in various traditional fermented foods. Hongqu rice wine, a beverage gaining popularity among young consumers in China, largely owes its aromatic profile to esterases derived from Monascus species. However, research on esterification characteristics of Monascus strains remains limited, constraining efforts to improve the quality and flavor of Hongqu rice wine. To better understand their esterification characteristics of commercial Monascus strains from different regions of China and further develop a high-quality esterifying Monascus strain for the liquor industry, we identified five Monascus isolates from red koji samples used in rice wine fermentation. Their esterification activity was evaluated by preparing red koji through solid-state fermentation of wheat bran under conditions simulating industrial production. Among the isolates, M. purpureus M21 exhibited the highest reported esterification activity to date, reaching 88.5 ± 8.6 U. Through atmospheric and room-temperature plasma (ARTP) mutagenesis breeding, the esterification activity of M. purpureus M21 was further enhanced by 41% to 124.8 U. In summary, this study not only figures out the properties of commercial esterifying Monascus from diverse regional sources but also significantly enhances the esterification performance of a potent esterifying Monascus strain without invoking GMO controversies. This high-performance esterifying Monascus strain presents a promising fermentation starter to enhance the flavor profile of Hongqu rice wine and diverse fermented beverages, thereby meeting evolving consumer preferences. Full article

The projected increase in the global probiotics market is driven by growing consumer awareness of gut health and the potential benefits of microbial supplements. However, the market currently exhibits a significant gap in probiotic yeast options, with Saccharomyces boulardii being the predominant probiotic yeast available. This limitation restricts diversity and potential tailored applications of alternative probiotic yeast strains. Pichia, a genus of yeast, has emerged as a promising candidate. This review explores the safety profile and probiotic attributes of Pichia strains, which collectively highlight its potential as an effective probiotic yeast. Evidence indicates that Pichia exhibits beneficial characteristics such as resilience in harsh gastrointestinal (GI) conditions, antimicrobial activity against pathogens, and immunomodulatory effects that could contribute to gut health. Additionally, the non-pathogenic nature of Pichia and its history of safe and wide use in food and beverage fermentation processes increases confidence in its safety for human consumption. Given its potential, Pichia may diversify the probiotic yeast market and present an alternative beneficial organism that may contribute to general health and well-being. Full article

In the context of natural beverages used for human nutrition, our study explored the potential of Myrcianthes hallii leaves (rich in bioactive compounds) as a raw material for the production of non-traditional craft beer. We hypothesized that the phenological stage affects essential oil yield and bioactivity, which in turn influences the functional properties of fortified beer. In our case, M. hallii leaves collected during the flowering stage yielded the highest amount of essential oil (0.5 v/m/%) and exhibited the greatest concentrations of total phenolics (7.7149 ± 0.02143 mg GAE/mL) and flavonoids (1.6531 ± 0.03355 mg QE/mL), correlating with increased antioxidant capacity. These findings suggest this stage as the most suitable period for harvesting M. hallii leaves for nutraceutical and pharmaceutical applications. This non-traditional beer demonstrated notable antioxidant activity, and sensory analysis revealed high acceptance regarding aroma, taste, and color, supporting its potential as a functional beverage. Full article

Background/Objectives: Traditional kombucha is produced by fermenting a sweetened infusion of Camellia sinensis leaves with a symbiotic consortium of bacteria and yeasts (SCOBY). The growing interest in this beverage has driven the exploration of alternative substrates, including a wide range of plant-based raw materials, such as leaves, fruits, flowers, and seeds. Consequently, numerous products are being investigated for their differential properties, not only organoleptic but also nutritional and bioactive. This review aims to summarize recent advances in alternative kombucha research, focusing on the substrates used, their physicochemical and biochemical characteristics, and the biological activities studied. Methods: A comprehensive literature search was conducted to select articles related to alternative kombuchas. A critical analysis of their current state was carried out through the Strengths, Weaknesses, Opportunities, and Threats (SWOT) methodology. Results: The SWOT analysis led to the identification of strengths, including promising in vitro results and growing consumer interest; weaknesses, including a lack of animal studies, clinical trials, and approved health claims, and an excessive focus on antioxidant activity and phenolic compounds; opportunities, including substrate diversity, innovation, and consumer education; and threats, including elaboration risks, misinformation, competitors, and potential consumer rejection. Conclusions: Despite the promising results achieved to date, it is essential that the scientific community and the food industry continue efforts to generate robust evidence, particularly through clinical validation, in order to draw reliable conclusions regarding the benefits of alternative kombuchas for human health. Full article

Ageing is often accompanied by gut microbiota alterations that contribute to dysbiosis—a recognised hallmark of ageing and a risk factor for neurodegenerative diseases. Probiotic interventions offer a promising approach to restore microbial homeostasis. This preliminary study explored the potential modulatory effects of Malaysian kefir water, a Lactobacillus-enriched fermented beverage with previously reported antioxidant and neuroprotective properties in D-galactose-induced ageing mice. Kefir water was administered as both a pre-treatment and co-treatment, and gut microbiota changes were assessed using 16S rRNA metagenomic sequencing of faecal samples. Alpha and beta diversity analyses showed a stable microbial diversity across treatments. However, preliminary descriptive trends suggested that kefir water may influence specific bacterial populations. Increases were observed in Muribaculaceae and Lactobacillaceae, along with apparent decreases in Lachnospiraceae and Prevotellaceae. Both kefir treatments tended to increase the abundance of Ligilactobacillus, with the co-treatment group appearing to restore the Firmicutes/Bacteroidota ratio toward control levels, while the pre-treatment group showed a tendency to further reduce this ratio. Collectively, these findings provide preliminary indications that kefir water may hold potential as a dietary approach to modulate gut microbial changes associated with ageing. However, confirmation through studies with larger sample sizes and broader analytical coverage is necessary to substantiate these initial observations. Full article

Background/Objectives: Type 2 diabetes mellitus (T2DM) represents a growing public health burden in the European Union (EU), largely driven by modifiable lifestyle factors such as diet. This systematic review aimed to synthesize observational evidence on the associations between nutritional exposures and incident T2DM across the EU-28, with a focus on regional heterogeneity and implications for EU-level nutrition policy. Methods: The review followed PRISMA 2020 guidelines and was registered in PROSPERO (CRD42020219994). Searches were conducted in different databases (PubMed, Embase, Scopus, Web of Science) identifying 23,437 records, from which 104 observational studies were included. Eligible studies involved adults (≥18 years) without T2DM at baseline and assessed dietary exposures in relation to T2DM incidence. Data extraction and methodological quality assessment were performed in duplicate using the NHLBI tool in Covidence. Results: Most included studies were cohort studies (77.9%), primarily conducted in Western, Northern, and Southern Europe. Diets characterized by high consumption of whole and minimally processed foods, such as fruits, vegetables, legumes, whole grains, and fermented dairy, consistently showed associations with lower T2DM risk. In contrast, high intake of red and processed meats, sugar-sweetened beverages, and ultra-processed foods was linked to higher risk. Adherence to Mediterranean or plant-based dietary patterns was associated with lower risk, whereas high animal-protein dietary patterns were detrimental. Conclusions: Nutritional determinants play a decisive role in shaping T2DM risk in the EU. Evidence supports prioritizing dietary patterns rich in plant-based and minimally processed foods while reducing ultra-processed and meat-based products. Tailored region-specific policies are needed to address the T2DM epidemic and guide effective prevention strategies. Full article

Smoothies and kombucha are beverages appreciated by contemporary consumers due to their appealing flavor, convenience, and perceived health benefits. This study aimed to develop fruit- and white tea-based smoothies with high sensory and functional quality, and to evaluate the effects of fermentation with kombucha microorganisms. The smoothie base (70%) was composed of 60% strawberry pulp and 40% cryoconcentrated apple juice. Ten formulations were designed using a centroid simplex approach and subjected to sensory analysis. The two most accepted by consumers (E5: 15% blackberry pulp and 15% white tea; E10: 5% blackberry pulp and 5% acerola pulp, and 20% white tea) were fermented for 10, 15, and 20 h. The formulations were evaluated through sensory analysis. Fermentation led to significant (p < 0.05) reductions in glucose, fructose, and caffeine contents, while significantly (p < 0.05) increasing acidity, total phenolic content, ascorbic acid levels, and color intensity. Moreover, the fermented smoothie exhibited higher α-glucosidase inhibitory potential. One fermented smoothie (E5 fermented for 15 h) showed desirable sensory and functional properties. Therefore, this study demonstrates the successful development of smoothies, fermented or non-fermented with kombucha microorganisms, characterized by strong functional attributes and high sensory acceptance. Full article

Wine is one of the oldest alcoholic beverages, produced from the fermentation of the grape Vitis vinifera. Currently, the wine industry is exploited worldwide in multiple regions, generating significant amounts of agro-industrial waste at different stages of the production chain. These wastes represent a source of environmental contamination due to the toxic nature of some of their compounds. From a biotechnological perspective, the by-products of the wine industry are an attractive source of bioactive compounds with potential applications in various fields, including food, pharmaceuticals, and cosmetics. The extraction of these compounds can be carried out using fermentation techniques that utilize microorganisms to facilitate the release and biotransformation of the desired metabolites through their enzymatic tools. This work provides a review of the history of the wine industry and its current activities, describes the wine production process, and outlines the waste generated during this process. The fermentation process is described as a biotechnological alternative for the valorization of these residues. This purpose enables their reintegration into the production chain through the extraction of high-value bioactive compounds with potential use as drugs in pharmacology. Full article

Background: Qu was the core starter of traditional Chinese fermentation and had long relied on artisan experience, which led to limited batch stability and standardization. This review organized the preparation processes, microbial diversity, and application patterns of qu in foods from experience to science perspective. Methods: This work summarized typical process parameters for daqu, xiaoqu, hongqu, wheat bran or jiangqu, douchi qu, and qu for mold curd blocks used for furu. Parameters covered raw material moisture, bed thickness, aeration or turning, drying, final moisture, and classification by peak temperature. Multi-omics evidence was used to analyze the coupling of temperature regime, community assembly, and functional differentiation. Indicators for pigment or enzyme production efficiency and safety control such as citrinin in hongqu were included. Results: Daqu showed low, medium, and high temperature regimes. Thermal history governed differences in communities and enzyme profiles and determined downstream fermentation fitness. Xiaoqu rapidly established a three-stage symbiotic network of Rhizopus, Saccharomyces, and lactic acid bacteria, which supported integrated saccharification and alcohol fermentation. Hongqu centered on Monascus and achieved coordinated pigment and aroma formation with toxin risk control through programmed control of temperature, humidity, and final moisture. Wheat bran or jiangqu served as an enzyme production engine for salt-tolerant fermentation, and the combined effects of heat and humidity during the qu period, aeration, and bed loading determined hydrolysis efficiency in salt. Douchi and furu mold curd blocks used thin-layer cultivation and near-saturated humidity to achieve stable mold growth and reproducible interfacial moisture. Conclusions: Parameterizing and online monitoring of key variables in qu making built a process fingerprint with peak temperature, heating rate, and moisture rebound curve at its core. Standardization and functional customization guided by temperature regime, community, and function were the key path for the transition of qu from workshop practice to industry and from experience to science. This approach provided replicable solutions for flavor consistency and safety in alcoholic beverages, sauces, vinegars, and soybean products. Full article

This study explores the development of functional fermented beverages using fibre-rich residues derived from olive pruning, vineyard pruning, chicory root, and red onion, obtained after subcritical water extraction of polyphenols. Two microbial strains, Lactiplantibacillus plantarum and Bacillus subtilis, were evaluated for their fermentation performance across different fibre matrices, with and without sugar supplementation. Key parameters including microbial growth, pH evolution, and reducing sugar content were monitored, and Lactiplantibacillus plantarum showed superior acidification and viability (>9 log CFU/mL), especially in sugar-enriched formulations, while Bacillus subtilis showed a limited performance. Based on fermentation efficiency, three sugar-supplemented formulations were selected to scale-up: olive pruning fibre and vineyard pruning fibre fermented with Lactiplantibacillus plantarum and olive pruning fibre fermented with Bacillus subtilis. Red onion fibre extract was excluded from scale-up experiments due to its high viscosity, which made it impossible to measure reducing sugars, consistent with its high water-holding capacity. Fermentation significantly increased antioxidant capacity, reaching up to 750 µmol Trolox equivalents/L and 18 mg of gallic acid equivalents/L in L. plantarum-fermented samples, confirming microbial release of bound phenolics and formation of bioactive metabolites. The resulting beverages were microbiologically stable (final pH < 4.5), sensorially acceptable, and potentially antioxidant-rich, supporting their role in sustainable food system development and circular bioeconomy. Full article

Serotonin (5-hydroxytryptamine) is a key neurotransmitter involved in gastrointestinal and central nervous system functions. Given that approximately 90% of serotonin is synthesized in the gut, dietary interventions targeting the gut microbiota have emerged as promising strategies to modulate serotonin homeostasis. Kefir, a fermented milk beverage rich in probiotics and bioactive compounds, has been suggested to influence gut–brain axis signaling, yet its effects in the pediatric period remain insufficiently characterized. This study aimed to investigate the impact of kefir supplementation on serotonin biosynthesis, receptor expression, and metabolic pathways in a pediatric rat model, focusing on molecular markers across brain, jejunum, and serum tissues. Sixteen male Wistar rats (four weeks old) were divided into kefir and control groups. The kefir group received daily oral gavage of kefir (1 mL/100 g) for eight weeks, while controls received saline. Gene and protein expression levels of serotonergic markers (5-HT, TPH1, TPH2, SLC6A4, VMAT2, 5-HTR2B, 5-HTR3A, and 5-HTR4) were analyzed using quantitative PCR, ELISA, and Western blotting. Serotonin turnover was assessed via 5-HIAA levels. Kefir supplementation significantly increased 5-HT and TPH1 expression in both brain and jejunum tissues. In the brain, kefir elevated TPH2 and upregulated 5-HTR3A and 5-HTR2B, while reducing 5-HIAA levels, suggesting decreased serotonin degradation. In the jejunum, 5-HTR4 expression was markedly increased. Serum analyses revealed reduced TPH1/TPH2 expression but elevated 5-HTR4 levels, indicating systemic modulation of serotonergic signaling. Kefir exerts multifaceted effects on the serotonergic system in pediatric rats by enhancing serotonin biosynthesis, modulating receptor expression, and reducing serotonin turnover. These findings highlight kefir as a potential psychobiotic capable of influencing the gut–brain axis during early life, with implications for pediatric neurodevelopment and mental health. Further research, including clinical trials, is warranted to confirm its translational potential. Full article