Search Results (64)

The aim of the present study was to evaluate the acceptability, sensory profile, and physicochemical properties of craft beers produced with unmalted old Sardinian durum (Trigu Murru, Trigu Moru) and soft (Tricu Cossu, Trigu Denti de Cani) wheat varieties. Chemical analysis, by GC-MS, and sensory analysis conducted through a Check-All-That-Apply (CATA) questionnaire, modified Quantitative Descriptive Analysis (QDA), and an acceptability test were performed. The beer brewed with Tricu Cossu received the highest overall liking, characterized by pronounced honey aroma, sweet taste, and cereal notes, supported by a balanced volatile composition. Trigu Denti de Cani also achieved high acceptability, with a profile combining honey and cereal notes, moderate bitterness, and a clean finish. Trigu Murru presented intense cereal and honey notes but was penalized by lower scores in other sensory dimensions, leading to reduced consumer acceptance. Trigu Moru exhibited the lowest liking, dominated by bitter and astringent sensations, though potentially appealing to consumers seeking robust and intense flavor profiles. Multivariate analysis confirmed these sensory-based distinctions, linking each wheat variety to a specific volatile pattern and sensory identity. The multivariate analysis performed on the volatile compounds detected confirmed the differences found with the sensory analysis. Full article

Probiotic microorganisms from sugary kefir were incorporated into Brazilian non-alcoholic beers to enhance their functional and nutritional properties through aerobic static fermentation over 24 h. Non-alcoholic beers inoculated with sugary kefir showed appropriate acidity (pH reduction from ~3.74 to ~3.52), color, and microbial balance, along with excellent sensory acceptance (scores of 6.9–8.4 on a 9-point hedonic scale). The kefir microbiota included Lacticaseibacillus paracasei, Lacticaseibacillus casei, Lacticaseibacillus paracasei subsp. paracasei, Lacticaseibacillus paracasei subsp. tolerans, Lactobacillus delbrueckii subsp. lactis, Lentilactobacillus parabuchneri, Lentilactobacillus kefiri, Lactococcus lactis, Leuconostoc citreum, Acetobacter lovaniensis, and yeasts such as Saccharomyces cerevisiae, Kluyveromyces lactis, Lachancea meyersii, and Kazachstania aerobia. Genetic analysis confirmed the absence of undesirable or pathogenic microorganisms. Fermentation led to reductions in sucrose (~0.35 to ~0.22 g/L) and °Brix (~5.55 to ~3.80), with increases in lactic acid (~0.55 to ~1.25 g/L) and acetic acid (~0.08 to ~0.14 g/L), confirming active microbial metabolism. Ethanol levels remained within legal limits for non-alcoholic beverages. The process preserved sensory attributes while enriching the beverage with well-documented kefir microorganisms. These findings highlight sugary kefir as a promising biotechnological tool to enhance the functional profile of non-alcoholic beers without compromising their sensory quality. Full article

Reverse osmosis (RO) and nanofiltration (NF) membranes are traditionally employed in wine and beer production for concentration, clarification, and stabilization. Their applications now extend to dealcoholization, addressing rising demand for low-alcohol beverages. RO/NF selectively reduce ethanol while retaining volatile aromas and non-volatile flavors, outperforming thermal methods that degrade sensory profiles. This review examines RO/NF roles in alcohol adjustment, sugar modification, and by-product recovery, emphasizing mechanisms and efficiency. Operational challenges such as membrane fouling (polysaccharides, polyphenols), selectivity–permeation flux trade-offs, and energy costs are assessed. By balancing tradition with innovation, RO/NF technologies offer transformative potential for meeting health and sustainability goals in beverage industries. However, gaps in standardization, sensory consistency, and cost-effectiveness necessitate targeted research to optimize industrial adoption and consumer acceptance. Full article

During the preparation of beer wort, significant amounts of waste raw materials, such as brewers’ spent grain (BSG), are generated. In line with the zero-waste approach, a processing technology for BSG was developed to valorize this by-product. The developed method involves obtaining a BSG extract (plant-based milk), followed by filtration to remove insoluble residues and subsequent fermentation to produce vegan BSG-based yogurt-like products, with and without the addition of sucrose, as well as pectin, guar gum, and konjac gum as stabilizers. The samples were analyzed for pH, moisture and protein content, water activity (Aw), color, viscosity, and syneresis, and were also subjected to an organoleptic evaluation. Fermentation with starter cultures yielded BSG-based yogurt-like products with an optimal pH (~4.0), which, combined with Aw values below 0.95, ensures microbiological safety by inhibiting the growth of pathogenic and spoilage microorganisms. Due to phase separation, the use of stabilizers was necessary to achieve a yogurt-like texture. Their application also contributed to a reduction in syneresis—sometimes even preventing its occurrence—and led to an increase in viscosity, which ranged from 0.162 to 0.463 Pa·s, depending on the stabilizer used. The moisture content of fermented BSG extracts ranged from 88.2% to 91.7%. All samples showed similar protein content, approximately 50% on a dry matter basis. Furthermore, organoleptic assessment (5-point scale) revealed that sensory characteristics varied depending on the stabilizer and sugar used. The yogurt-like variant formulated with 0.5% pectin and 1% sucrose received the highest acceptance score (4.0), indicating good sensory quality. Full article

Consumption of non-alcoholic beer (NAB) is continuously increasing in many countries. NABs are produced with varying technologies, resulting in different sensory properties. Previous studies have focused on understanding the consumers’ acceptance and preferences among different types of NAB. However, few studies have focused on the sensory characterization of commercial NABs produced with different methods. This study aimed to find key sensory characteristics in lager, Indian pale ale, and pilsner-type NABs with untrained panels by conducting tests in Finland and China. Participants were asked to Check-All-That-Apply for odors and Rate-All-That-Apply for flavors. Additionally, hedonic responses to odor and flavor pleasantness were rated. Chinese participants used more different and more often-used attributes to describe NABs. More varying descriptors were used on the NAB samples chosen as the most pleasant ones, indicating more complex sensory properties. Participants from both locations preferred lager-type beers characterized as ‘fresh’ odor and ‘fruity’, ‘floral’, and ‘sweet’ flavors and less frequently found Indian-pale-ale-type NABs pleasant, describing them as ‘sour’, ‘bitter’, ‘fermented’, and ‘pungent’ flavors. The flavor pleasantness correlated more with the samples frequently chosen as the most pleasant than odor pleasantness. No clear connection was found between the production method of NAB and consumers’ acceptance, demonstrating that all production methods can be used to produce non-alcoholic beers with sensory properties acceptable to consumers. Full article

Saccharomyces cerevisiae is one of the important species of traditional fermented foods and beverages. However, incorporating non-Saccharomyces in the fermentation process is a promising strategy to improve the organoleptic profile. In this study, we assessed the potential of a wild Pichia kluyveri strain (PKL) to augment the aromatic profile in beer brewing while maintaining high fermentation attenuation through inoculation with Saccharomyces cerevisiae var. diastaticus yeast (SY) in both simultaneous (SI-PKL/SY) and sequential (SE-3-PKL/SY) approaches. The fermentation performance was analyzed by residual sugar content, volatile organic compounds, and sensory evaluation. The results indicated that both co-fermentation methods yielded residual sugar levels comparable to those of SY monoculture fermentation. The 2-phenethyl acetate, isoamyl acetate, and linalool in SE-3-PKL/SY increased 12.00, 12.37, and 1.17 folds than the SY monoculture, respectively. Furthermore, the incremental concentrations of these compounds contributed to the highest acceptability and prominent fruity notes in the SE-3-PKL/SY coculture. The current study is the first to report on the co-fermentation with Pichia kluyveri and Saccharomyces cerevisiae var. diastaticus in beer brewing. These findings highlighted the importance of Pichia kluyveri in shaping the ameliorative aroma profile of fermentation production. Full article

The production of low-alcohol beverages is an important world trend due to concerns about health and well-being. The use of agro-industrial residues, such as grape pomace, to produce bioactive and diverse beverages is highly acceptable to consumers. It is an eco-friendly approach that contributes to sustainability and a circular economy. This mini review highlights the composition of grape pomace and its emerging role as a fermentation substrate, emphasizing its potential to contribute to sustainable beverage innovation. In addition, we discussed using non-conventional yeasts to produce beer with different aromas, flavors, and low alcoholic content, as well as the possibility of using a vast diversity of substrates during fermentation, including grape pomace. Different yeasts and substrates bring new opportunities to the market for brewery industries and other products. Full article

Hops are an important component of beer brewing, providing aromatic and bittering properties that are essential to consumer appeal. A significant amount of hop residue is generated in the dry-hop brewing process that cannot be reused due to bittering residues that disqualify them as animal feed or other products. The purpose of this research was to reuse four varieties of hop waste (Citra, Mosaic, Hallertau Blanc, and Mandarina Bavaria) through a repalletization process with the objective of integrating them into a new craft beer brewing process. Chemical properties such as the phenolic content, antioxidant capacity, and α- and β-acids were significantly reduced (p < 0.05) due to the reuse of the repelletized hops, leading to a decrease in the bitterness levels in all of the craft beers brewed with dry-hop residues. Finally, the sensory study conducted with non-habitual craft beer consumers revealed significant general acceptability for beers brewed with repelletized dry-hop residues (Mandarina Bavaria, Citra, and Mosaic). The reuse of hop residues for brewing presents a promising opportunity for further development in the food industry. Full article

The global growth of the craft beer market has driven the use of native ingredients to improve the sensorial and nutritional qualities of the product. This study investigated the optimization of an Ale-type craft beer from Pilsen malt (PM) with the addition of cañihua malt (CM) and aguaymanto juice (AJ), using a D-optimal experimental design. The independent variables were CM (5–25%) and AJ (5–15%), which influenced the physicochemical, technological, and sensorial attributes of the beer. The results show that CM and AJ improve the physicochemical properties of the beer, such as foam stability and alcohol content, while maintaining comparable levels of specific gravity, turbidity, and bitterness with the control sample. The addition of AJ significantly altered the physicochemical profile of the beer, in particular by reducing pH and increasing acidity. Sensory analysis revealed positive consumer acceptance, with favorable evaluations of aroma, appearance, and body, particularly in samples containing moderate levels of CM and AJ. In addition, consumer purchase intention was high for these formulations. Optimization through the desirability function determined that the ideal ingredient concentrations were 74.52% PM, 15.55% CM, and 8.93% AJ. Within the ranges studied, it is concluded that the addition of CM and AJ successfully produced a craft beer with notable nutritional benefits and high sensory acceptability. Full article

The well-known hop variety, Saaz, which gives the Pilsner lager beer its characteristic hop aroma, may be threatened by climate change in the future. Therefore, new Saaz-related hop varieties, including Saaz Late, Saaz Brilliant, Saaz Comfort, and Saaz Shine, were recently bred. A comparison study was carried out to evaluate whether these varieties are acceptable for traditional lagers. For this purpose, sensorial and chemical analyses of hops and related beers, namely, an analysis of hop resins and oils, were performed. Sensory profiles of Saaz varieties are very similar (fine, hoppy aroma; floral; herbal), except for Saaz Comfort, which has a slightly higher aroma intensity, and Saaz Shine, which has the most noticeable fruity scent, with traces of citrus. The chemical profiles are also very similar, with α-humulene, β-pinene, (E)-β-farnesene, β-caryophyllene, and myrcene being the most abundant. Decoction mashing and kettle hopping technology with bottom fermentation show that the compared varieties result in very similar lager beers with hoppy, floral, herbal, fruity, and spicy aromas. Typical hop oils include farnesol, linalool, methyl geranate, β-pinene, and limonene. The high concentration of farnesol in beer correlates with the concentrations of (E)-β-farnesene and farnesol in hops. New Saaz varieties are widely used to produce Pilsner lager without affecting the traditional sensory aroma of this widespread style. Varieties have a higher yield of approximately 25% and bitter acid concentrations of approximately 15%, with Saaz Comfort comprising approximately 100%. Furthermore, the concentration of hop oils is approximately 40% higher in Saaz Shine than a traditional Saaz variety. Moreover, Saaz Shine and Saaz Comfort have very good resistance to drought, which is an important property from a climate change perspective. Full article

The aim of this study was to produce and to characterize craft beer fermented by immobilized yeast cells with the addition of Prokupac grape pomace seed powder (2.5% and 5%), to obtain a beer enriched with phenolic compounds and improved sensory characteristics. The immobilization of the yeast cells was performed by electrostatic extrusion, while the obtained calcium alginate beads were characterized by light and scanning electron microscopy. Phenolic and hop-derived bitter compounds in beer with or without grape pomace seed powder (GS) phenolics were identified using UHPLC Q-ToF MS. The results indicated that GS adjunct significantly shortened the fermentation process of wort and increased the content of phenolic compounds, especially ellagic acid, flavan-3-ols and pro(antho)cyanidins in the final products compared to the control beer. A total of twenty (iso)-α-acids and one prenylflavonoid were identified, although their levels were significantly lower in beers with GS phenolics compared to the control beer. Beers with GS phenolics showed good antioxidant properties as measured by the reduction of ferric ions (FRP) and the scavenging of ABTS^•+ and DPPH^• radicals. The concentration of immobilized viable yeast cells was higher than 1 × 10⁸ CFU/g wet mass after each fermentation without destroying the beads, indicating that they can be reused for the repeated fermentation of wort. Beers produced with 5% GS added to the wort exhibited the best sensory properties (acidity, astringency, bitterness intensity, mouthfeel, aftertaste and taste), and highest overall acceptability by the panelists. The results showed that grape pomace seed powder present a promising adjunct for the production of innovative craft beer with good sensory properties and improved functionality. Full article

This study compares the analysis of the financial statements of the brewing sector in Italy and Spain due to its growth in both Mediterranean countries and its relationship with other sectors of activity of great importance in these countries. The web transparency of the sustainability indicators of the brewing sector in both countries is also analyzed, following the new regulatory framework, EU Directive 2022/2426, on sustainability information, in order to analyze, in an integrated way, the financial and sustainability information which they report for a sustainable development of the sector, in line with the Sustainable Development Goals and the European Green Deal. The methodology used involved compositional data, which are reliable at an accounting and statistical level; such data allow us to value the financial health of the sector and its relationship with the web exploration of the communication of its environmental, social, and corporate governance indicators. The results indicate a solvency of the sector in the short term, with poor margins, especially in the pandemic, which recovered in 2021 due to the sector’s resilience. On the other hand, there is a clear need to study the costs and margins of the sector in depth to improve the quality of the beers and to project the sector. The web analysis reveals acceptable transparency at the environmental level and poor transparency at the social and corporate governance level, with differences between the two countries and the population under study. Full article

Red clover (Trifolium pratense) is a fodder plant grown in many regions of the world. It is also known as a medicinal plant. Red clover contains large amounts of isoflavones, which are, due to their similarity to estrogen, called phytoestrogen; it is believed that they can increase the concentration of estrogen in women. Some studies have refuted this information, but this topic is still being researched. The aim of the work was to produce beer to which red clover is added during the boiling phase and to monitor the transfer of isoflavones from red clover to beer. Red clover was not added to the control sample during boiling. During production and fermentation, the basic physical-chemical properties of wort and beer were monitored, as well as acceptability among potential consumers, which was determined by sensory analysis. The results show that phytoestrogens do end up in beer. The analyzed beer contained biochanin A, formononetin, genistein, and daidzein, in a total concentration of 12.42 µg/mL. The control sample contained none of the aforementioned compounds. Sensory analysis gave promising results, and the tested consumers all approved the taste, smell, and aroma of the produced beer. The most notable aroma that was singled out by consumers was “hay-like”. Full article

Sour beers play an important role in the brewing market, and their production has been growing exponentially. In light of this, six microorganisms directly related to this class of beer were studied, and the fermentation behavior of six strains used in the past for traditional commercial Berliner Weisse beer production was monitored. The microorganisms used were Lactobacillus brevis, Lactobacillus parabrevis, Brettanomyces bruxellensis, and Brettanomyces anomalus and two strains of Saccharomyces cerevisiae. The six microorganisms were selected in a previous work, and a comparison between single and mixed fermentations was carried out via daily measurements of the fermentation parameters like pH, extract, and cell count during 22 days. The ability to isolate a specific microorganism from a mixed culture was investigated using three commonly used nutrient media and aerobic/anaerobic growth conditions. Both Lactobacillus and Brettanomyces could be isolated; however, the conditions imposed were not sufficient in order to isolate Saccharomyces. Fermentations carried out with LAB and Brettanomyces showed a decrease in Lactobacillus growth if compared to pure fermentations, but no influence on the growth of Brettanomyces could be perceived. In general, fermentations carried out in the presence of Saccharomyces were dominated by this yeast. Its quick growth seems to be responsible for the high end pH values observed as well as the decrease in cell growth for both LAB and Brettanomyces. A decrease in the cell viability of Saccharomyces was followed by an increased growth of the other microorganisms involved, possibly meaning that the molecules released through apoptosis are used by both LAB and Brettanomyces as a valuable nutrient source. The volatile compound concentrations of the first group were higher in fermentations with Saccharomyces, whereas esters’ concentration was higher in fermentations carried out only with Brettanomyces and Lactobacillus. Furthermore, understanding how these microorganisms interact during the fermentation process can help brewers better control production and ensure the consistency in the quality of the final product. The end pH values and acidity reached levels acceptable for Berliner Weisse beer. This innovative approach certainly contributes to the evolution and refinement of the art of brewing. Full article

Population aging is a global phenomenon. Each country in the world faces an increased number of older persons in the total population. With aging, a high prevalence of multiple chronic diseases occurs, leading to the use of complex therapeutic regimens and often to polypharmacy. Potentially inappropriate medication (PIM) is a medicine prescribed to a patient for whom the risks outweigh the benefits. Today, several tools are used to evaluate the use of pharmacotherapy in older adults, one of them is the 2019 AGS Beers Criteria. In this prospective, pilot study, we aimed to investigate if the number of PIMs in elderly patients would be significantly reduced if a clinical pharmacist performed a pharmacotherapy review. The study included 66 patients over 65 years of age who were hospitalized at the 1200-bed university hospital. The intervention was conducted by a clinical pharmacist who reviewed the patients’ pharmacotherapy and provided written suggestions to physicians. The pharmacotherapy was again reviewed at the patients’ discharge from the hospital. A total number of 204 PIMs were identified in the pharmacotherapy of the study population. At discharge, the number of PIMs decreased to 67. A total of 67% of the pharmacist’s suggestions were accepted by the physicians. The pharmacist’s intervention led to significant decrease in the number of PIMs on patients’ discharge letters. Full article