Physical Characterization of a Novel Carrot Juice Whey-Enriched Beverage Fermented with Milk or Water Kefir Starter Cultures.

The purpose of this work was to evaluate the selected physicochemical, rheological, and sensory properties of a new whey-enriched carrot juice beverage (carrot juice: whey ratios of 100:0; 95:5; 85:15; 75:25; 65:35) fermented with milk or water kefir starter cultures over a storage period of 21 days (at 4 ± 1 °C). In general, for all tested samples, the values of total soluble solids, pH, and density decreased with increasing storage time. In contrast, the values of ethanol, degree of fermentation, and total dissolved solids increased with the prolongation of the storage time. Furthermore, it was found that all the model samples exhibited pseudoplastic behavior. Based on the sensory analysis performed, samples containing 25% (w/w) whey were evaluated as the most acceptable. Last but not least, the present study can serve as a basis for optimizing the manufacturing technology of a novel fermented vegetable beverage enriched with whey.

Association between Intake of Fermented Dairy Product and Diet Quality, Health Beliefs in a Representative Sample of Polish Population.

This study aimed to evaluate the association of diet quality and perception of consumption benefits with intake of fermented dairy products in a representative sample of the Polish population. The study was carried out in February 2020 and involved 2009 men and women randomly sampled from the representative Polish population stratified into two age groups (19-30 and 66-75 years). Dairy product intake was evaluated using a qualitative food frequency questionnaire. Diet quality was assessed by calculating the Mediterranean Diet Adherence Screener (MEDAS) score. The perceived health benefit of dairy product consumption was assessed by a literature-based questionnaire. The Health Concern Scale was used to measure participants' attitudes toward health. The median intake of fermented dairy products was 0.8 portion/day (IQR: 0.4-1.6). Intake of fermented dairy products was associated with a higher MEDAS score. We observed that people with the highest intake of fermented dairy products consumed more oils, vegetables, wine, legumes, fish and seafood, sweets and pastries, nuts, had a higher preference for white meat and were more likely to report their perceived benefits to maintain body weight, reduce cardiovascular risk, and improve immune and dental health. Moreover, a high intake of fermented dairy products was positively related to paying more attention to health. Our study identified patterns of health behaviors associated with the frequent consumption of fermented dairy products. We observed that the intake of fermented dairy products is associated with better diet quality, consumer self-consciousness, and a greater attitude toward personal health.

Current perspectives on the anti-inflammatory potential of fermented soy foods.

Fermented soy foods (FSF) are gaining significant attention due to promising health benefits. In recent years, FSF are being studied extensively due to the presence of diverse functional ingredients including active isoflavones and peptides along with essential micronutrients. The process of fermentation is responsible for the enrichment of various bioactive principles in soy-based fermented foods and exclusion of some anti-nutrient factors which are found predominantly in raw soybeans. Emerging evidence suggests that FSF possess immense therapeutic potential against inflammation and associated pathological complications. Extracts prepared from various FSF (e.g. fermented soy paste, milk, and sauce) were found to exert promising anti-inflammatory effects in numerous in vitro and in vivo settings. Moreover, clinical findings highlighted an inverse relationship between consumption of FSF and the prevalence of chronic inflammatory disorders among the communities which habitually consume fermented soy products. Molecular mechanisms underlying the anti-inflammatory role of FSF have been delineated in many literatures which collectively suggest that FSF extracts have regulatory actions over the expression and/or activity of several proinflammatory cytokines, inflammatory mediators, oxidative stress markers, and some other factors involved in the inflammatory pathways. The present review discusses the anti-inflammatory effects of FSF with mechanistic insights based upon the available findings from cell culture, preclinical, and clinical investigations.

"Ethno-microbiology" of ethnic Indian fermented foods and alcoholic beverages.

The concept of "ethno-microbiology" is to understand the indigenous knowledge of the Indian people for production of culturally and organoleptically acceptable fermented foods by natural fermentation. About 1000 types of common, uncommon, rare, exotic and artisan fermented foods and beverages are prepared and consumed in different geographical regions by multi-ethnic communities in India. Indian fermented foods are mostly acidic and some are alkaline, along with various types of alcoholic beverages. A colossal diversity of microorganisms comprising bacteria mostly belongs to phylum Firmicutes, filamentous moulds and enzyme- and alcohol-producing yeasts under phyla Ascomycota and Mucoromycota, and few bacteriophages and archaea have been reported from Indian fermented foods. Some microorganisms associated with fermented foods have functionalities and health promoting benefits. "Ethno-microbiology" of ethnic Indian people has exhibited the proper utilisation of substrates either singly or in combination such as fermented cereal-legume mixture (idli, dosa and dhokla) in South and West India, sticky fermented soybean food (kinema and related foods), fermented perishable leafy vegetable (gundruk and related foods), fermented bamboo shoots (soibum and related foods) and fermented fish (ngari and others) in North East India, and fermented meat and sausage-like products in the Indian Himalayas, fermented coconut beverage (toddy) in coastal regions, and various types of naturally fermented milk products (dahi and related products) in different regions of India. This review has also highlighted the "ethno-microbiology" knowledge of the people involving the consortia of essential microorganisms in traditionally prepared amylolytic starters for production of cereal-based alcoholic beverages. The novelty of this review is the interpretation of ethno-microbiological knowledge innovated by ethnic Indian people on the use of beneficial microorganisms for food fermentation to obtain the desired fermented food products for consumption.

Diversity of beneficial microorganisms and their functionalities in community-specific ethnic fermented foods of the Eastern Himalayas.

The Eastern Himalayan regions of India, Nepal and Bhutan have more than 200 varieties of unsurpassed ethnic fermented foods and alcoholic beverages, which are lesser known outside the world. However, these ethnic foods are region- and community-specific, unique and some are exotic and rare, which include fermented vegetables, bamboo shoots, soybeans, cereals, milk (cow and yak), meats, fishes, and cereal-based alcoholic beverages and drinks. Ethnic communities living in the Eastern Himalayas have invented the indigenous knowledge of utilization of unseen microorganisms present in and around the environment for preservation and fermentation of perishable plant or animal substrates to obtain organoleptically desirable and culturally acceptable ethnic fermented food and alcoholic beverages. Some ethnic fermented products and traditionally prepared dry starters for production of alcoholic beverages of North Eastern states of India and Nepal were scientifically studied and reported till date, and however, limited publications are available on microbiological and nutritional aspects of ethnic fermented foods of Bhutan except on few products. Most of the beneficial microorganisms isolated from some ethnic fermented foods of the EH are listed in microbial food cultures (MFC) safe inventory. This study is aimed to review the updates on the beneficial importance of abundant microbiota and health-promoting benefits and functionalities of some ethnic fermented foods of the Eastern Himalayan regions of North East India, Nepal and Bhutan.

Effects of Bacillus coagulans as an adjunct starter culture on yogurt quality and storage.

Bacillus coagulans has been widely studied for its probiotic properties. Therefore, identifying a strain that can be used as an adjunct starter culture for yogurt production would have commercial value. In this study, 30 B. coagulans strains were isolated from vegetable samples from 11 provinces or autonomous regions in China, and their pan-genomic and phylogenetic characteristics were analyzed. Phylogenetic analysis categorized 30 strains into 4 different subphylotypes, including subtype I (11 isolates), subtype II (7 isolates), subtype III (11 isolates), and subtype IV (1 isolate). Four B. coagulans strains (B. coagulans-70, B. coagulans-78, B. coagulans-79, and B. coagulans-100) were randomly selected from each subphylotype of the phylogenetic tree as adjunct starter cultures. Compared with the other tested strains, B. coagulans-70 showed the highest count in yogurt at the end of the manufacturing period. Comparative genome analysis indicated that the different bacterial levels of B. coagulans strains in yogurt may be associated with the abundance of genes related to carbohydrate transport and metabolism (e.g., sucrose utilization). Finally, differences in texture and volatile flavor compound profiles were observed between the yogurt samples. Compared with the other groups, the addition of B. coagulans-70 exerted a positive effect on the appearance and texture of yogurt products. Volatile analysis showed increased quantities of 2-heptanone, 2-nonanone, amyl alcohol, and 2-hydroxy-3-pentanone in the B. coagulans-70 group compared with control yogurts. These results above combined with the results of a sensory evaluation indicated that B. coagulans-70 is the most suitable strain for further use in functional dairy product development.

Metaproteomics insights into fermented fish and vegetable products and associated microbes.

The interest in proteomic studies of fermented food is increasing; the role of proteins derived from fermentation extends beyond preservation, they also improve the organoleptic, anti-pathogenic, anti-cancer, anti-obesogenic properties, and other health conferring properties of fermented food. Traditional fermentation processes are still in use in certain cultures, but recently, the controlled process is gaining wider acceptance due to consistency and predictability. Scientists use modern biotechnological approaches to evaluate reactions and component yields from fermentation processes. Pieces of literature on fermented fish and vegetable end-products are scanty (compared to milk and meat), even though fish and vegetables are considered health conferring diets with high nutritional contents. Evaluations of peptides from fermented fish and vegetables show they have anti-obesity, anti-oxidative, anti-inflammatory, anti-pathogenic, anti-anti-nutrient, improves digestibility, taste, nutrient content, texture, aroma properties, etc. Despite challenges impeding the wider applications of the metaproteomic analysis of fermented fish and vegetables, their potential benefits cannot be underestimated.

Symbiotic drink based on Brazil nuts (Bertholletia excelsa H.B.K): production, characterization, probiotic viability and sensory acceptance / Bebida simbiótica à base de castanha-do-Brasil (Bertholletia excelsa H.B.K): produção, caracterização, viabilidade probiótica e aceitação sensorial

ABSTRACT: Brazil nut is a typical oilseed from the Amazon region, of great economic and cultural importance. Due to its high nutritional value, it is interesting to be used as a matrix for new products' development. Thus, the present study aimed to develop and characterize a drink based on Brazil nuts fermented by Lactobacillus casei and added with inulin. After formulated, the drink was pasteurized, fermented, maturated, and stored under refrigeration for 28 days. Physical, chemical, microbiological, and sensory analyzes were performed before and after fermentation, at 7-day intervals. There was maintenance in the content of lipids and proteins and reduction in the concentrations of fibers, ash, total carbohydrates, and moisture. The fermented drink pH decreased significantly during storage, while the acidity and the soluble solids content increased from the 14th day. Regarding the color, there were significant changes in all parameters analyzed. In the fermented drink, the development of molds and yeasts, total and thermotolerant coliforms, and Salmonella were not verified, while the control drink deteriorated after 7 days. The probiotic L. casei had count ranging from 9.48 to 8.59 log CFU mL-1 during the 28 days. When exposed to in vitro gastrointestinal conditions, L. casei significantly reduced its concentration. However, it reached the enteric phase with counts greater than 6.00 log UFC mL-1. Sensorially, the drink reached intermediate scores (between 5.41 and 6.02). Therefore, the use of Brazil nuts proved to be viable for the development of a product free of animal-origin components, symbiotic, and of outstanding nutritional quality.

RESUMO: A castanha-do-Brasil é uma oleaginosa típica da região Amazônica, de grande importância econômica e cultural. Devido ao seu alto valor nutritivo, torna-se interessante a sua utilização como matriz para o desenvolvimento de novos produtos. Assim, o presente estudo teve como objetivo o desenvolvimento e caracterização de uma bebida à base de castanha-do-Brasil fermentada por Lactobacillus casei e adicionada de inulina. Após formulada, a bebida foi pasteurizada, fermentada, maturada e armazenada sob refrigeração por 28 dias. Foram realizadas análises físicas, químicas, microbiológicas e sensoriais antes e após a fermentação, em intervalos de sete dias. Observou-se uma manutenção no teor de lipídeos e proteínas e redução nas concentrações de fibras, cinzas, carboidratos totais e umidade. O pH da bebida fermentada reduziu significativamente ao longo do armazenamento, enquanto a acidez e o teor de sólidos solúveis aumentaram a partir do 14° dia. Em relação à cor, houve alterações significativas em todos os parâmetros analisados. Na bebida fermentada, não foi verificado o desenvolvimento de bolores e leveduras, coliformes totais e termotolerantes e Salmonella, enquanto a bebida controle se deteriorou após sete dias. O probiótico L. casei apresentou contagens variando de 9.48 a 8.59 log CFU mL-1 durante os 28 dias de armazenamento. Quando exposto às condições gastrointestinais in vitro, o L. casei diminui a sua concentração significativamente. Contudo, atingiu a fase entérica com contagens superiores a 6.00 log UFC mL-1. Sensorialmente, a bebida alcançou scores intermediários (entre 5.41 e 6.02). Dessa forma, a utilização da castanha-do-Brasil se mostrou viável para o desenvolvimento de um produto isento de componentes de origem animal, simbiótico e de destacável qualidade nutricional.

Spontaneously fermented curly kale juice: Microbiological quality, nutritional composition, antioxidant, and antimicrobial properties.

Nondairy fermented products, such as fruit and vegetable juices, are gaining popularity among consumers worldwide for health-related and economic reasons. The purpose of this study was to determine the changes in microbiological quality; antimicrobial and antioxidant activity; and phenolic, vitamin C, minerals, and cadmium content occurring during spontaneous fermentation of curly kale juice. The fermentation process contributed to a significant growth of lactic acid bacteria, enterococci, and yeasts, while no pathogens of Escherichia coli and Salmonella spp. were observed. The antimicrobial properties of the obtained juice improved during fermentation for all indicator microorganisms. Total phenolic content and antioxidant activity increased from 48 to 116 mg gallic acid equivalent/100 mL and from 4.5 to 6.8 mM Trolox/100 mL, respectively, while the content of vitamin C decreased. The results indicated that 100 mL of juice provided a significant contribution to the recommended mineral intake. Moreover, the content of heavy metal Cd was within acceptable limit (6 µg/kg). Overall, our findings indicate that fermented curly kale juice may become popular in the functional food sector, especially among vegetarians and consumers with lactose intolerance or allergy to milk proteins. PRACTICAL APPLICATION: As the market for fermented fruit and vegetable products grows, new plant materials rich in biologically active compounds are being sought. Considering the high demand for sauerkraut, the fermentation of other cruciferous vegetables seems interesting. One example is curly kale, which has been classified as "superfood" due to its numerous beneficial health properties, such as strong antioxidant activity, high vitamins, and minerals content. In addition, a market niche exists due to a lack of fermented green curly kale products on the market, making our study particularly relevant.

Exopolysaccharides from milk fermented by lactic acid bacteria enhance dietary carotenoid bioavailability in humans in a randomized crossover trial and in rats.

BACKGROUND: Dietary supplementation with carotenoids can have beneficial health effects, but carotenoids are poorly absorbed. OBJECTIVES: We aimed to evaluate how milk fermented by lactic acid bacteria affects dietary carotenoid bioavailability in humans and rats and to investigate mechanisms by which active components in milk fermented by Lactobacilli enhance dietary carotenoid absorption. METHODS: Male rats (n = 8/group) were administered ß-carotene or ß-carotene + fermented milk. Rats (n = 6/group) were also pretreated with ezetimibe, a cholesterol absorption inhibitor, to investigate ß-carotene transport mechanisms. In humans, 3 studies were conducted using a randomized crossover method. Subjects (n = 16/study) consumed a vegetable (carrot, tomato, or spinach) drink alone or with a fermented milk drink. Blood samples were collected at various time points after consumption. RESULTS: In rats, the serum ß-carotene area under the concentration-time curve (AUC) was significantly higher for the ß-carotene + fermented milk than for ß-carotene only. A significant correlation (r = 0.83, P < 0.001) between the exopolysaccharide (EPS) content of fermented milk and serum ß-carotene AUC was observed. Ezetimibe treatment did not suppress elevations in serum ß-carotene concentrations induced by fermented milk ingestion. In humans, the incremental area under the concentration-time curve (iAUC) for ß-carotene in the plasma triacylglycerol-rich lipoprotein (TRL) fraction was significantly (1.8-fold, range: 0.6-3.9) higher when carrot + fermented milk was consumed compared with carrot drink alone. A significantly (6.5-fold, range: 0.04-7.7) higher iAUC for lycopene in the plasma TRL fraction was observed for subjects who consumed tomato + fermented milk compared with tomato drink alone. A significant increase in plasma lutein in all fractions was observed after consumption of spinach + fermented milk, but not with spinach drink alone. CONCLUSIONS: Co-ingestion of ß-carotene and fermented milk significantly increased dietary ß-carotene bioavailability in humans and rats. EPSs could affect the physical properties of fermented milk to enhance dietary ß-carotene absorption mediated by simple diffusion mechanisms. These findings may be relevant for methods to increase dietary carotenoid bioavailability.This trial was registered at umin.ac.jp/ctr as UMIN000034838, UMIN000034839, and UMIN000034840.

Kombucha from alternative raw materials - The review.

Nowadays, people's awareness about the role of diet in maintaining well-being and good health has increased. Consumers expect that the products not only provide them with essential nutrients but will also be a source of biologically active substances, which are beneficial to their health. One of the "healthy trends," which has appeared among the consumers worldwide is kombucha, a tea drink with high antioxidant potential, obtained through the activity of a consortium of acetic acid bacteria and osmophilic yeast, which is also called "tea fungus." Kombucha obtained from tea is characterized by its health-promoting properties. Promising results in in vitro and in vivo studies have prompted research groups from around the world to search for alternative raw materials for tea fungus fermentation. Attempts are made to obtain functional beverages from leaves, herb infusions, vegetable pulp, fruit juices, or milk. This review focuses on describing the progress in obtaining a fermented beverage and bacterial cellulose using tea fungus on alternative raw materials.

[The development and investigation of nutritive and biological value and consumer properties of the fermented dairy product with flour free from glute].

The development of fermented dairy products with complex raw material composition, in particular, including cereal components, but not containing gluten, that most fully meet the criteria for a healthy diet, is actual. The aim - the development of a new multi-component fermented dairy product with flour free from gluten. Material and methods. Milk and fine flour mixture for baby foods (buckwheat, rice, corn and their composition); DVS starter for fermented dairy products were used as the basic raw material components. Active and titratable acidity, mass fraction of protein, fat, microbiological indexes have been measured as well as the block of organoleptic tests has been used. Besides this, amino acids' amount as well as fat acid composition and gluten level (using PCR) have been determined. Results and discussion. A set of requirements to the product has been developed, the studies have been conducted, which made it possible to determine the dosage of the flour mixture of three selected species The total mass fraction of flour in the fermented dairy product with flour didn't exceed 5%.The variation makes it possible to create an assortment of a product with different content of flour and different composition of flour constituent. The typological selection of the starter cultures has been carried out in order to obtain samples with the required organoleptic, particularly, viscous characteristics. The product possessed the typical fermented pleasant taste, odor and aroma with the tone of flour used, and viscous-flow consistency. The starter based on Staphylococcus thermophiles and Lactobacillus bulgaricus has been chosen. The titre of lactic microflora in all samples of the product exceeded the lowest required for fermented dairy products and composed no less 6×107 CFU/cm3. The determination of gluten content proved its absence in all test samples that evidenced about the achievement of the assigned task. The analysis of amino acids composition of the product samples showed that proteins contained essential amino acids from 160 to 210 g/100 g depending on the used flour combinations. It was determined that limiting amino acid of all test samples was isoleucine. The calculated coefficient of utility in the test samples was higher comparing to the fermented milk (control) by 9-12% that indicated an increase in the biological value of the developed product. The finished fermented dairy product with flour contained arachidonic (1.2%) and linoleic (3.0%) acids which relate to ω-6 PUFA in small amounts. Conclusion. The proposed methodological approach to the development of multi-component products consisted in the fact that it was considered as a bio-system, each ingredient of which contributed to its desired set of properties. Using the mentioned approach, strategically, it is possible to combine the components of animal (milk) and vegetable (flour of cereals and groat cultures) origin into the whole food biosystem with the target spectrum of useful properties.

Effects of addition of strawberry juice pre- or postfermentation on physiochemical and sensory properties of fermented goat milk.

Fruit juice addition can influence the physiochemical and sensory properties of fermented milk. Effects of adding strawberry juice (15% vol/vol) pre- or postfermentation on particle size, rheology properties, volatile flavor profile, and microstructure of fermented goat milk were investigated. Samples with juice added prefermentation showed larger reinforcement in particle size, apparent viscosity, and storage and loss moduli than samples with juice added postfermentation. Compared with the control, all samples showed improved fruit aroma and reduced goaty flavor; this effect was more remarkable in samples in which juice was added before fermentation. Fermented goat milk with strawberry juice added prefermentation showed the highest levels of 1-hexanol and 2-hexen-1-ol (26.16 and 22.03%, respectively) and the lowest percentage of octanoic acid (2.47%), which are mainly responsible for fruit and goaty flavor, respectively. Microstructure analysis showed that samples with juice added prefermentation had a compact protein network. Results indicated that addition of strawberry juice before fermentation may be a good technology for developing a stirred strawberry fermented goat milk.

High levels of branched chain fatty acids in natto and other Asian fermented foods.

The mean intake (500 mg/day) of branched chain fatty acids (BCFA) in western countries is from dairy products and beef. We hypothesized that Asian countries with low dairy consumption have an alternative source of BCFA and report the characterization of natto and selected fermented foods for BCFA content. Natto BCFA averaged 0.6 (range 0.21-1.43) mg BCFA per g natto (wet weight) and was highly variable. Natto major BCFA are C14-17 iso- and anteiso-BCFA similar to fluid milk. BCFA concentrations were 1.00 ±â€¯0.64%, 1.63 ±â€¯0.72% and 0.65 ±â€¯0.07%, of total fatty acids in natto, shrimp paste and fish sauce, respectively. In contrast, saturates, monounsaturates, and major polyunsaturates were more constant (coefficient of variation = 21%, 26% and 4% compared to 64% for natto BCFA). Detection of fatty acid ethyl esters were confirmed in miso and found in homemade kimchi. Habitual natto and/or fermented seafood consumption could support BCFA intakes similar to dairy consumption.

Health benefits of fermented foods.

In the past, the beneficial effects of fermented foods on health were unknown, and so people primarily used fermentation to preserve foods, enhance shelf life, and improve flavour. Fermented foods became an important part of the diet in many cultures, and over time fermentation has been associated with many health benefits. Because of this, the fermentation process and the resulting fermented products have recently attracted scientific interest. In addition, microorganisms contributing to the fermentation process have recently been associated with many health benefits, and so these microorganisms have become another focus of attention. Lactic acid bacteria (LAB) have been some of the most studied microorganisms. During fermentation, these bacteria synthesize vitamins and minerals, produce biologically active peptides with enzymes such as proteinase and peptidase, and remove some non-nutrients. Compounds known as biologically active peptides, which are produced by the bacteria responsible for fermentation, are also well known for their health benefits. Among these peptides, conjugated linoleic acids (CLA) have a blood pressure lowering effect, exopolysaccharides exhibit prebiotic properties, bacteriocins show anti-microbial effects, sphingolipids have anti-carcinogenic and anti-microbial properties, and bioactive peptides exhibit anti-oxidant, anti-microbial, opioid antagonist, anti-allergenic, and blood pressure lowering effects. As a result, fermented foods provide many health benefits such as anti-oxidant, anti-microbial, anti-fungal, anti-inflammatory, anti-diabetic and anti-atherosclerotic activity. However, some studies have shown no relationship between fermented foods and health benefits. Therefore, this paper aims to investigate the health effects of fermented foods.

Bile salt hydrolase activity is present in nonintestinal lactic acid bacteria at an intermediate level.

It is generally considered that bile salt hydrolase (BSH) activity is hardly detected in nonintestinal lactic acid bacteria (LAB). The aim of this study was to investigate the distribution and intensity of BSH activity in LAB isolated from naturally fermented vegetables and milk. A total of 624 lactic acid bacterial strains classified into 6 genera and 50 species were isolated from 144 naturally fermented vegetable samples and 103 naturally fermented milk samples, and their BSH activity was screened by gas chromatography with electron capture detection. The BSH-positive strains were further analyzed quantitatively for their deconjugation ability against six human-conjugated bile salts by HPLC based on the disappearance of the conjugated bile salts from the reaction mixture. The results showed that 39% of the strains possessed BSH activity distributed in 24 lactic acid bacterial species. The strains of the fermented vegetable origin showed a 0.5-fold higher incidence of BSH-positive strains than those of the fermented milk origin, and the lactic acid bacilli exhibited 2.5-fold higher incidence of BSH-positive strains than the lactic acid cocci in general. The strains of the fermented vegetable origin generally had greater bile salt deconjugation ability than those of the fermented milk origin. More than 97% and 93% of the BSH-positive strains exhibited a greater substrate preference for glycoconjugated bile salts than tauroconjugated bile salts and for dihydroxy bile salts than trihydroxy bile salts, respectively. This study demonstrated that BSH activity was also present in nonintestinal LAB.

Bioactivity of soy-based fermented foods: A review.

For centuries, fermented soy foods have been dietary staples in Asia and, now, in response to consumer demand, they are available throughout the world. Fermentation bestows unique flavors, boosts nutritional values and increases or adds new functional properties. In this review, we describe the functional properties and underlying action mechanisms of soy-based fermented foods such as Natto, fermented soy milk, Tempeh and soy sauce. When possible, the contribution of specific bioactive components is highlighted. While numerous studies with in vitro and animal models have hinted at the functionality of fermented soy foods, ascribing health benefits requires well-designed, often complex human studies with analysis of diet, lifestyle, family and medical history combined with long-term follow-ups for each subject. In addition, the contribution of the microbiome to the bioactivities of fermented soy foods, possibly mediated through direct action or bioactive metabolites, needs to be studied. Potential synergy or other interactions among the microorganisms carrying out the fermentation and the host's microbial community may also contribute to food functionality, but the details still require elucidation. Finally, safety evaluation of fermented soy foods has been limited, but is essential in order to provide guidelines for consumption and confirm lack of toxicity.

Evaluation of five commercial non-Saccharomyces yeasts in fermentation of soy (tofu) whey into an alcoholic beverage.

Soy (tofu) whey is a nutritious liquid substrate that is often discarded by tofu manufacturers. Recent research has shown that tofu whey can be converted into a soy alcoholic beverage using Saccharomyces yeasts. In this study, five commercially available non-Saccharomyces yeasts (Torulaspora delbrueckii; Lachancea thermotolerans; Metschnikowia pulcherrima; Pichia kluyveri and Williopsis saturnus) were evaluated in tofu whey fermentation and each of the yeasts showed different growth kinetics and fermentation performance. T. delbrueckii and L. thermotolerans consumed the supplemented sucrose and produced 6-7% (v/v) ethanol, while M. pulcherrima, P. kluyveri and W. saturnus only utilized the endogenous fructose and glucose, producing trace levels of ethanol. Besides, different yeasts showed different ß-glucosidase activities with 22-97% reduction in isoflavone glucosides; T. delbrueckii, L. thermotolerans and W. saturnus also decreased the level of GABA in tofu whey. Endogenous volatile compounds (mainly short-chain aldehydes) in tofu whey were reduced to trace levels, but different volatile compounds were produced by different yeasts at varying levels that can contribute to the different aroma profiles of the beverages. Therefore, selection of appropriate non-Saccharomyces yeasts can serve as a new strategy to valorize tofu whey and alter the aroma profile of the beverage.

Effect of vegetable by-products on folate production by starter and probiotic microorganisms to develop a bio-enriched fermented soy product / Efeito de subprodutos vegetais na produção de folatos por microrganismos starter e probióticos para o desenvolvimento de um produto de soja fermentado bioenriquecido

However, folate production was strain-dependent and also dependent on the environmental conditions and on the vegetable substrate used. Passion fruit by-product presented the lowest folate concentration and was selected for the following experiments. Thus, the impact of the supplementation of soymilk with passion fruit by-product and/or commercial prebiotic fructooligosaccharides FOS P95 on the folate production by three St. thermophilus strains, as well as four probiotic Lactobacillus strains (LA-5, LGG, PCC, and RC-14) were evaluated. St. thermophilus ST-M6 and TH-4 produced the highest amounts of folate in all fermented soymilks. The concentration of the vitamin was also high when these strains grew in co-culture with LA-5 and LGG. Soymilk supplemented with both passion fruit by-product and FOS together presented the highest concentration of folate when fermented by the co-culture TH-4+LGG. This co-culture was selected to produce four fermented soy products (FSP). All FSP were bio-enriched with folate produced by the co-culture and the probiotic strain LGG remained always above 8 log CFU/mL until the end of the storage period (28 days at 4ºC). In contrast, the concentration of the vitamin was stable until day 14 then a slight decrease was observed at the end of the storage period. The FSP supplemented with both passion fruit by-product and FOS together may contribute with around 14% of the recommended daily intake for folate if consumed until day 14 of storage. During the in vitro simulated gastrointestinal conditions, the folate content of the digested FSP increased from 1.3 to 3.6-fold, especially at the small and large intestinal in vitro phases and the strain LGG was recovered. In contrast, St. thermophilus TH-4 was not recovered during the assay. Finally, the prebiotic potential of the bioactive compounds present in the fruit by-products was characterized. Fruit by-product water extracts (FWE) containing soluble fibres from fruit by-products were obtained through a hot-water extraction and were associated to phenolic compounds and showed antioxidant activity. The FWE (especially, orange and mango water extracts) presented an anti-inflammatory potential by decreasing the nitric oxide concentration produced in vitro by macrophages stimulated with lipopolisaccharides (LPS) from Salmonella Thyphymurium. The FWE (especially from mango) were able to stimulate the growth of the strains TH-4 and LGG, as well the folate production by these microorganisms when tested individually and in co-culture. The FWE also increased the adhesion of TH-4 and LGG to Caco-2 cells in an in vitro model. These results suggest a prebiotic potential of the fruit by-products evaluated and their potential towards increased folate production by the selected microorganisms. Therefore, the bio-enrichment of fermented soy products with folate produced by beneficial microorganisms is an alternative for the development of functional foods with high folate content. Additionally, fermentable bioactive compounds with functional and/or biological activity, such as soluble fibres associated to phenolic compounds with antioxidant activity, present in the fruit by-products, may act as potential prebiotic ingredients. These bioactive molecules may represent a potential natural alternative to synthetic drugs for the treatment of inflammatory processes

O objetivo deste trabalho foi avaliar o efeito de subprodutos vegetais, incluindo subprodutos do processamento de fruta (maracujá, laranja, acerola e manga) e de soja (okara) na produção de folatos de novo por microrganismos strater e probióticos para bioenriquecer um produto de soja fermentado. Na primeira etapa deste trabalho, o impacto da farinha de amaranto na produção de folatos pelos microrganismos também foi avaliado. Neste sentido, primeiramente, verificou-se o efeito desses subprodutos vegetais e da farinha de amaranto na capacidade de três cepas starter - Streptococcus thermophilus (ST-M6, TH-4 e TA-40) e 10 cepas probióticas (Lactobacillus (Lb.) acidophilus LA-5, Lb. fermentum PCC, Lb. reuteri RC-14, Lb. paracasei subsp. paracasei Lb. casei 431, Lb. paracasei subsp. paracasei F19, Lb. rhamnosus GR-1, and Lb. rhamnosus LGG, Bifidobacterium (B.) animalis subsp. lactis BB-12, B. longum subsp. longum BB-46, e B. longum subsp. infantis BB-02) em produzir folato utilizando um caldo MRS modificado. A maior parte dos microrganismos testados foi capaz de produzir folato. Entretanto, a produção foi considerada cepa-dependente e, também, dependente das condições ambientais e do tipo de subproduto vegetal empregado. O subproduto de maracujá apresentou a menor concentração de folato e, por isso, foi selecionado para os testes seguintes. Neste sentido, o impacto da suplementação do leite de soja com subproduto de maracujá e/ou com o prebiótico comercial fruto-oligosacarídeo FOS P95 na produção de folato pelas três cepas de St. thermophilus, bem como quarto cepas probióticas do gênero Lactobacillus (LA-5, LGG, PCC e RC-14), também foi avaliado. Em cultura pura, as cepas de St. thermophilus ST-M6 e TH-4 produziram grande quantidade de folato nas formulações de extrato de soja fermentados. A concentração da vitamina foi maior quando tais cepas se desenvolveram em co-cultura com LA-5 e LGG. Observou-se que o extrato de soja suplementado concomitantemente com subproduto de maracujá e FOS apresentou a maior quantidade de folato quando fermentado pela co-cultura TH-4+LGG. Esta co-cultura, portanto, foi selecionada para desenvolver os produtos fermentados de soja (PFS). Todas as formulações foram bioenriquecidas e a cepa LGG manteve-se viável por todo o período de armazenamento (28 dias a 4ºC). Entretanto, a concentração da vitamina manteve-se estável apenas até o dia 14, observando-se uma diminuição da quantidade de folato ao final do período de armazenamento. Constatou-se que o produto fermentado de soja suplementado concomitantemente com subproduto de maracujá e FOS pode contribuir com cerca de 14% da ingestão diária recomendada para folato se consumido até o dia 14 do armazenamento. Além disso, durante a simulação gastrointestinal in vitro, observou-se que a digestão aumentou de 1,3 a 3,6 vezes a concentração da vitamina incrementando, consideravelmente, a bioacessibilidade do folato, principalmente nas porções simuladas do intestino delgado e grosso do intestino e a cepa LGG foi recuperada. Entretanto, a cepa St. thermophilus TH-4 não foi recuperada durante o ensaio. Por fim, o potencial prebiótico de componentes bioativos presentes nos subprodutos de fruta foi caracterizado. Uma extração Hot Water foi conduzida, a fim de obter extratos aquosos de subprodutos de fruta ricos em fibras solúveis associadas a compostos fenólicos com atividade antioxidante. Observou-se, ainda, que tais extratos aquosos de subprodutos de fruta (laranja e manga) apresentaram potencial anti-inflamatório constatado pela diminuição da concentração de óxido nítrico produzido por macrófagos estimulados com lipopolissacarideo (LPS) de Salmonella Typhymurium in vitro. Além disso, os extratos aquosos de subprodutos de fruta (principalmente o extrato aquoso de subproduto de manga) foram capazes de estimular a multiplicação das cepas TH-4 e LGG, bem como a produção de folatos por estes microrganismos quando avaliados individualmente e em co-cultura. Adicionalmente, esses extratos aquosos de subprodutos de fruta aumentaram a adesao do TH-4 e do LGG a células Caco-2 em modelo in vitro. Neste sentido, os resultados sugerem um potencial prebiótico dos subprodutos de fruta testados, de modo a estimular, não somente o desenvolvimento dos microrganismos avaliados mas, principalmente, o potencial destes em produzir folatos na presença dos substratos vegetais testados. O bioenriquecimento dos produtos fermentados de soja com folatos produzidos por microrganismos benéficos emerge como alternativa de alimento potencialmente funcional com alto teor de folato. Adicionalmente, compostos bioativos fermentescíveis e com atividade biológica como, por exemplo, as fibras solúveis associadas a compostos fenólicos com atividade antioxidante, presentes nos subprodutos de fruta testados podem constituir potenciais ingredientes prebióticos, além de representarem uma possível alternativa natural para o tratamento de processos inflamatórios

Impact of the incorporation of probiotic strains and fruit by-products in fermented synbiotic soy product and on the composition and metabolic activity of the gut microbiota in vitro / Impacto da incorporação de cepas probióticas e de subprodutos de frutas em um produto fermentado de soja simbiótico e sobre a composição e a atividade metabólica da microbiota intestinal humana in vitro

The present study aimed to develop a fermented soy beverage containing fruit by-products and probiotics and to evaluate the impact of this product on the composition and metabolic activity of the human intestinal microbiota using an in vitro simulation model of the intestinal conditions (TIM-2). Therefore, the present study was divided into three stages. Stage I was based on obtaining, processing and physical-chemical, microbiological and functional characterization of fruit by-products (acerola, orange, mango, and passion fruit) and soybean (okara), as well as amaranth flour. Additionally, the ability to use these vegetable by-products and amaranth flour by probiotic and non-probiotic strains was evaluated. The results showed that the acerola byproduct presented the highest dietary fibre content (48.46 g/100 g) among the by-products tested, as well as amaranth flour. Orange and passion fruit by-products were the substrates that most promoted the growth of bacterial populations, including strains of Escherichia coli and Clostridium perfringens. On the other hand, the acerola by-product was the substrate that showed the highest selectivity for beneficial bacteria. Also, in this stage, ten probiotic strains (seven lactobacilli and three bifidobacteria) and three starter strains (Streptococcus thermophilus) were tested for their ability to deconjugate bile salts and for proteolytic activity against milk and soy proteins. The results showed that none of the tested strain showed proteolytic ability against milk and soybean proteins. In addition, the probiotic strains Lactobacillus acidophilus LA-5 and Bifidobacterium longum BB-46 deconjugated more types of bile acids tested, and the strains of S. thermophilus tested showed no ability to deconjugate bile salts. Next, the acerola by-product (ABP) and the probiotic strains LA-5 and BB-46 were selected to continue stage II of the study (development of a fermented soy beverage). For this purpose, a 23 factorial design was used, in a total of 8 trials with three replicates of each one, and the effects of the probiotic strains and the acerola by-product on the physical-chemical, microbiological, and sensory characteristics of these fermented soy beverages were evaluated. At the same time, probiotic viability and survival under in vitro gastrointestinal (GI) simulated conditions were evaluated in fermented soy beverage (FSB). The results showed that the presence of BB-46 and ABP affected the sensory acceptability of FSB negatively. ABP also led to significant differences in the texture profile of the FSB (P<0.05). Populations of probiotic strains ranged from 7.0 to 8.2 log CFU equivalent/mL during 28 days of refrigerated storage (4° C) of FBS, and the co-culture (LA-5+BB-46) and the ABP did not affect the viability of both microorganisms significantly (P> 0.05). However, ABP increased the survival of BB-46 under in vitro simulated GI conditions significantly. For stage III, a 22 experimental design was performed. To evaluate the impact of these FBS on the composition and metabolic activity of the intestinal microbiota of lean and obese humans, a validated in vitro model called TIM-2 was used, available at the Maastricht University (Venlo, The Netherlands), which simulates normal conditions of the lumen of the proximal colon, with all parameters controlled by a computer. Samples were collected from TIM-2 to quantify probiotic microorganisms (LA-5 and BB-46), Lactobacillus spp., Bifidobacterium spp., and total bacteria, using the quantitative PCR method (qPCR) and the intestinal microbiota profile was determined using an Illumina Mysec Next Generation Sequencing (NGS) method. Concentrations of shortchain fatty acids and branched-chain fatty acids and lactate produced by the different microbiotas during fermentation in TIM-2 were also determined. The results showed that the lean microbiota presented the high production of acetate and lactate than the microbiota of obese individuals. Significant reductions in Bifidobacterium populations in the lean microbiota were observed at 0 and 48 h of an assay for all experimental meals, except for the meal that had the probiotic combination (LA-5 and BB-46) and the ABP supplementation, which showed an increased total Bifidobacterium and Lactobacillus populations throughout the experimental period for both microbiotas tested. The FSB supplemented with ABP presented the best characteristics regarding the modulation of the obese microbiota, with an increase in Bifidobacterium spp. and Lactobacillus spp. Additionally, after 48 hours of intervention in TIM-2, the obese microbiota was apparently similar to the lean microbiota, showing a beneficial modulation of this microbiota. The results suggest that the fermented soy beverage supplemented with the acerola by-product and the probiotic strains may present beneficial health effects. However, clinical studies are required to complement and confirm the results observed in the in vitro assays

O presente trabalho visou desenvolver uma bebida fermentada de soja adicionada de resíduos de frutas e suplementada com cepas probióticas e avaliar o impacto desse produto sobre a composição e a atividade metabólica da microbiota intestinal humana, utilizando um modelo de simulação in vitro das condições intestinais (TIM-2). Para tanto, o presente trabalho foi dividido em três etapas. A etapa I foi baseada na obtenção, processamento e caracterização físico-química, microbiológica e funcional de subprodutos de frutas (acerola, laranja, manga e maracujá) e soja (okara), bem como da farinha de amaranto. Adicionalmente, a capacidade de utilização desses subprodutos vegetais e da farinha de amaranto por cepas probióticas e não probióticas foi avaliada. Os resultados mostraram que o subproduto de acerola apresentou o maior conteúdo de fibras alimentares totais (48,46 g/100 g) dentre os subprodutos testados, bem como a farinha de amaranto. Os subprodutos de laranja e maracujá foram os substratos que mais promoveram a multiplicação das populações bacterianas, incluindo das cepas de Escherichia coli e Clostridium perfringens. Por outro lado, o subproduto de acerola foi o substrato que apresentou a maior seletividade para bactérias benéficas. Ainda nessa etapa, dez cepas probióticas (sete lactobacilos e três bifidobacterias) e três cepas starter (Streptococcus thermophilus) foram testadas quanto à sua capacidade de desconjugação de sais biliares e atividade proteolítica frente às proteínas do leite e da soja. Os resultados revelaram que nenhuma cepa testada apresentou capacidade de proteólise das proteínas do leite e da soja. Adicionalmente, as cepas probióticas Lactobacillus acidophilus LA-5 e Bifidobacterium longum BB-46 desconjugaram a maior quantidade de ácidos biliares testados e as cepas de S. thermophilus testadas não apresentaram capacidade de desconjugação de sais biliares. Após a análise dos resultados da etapa I, o resíduo de acerola (ABP) e as cepas probióticas LA-5 e BB-46 foram selecionadas para dar continuidade à etapa II do estudo(desenvolvimento de uma bebida fermentada a base de soja). Para esse fim, foi utilizado um delineamento experimental do tipo fatorial 23, totalizando 8 ensaios com três repetições de cada, e foram avaliados os efeitos das cepas probióticas e do subproduto de acerola sobre as características físico-químicas, microbiológicas e sensoriais dessas bebidas fermentadas de soja. Paralelamente, foram realizadas análises da sobrevivência das cepas probióticas frente às condições gastrintestinais simuladas in vitro nas bebidas fermentadas de soja (FSB). Os resultados mostraram que a presença de BB-46 e ABP afetaram negativamente a aceitabilidade sensorial das FSB. O ABP também levou a diferenças significativas no perfil de textura das FSB (P<0,05). As populações das cepas probióticas nas diferentes formulações de FSB variaram de 7,0 a 8,2 log de UFC equivalente/mL durante os 28 dias de armazenamento (4 ºC) e a co-cultura (LA-5+BB-46) e o ABP não afetaram (P>0,05) a viabilidade de ambos os microrganismos. No entanto, ABP aumentou significativamente a sobrevivência de BB-46 frente às condições gastrintestinais sumuladas in vitro. Para a etapa III do presente estudo, um delineamento experimental fatorial 22 foi realizado. Para a avaliação do impacto dessas FSB sobre a composição e atividade metabólica da microbiota intestinal de humanos eutróficos e obesos, foi utilizado um modelo in vitro TIM-2 na Maastricht University (Venlo, Holanda), que simula as condições normais do lúmen do cólon proximal, com todos os parâmetros controlados por um computador. Amostras foram coletadas do TIM-2 para a quantificação dos microrganismos probióticos (LA-5 e BB-46), Lactobacillus spp., Bifidobacterium spp. e bactérias totais, utilizando o método de PCR quantitativo (qPCR), e o perfil da microbiota intestinal foi determinado utilizando Next-Generation Sequencing (NGS) Illumina Mysec. A concentração de ácidos graxos de cadeia curta e de cadeia ramificada e lactato produzidos pelas diferentes microbiotas durante a fermentação no TIM-2 também foi determinada. Os resultados mostraram que a microbiota de humanos eutróficos apresentou uma alta produção de acetato e lactato em comparação com a microbiota de obesos. Reduções significativas das populações de Bifidobacterium na microbiota de eutróficos foram observadas entre 0 e 48 h de ensaio para todas as refeições experimentais, exceto para a refeição que apresentou a combinação probiótica (LA-5 e BB-46) e a suplementação com ABP, que apresentou aumento de Bifidobacterium e Lactobacillus totais durante todo o período de análise para ambas as microbiotas testadas. As FSB suplementadas com ABP apresentaram os melhores resultados em relação à modulação da microbiota de humanos obesos, com o aumento Bifidobacterium spp. e Lactobacillus spp. Adicionalmente, após 48 horas de intervenção no TIM-2, a microbiota de obesos foi aparentemente similar à microbiota de eutróficos, mostrando uma modulação benéfica dessa microbiota. Os resultados sugerem que as bebidas fermentadas de soja suplementadas com o subproduto de acerola e cepas probióticas podem apresentar efeitos benéficos à saúde. No entanto, estudos clínicos são necessários para complementar e confirmar os resultados observados nos ensaios in vitro