Search Results (146)

The search for natural sources of bioactive compounds with health-promoting properties has intensified in recent years. Among these, Tannat grape pomace (TGP), a primary byproduct of winemaking, stands out for its high phenolic content, although its bioactivity may be affected during gastrointestinal digestion. This study aimed to evaluate the impact of in vitro digestion on the antioxidant (ABTS, ORAC-FL, intracellular ROS inhibition), anti-diabetic (α-glucosidase inhibition), anti-obesity (lipase inhibition), and anti-inflammatory (NO inhibition) properties of five sugar-free biscuits formulated with varying percentages of TGP and sucralose. No significant differences were observed in the bioaccessible fractions (BFs, representing the compounds potentially released in the small intestine) between control biscuits and those enriched with TGP, suggesting limited release of phenolics at this stage. Conversely, the colonic fractions (CFs, simulating the material reaching the colon) from biscuits with higher TGP content exhibited greater bioactivities. HPLC-DAD-MS analysis of the CF from the biscuit containing 20% TGP and 4% sucralose revealed a high content of procyanidin trimers, indicating the persistence of these specific phenolic compounds after in vitro digestion. These findings suggest that TGP-enriched biscuits may deliver health benefits at the colonic level and support their potential application in the formulation of functional foods. Further microbiota and in vivo studies should be assessed to confirm the latter. Full article

Large quantities of oenological by-products, rich in potentially extracted antioxidant compounds, are generated annually in the winemaking industry. With the purpose of their revalorization, different types of by-products (grape pomace, lees, and grape seed meal) from the winemaking industry from three vinification typologies (red, rosè, and white) and four varieties (Tempranillo, Syrah, Airén, and Zalema) in two grape growing seasons (2022 and 2023) were considered. Attention was focused on the content of protein, individual phenolic compounds (anthocyanins, flavonols, hydroxycinnamic acid derivatives, hydroxybenzoic acids, monomeric flavan-3-ols, and procyanidins), and antioxidant activity (DPPH, ABTS, and cyclic voltammetry). The data obtained showed considerable amounts of protein (around 30%) in red lees and a high concentration of phenolic compounds in the by-products, especially anthocyanins and flavonols in the by-products derived from rosè vinifications and flavan-3-ols, procyanidins, and hydroxybenzoic acids in red grape by-products. The antioxidant activity was different between the by-products. Specifically, the electrochemical behavior evaluated by cyclic voltammetry showed some significant differences. Finally, a linear discriminant analysis based on chemical and antioxidant data allowed for differentiating the samples depending on the type of by-product, type of vinification, and variety. Full article

Wine production generates by-products that require proper management and reuse to minimize their environmental impact. Grape pomace, a by-product of winemaking, holds significant nutritional and bioactive potential. This study evaluated the nutritional and antioxidant profiles of pomace from Isabella grapes (La Plata, Argentina) and Cabernet grapes (Veneto, Italy). Both varieties contain high levels of dietary fiber, especially Cabernet. However, Cabernet showed lower protein and lipid levels than Isabella. Calcium, potassium, and phosphorus were the major minerals in both by-products. Isabella exhibited a higher content of essential polyunsaturated fatty acids, particularly α-linoleic acid, while Cabernet shows a greater proportion of saturated and monounsaturated fatty acids. Additionally, Isabella exhibited significantly higher levels of caffeic acid derivatives (506.4 vs. 38.2 mg/kg dry weight), catechin (1613.2 vs. 294.8 mg/kg dry weight), epicatechin (1229.2 vs. 230.3 mg/kg dry weight), and total anthocyanins (2649 vs. 607.5 mg kuromanin/kg dry weight), as well as a greater total polyphenol content and antioxidant activity compared to Cabernet. These results highlight grape pomace’s potential as a valuable functional ingredient. Full article

By-products from winemaking, such as grape pomace, grape seeds, grape skins, or extracts made from them, represent a cost-effective and sustainable bioresource. These by-products are a source of polyphenolic compounds, plant fibers and—in the case of seeds—essential fatty acids with various health-promoting effects for livestock. Numerous studies involving fast-growing broiler breeds—which often suffer from metabolic inflammation and oxidative stress due to disproportionate breast muscle growth leading to issues like cardiorespiratory insufficiency—indicate that supplementing feed with grape by-products improves performance, particularly weight gain and feed efficiency. This literature review demonstrates that the performance-enhancing effects of grape by-products in fast-growing broiler breeds can be attributed to various mechanisms such as improved nutrient digestibility, a positive influence on intestinal morphology and integrity, the favorable modulation of the microbial community in the gut, the inhibition of oxidative stress or the enhancement of the antioxidant defense system, and the stimulation of the immune response. Full article

The growing demand for sustainable and effective cosmetic ingredients has prompted renewed interest in winemaking by-products. Among these, grape stem (GS) extract remains relatively underexplored despite its rich content of phenolic compounds distinct from those found in more commonly studied grape seeds or skins. This study validates the potential of GS extract as a novel bioactive component in cosmetic cream formulations. Rich in antioxidant, antiaging, and depigmenting compounds—such as resveratrol, catechins, and phenolic acids—GS extract was incorporated into creams at concentrations ranging from 0.33% to 6.25%. The formulations were evaluated for physicochemical characteristics, texture, rheological behaviour, and biological activity. The results demonstrated that GS extract enhanced total phenolic and flavonoid content, as well as viscosity, firmness, and antioxidant capacity—although not always in a concentration-dependent manner. All formulations maintained appropriate pH values and microbiological stability. Accelerated stability tests (40 °C, 75% RH, 3 months) identified the 0.83% to 1.64% concentration range as the most stable, preserving phenolic content, viscosity, and bioactivity. Higher extract levels, in contrast, led to reduced formulation stability, coalescence, and diminished antioxidant performance over time. Notably, GS-enriched creams exhibited significant elastase and tyrosinase inhibition, with lower concentrations maintaining antiaging potential throughout storage. These findings not only demonstrate that the incorporation of GS extract into a cosmetic base preserves its biological functionality but also reinforce the unique value of grape stems as an untapped resource for cosmetic innovation. Overall, the study advances current knowledge by establishing formulation parameters for a stable, effective, and sustainable cream based on grape stem extract. Further studies are recommended to optimize extract concentration and investigate encapsulation strategies for enhanced bioactive delivery and long-term stability. Full article

Grape (Vitis vinifera L.) is one of the most extensively cultivated crops in temperate climates, with its primary fate being wine production, which is paired with a great generation of grape pomace (GP). GP contains a plethora of antioxidant phenolic compounds, being well-known for its high content of various tannins, liable for the astringency of this fruit. Winemaking produces a great mass of by-products that are rich in tannins. Grape seed (GSd) and pulp waste, as well as leaves and stems (GSt), are rich in condensed tannins (CTs), while its skin (GSk) contains more flavonols and phenolic acids. CTs are polymers of flavan-3-ols, and their antioxidant and anti-inflammatory properties are well-accounted for, being the subject of extensive research for various applications. CTs from the diverse fractions of grapefruit and grapevine share similar structures given their composition but diverge in their degree of polymerization, which can modulate their chemical interactions and may be present at around 30 to 80 mg/g, depending on the grape fraction. Thus, this prominent agroindustrial by-product, which is usually managed as raw animal feed or further fermented for liquor production, can be valorized as a source of tannins with high added value. The present review addresses current knowledge on tannin diversity in grapefruit and grapevine by-products, assessing the differences in composition, quantity, and degree of polymerization. Current knowledge of their reported bioactivities will be discussed, linking them to their current and potential applications in food and feed. Full article

This study investigates the production of stable ingredients with high bioactive compound content from agri-food wastes. For the valorization process, high-pressure thermal treatment (HPTT) at different temperatures (65, 75, and 85 °C) at 600 MPa for 5 min was applied to three by-products. These HPTTs were compared with conventional thermal treatments (TTs) carried out at the same temperatures and durations. The by-products studied were red pepper (RP) (Capsicum annuum), red wine pomace (RWP) from Tempranillo, and white wine pomace (WWP) from Cayetana, Pardina, and Montúa. Winemaking by-products presented higher fiber content compared to RP (RP 1.94%, RWP 38.14%, and WWP 34.46%). In RP, the color parameters such as lightness (L*) and redness (a*) were not significantly affected by HPTT or TT, and the total phenolic content (TPC), total carotenoid content (TCC), and antioxidant activity (ABTS) remained stable with the HPTT. The RWP and WWP were more sensitive to the HPTT, producing important color changes and reducing the bioactive compounds. Color (especially redness) showed positive correlations with TPC and ABTS, which could serve as a predictive indicator. Our study shows that HPTT can significantly improve the valorization of RP and winemaking by-products like pomace, leading to the production of a stable food ingredient characterized by high bioactive compound content. Full article

Grape seeds are a major by-product of the winemaking industry and a great source of bioactive compounds such as polyphenols and proteins. These compounds have a wide range of applications including those in nutraceutical products and cosmetics and within the wine industry itself. Subcritical water extraction (SWE) was explored as a global method to valorize grape seed by-products for their different bioactive compounds in the context of waste valorization, green chemistry (solvent-free extraction), and circular economy. A Box–Behnken design was applied to generate mathematical responses and the ANOVA analysis determined the optimal extraction conditions (pressure, temperature, and time of extraction) for different responses such as total polyphenol content (TPC), antioxidant activity (AA), and total protein (Tprot). Extraction temperature was found to be the most significant factor influencing all responses while pressure had no significant impact on them. Optimal conditions were derived from the mathematical models for each response. For polyphenol extraction, the optimal conditions were as follows: 170 °C and 20 bar for 39 min with 288 mg GAE/g DM. To achieve the highest AA, SWE parameters should be set at 165 °C and 20 bar for 51 min with 332 mg TROLOX/g DM. For the extraction of proteins, it is necessary to work at 105 °C and 20 bar for 10 min (78 mg BSA/g DM) to preserve protein functionality. In comparison, conventional solvent extraction was unable to outperform SWE with values under the SWE results. Given the high content of polyphenols found in the extracts, an HPLC analysis was conducted. The following compounds were detected and quantified: protocatechuic acid (7.75 mg/g extract), gallic acid (6.63 mg/g extract), delphinidin chloride (1.44 mg/g extract), catechin (0.36 mg/g extract), gentisic acid (0.197 mg/g extract), and some epicatechin (0.07 mg/g extract). Additionally, Maillard reaction products (MRPs) were detected at high temperatures, with 5-hydroxymethylfurfural (5-HMF) appearing in extracts processed at 165 °C and above. The presence of MRPs, known for their antioxidant and bioactive properties, may have contributed to the increased AA observed in these extracts. These findings are significant because a solvent-free extraction process like SWE offers a sustainable approach to repurposing winemaking by-products, with potential applications in the wine and food industries. Full article

The complex dynamics between oxygen exposure, sulphur dioxide use, and wine quality are of the utmost importance in modern winemaking. While SO₂ acts as an effective antiseptic and antioxidant, its excessive use raises health concerns, prompting stricter regulations (Council Regulation EC No. 1493/1999; Commission Regulation EC No. 1622/2000) and increasing interest in natural alternatives. In this context, Bioma SA developed plant-based additives derived from vineyard by-products rich in phenolic compounds to replace SO₂ in vinification. This study has evaluated the impact of these additives on the inorganic elemental composition of Sangiovese wines, comparing traditional sulphite-based vinification with the Bioma-based alternative. Using triple quadrupole ICP-MS, 23 elements were quantified and analysed via ANOVA and principal component analysis (PCA). The results revealed significant effects of the vinification protocol and ageing method on key elements such as Mn, Rb, Sr, Ni, and As. Importantly, all toxic elements, Pb (≤5.9 µg/L), Cd (≤0.3 µg/L), and As (≤12.1 µg/L), remained well below EU safety thresholds. PCA further highlighted distinct elemental profiles between traditional and Bioma wines. These findings confirm that Bioma additives enable the production of wines with reduced sulphur content and compliant elemental safety, supporting their potential as sustainable, health-conscious alternatives in modern oenology. Full article

High-yielding farm animals often face severe metabolic stress, compounded by environmental stressors such as psychosocial stress, heat stress, intensive housing systems, and poor hygiene management. These factors result in oxidative stress and inflammatory processes, which adversely affect both animal health and performance. Polyphenols are known to alleviate both oxidative stress and inflammatory responses. Since grapes are rich in polyphenols, by-products of winemaking could have beneficial effects on these processes. This review aims to provide an overview of the potential antioxidative and anti-inflammatory effects of grape by-products in farm animals. The first section of the review examines the causes and consequences of oxidative stress and inflammation. The second section highlights the general effects of polyphenols in addressing these issues. The third and central part of the review presents an overview of findings from studies investigating the impact of various grape-derived polyphenols on the antioxidant system and inflammation in pigs, chicken, and cattle. Overall, these studies demonstrate that grape by-products can effectively reduce oxidative stress and inflammation in pigs and chickens, often leading to improved performance. In cattle, however, fewer studies have been conducted, and the results regarding oxidative stress and inflammation are less consistent. In conclusion, grape by-products represent valuable feed options for preventing oxidative stress and inflammation in monogastric farm animals (pigs, chickens). Full article

To enhance the nutritional value of food products, new functional extruded products have been developed based on combinations of corn and lentil flour (70:30), with added salt (1.25%), sugar (5%), and resistant starch V (5–20%), and fortified winemaking by-products (fermented and unfermented pomace/pomace seeds) (5–20%). The formulations were processed through a 32 mm twin screw extruder. The developed extrudates were analyzed for bioactive content. The findings show that among the experimental formulations, those with the highest concentration (20%) presented the greatest amounts of the following functional compound total dietary fiber, total arabinoxylans, resistant starch, total phenols, total flavonols, and total anthocyanins, and the lowest content of raffinose and stachyose. These study results indicate that extrusion is an effective method for adding value to underutilized commodities, such as winemaking by-products. A future sensory evaluation study will be conducted on the extruded products with the highest amount of winemaking by-products of 20%. Full article

Mangifera indica L. by-products obtained by three extraction methods from three cultivars (Keitt, Sensation and Gomera-3) were tested for their antibacterial properties against 20 bacterial species. These species were selected based on their relevance to winemaking processes (Acetobacter, Gluconobacter and Gluconacetobacter), fermented meat products (Staphylococcus) and human diseases (Pseudomonas, Escherichia, Shigella and Klebsiella). All mango by-product extracts showed antimicrobial activity in agar diffusion and broth microdilution experiments. However, differences in antimicrobial activity against acetic acid bacteria were detected between the peel extracts obtained from the two extraction processes. Furthermore, a wide range of minimum inhibitory concentration (MIC) data were found; Staphylococcus spp. (10 species) showed MICs between 1.0–240 mgGAE/mL and Acetobacter spp. (4 species) showed MICs between 1.7 and 200 mgGAE/mL. The most sensitive bacteria belonged to the staphylococcal species (MIC: 1 mgGAE/mL) and the most resistant was Gluconacetobacter saccharivorans (MIC > 400 mgGAE/mL). In general, there was no significant correlation between the phenolic compounds identified and the MIC values. The minimum bactericidal concentration (MBC) revealed that the mango extracts had a bacteriostatic effect. A simple and reliable method for the determination of MIC and MBC in microdilution assays with acetic acid bacteria was described. These results highlight the antibacterial properties of mango by-products against species associated with food spoilage microorganisms and human diseases. Full article

This study compared yogurts containing coffee (cascara and silverskin) and wine-making (pomace, skin, and seed) byproduct extracts as novel ingredients. For this purpose, the analysis of the sensory acceptance, basic information on phytochemical profile, and health-promoting properties of novel yogurt formulations were carried out. The antioxidant (ORAC, ABTS, DPPH, and intracellular ROS), antidiabetic (α-glucosidase inhibition), and anti-inflammatory (NO assay) properties of the yogurts depended on the type of byproduct extract and concentration used. Among the studied formulations, coffee cascara yogurt showed a high sensory acceptance (6.96), high overall antioxidant capacity (significantly higher (p < 0.05) values of TPC and antioxidant capacity measured by ORAC, ABTS, and DPPH than control yogurt), the best antidiabetic properties (inhibition of α-glucosidase activity of 83%), and a significant (p < 0.05) anti-inflammatory effect used as an ingredient at a final concentration of 10 mg/mL of food. The antioxidant and antidiabetic properties of cascara yogurt were also observed after in vitro digestion, which may be ascribed to unidentified bioactive compounds such as metabolites of phytochemicals and proteins generated during the physiological process. Overall, we developed a healthy, tasty, and sustainable coffee cascara yogurt containing antioxidant and antidiabetic compounds, which may be bioaccessible for their in vivo effects. The cascara yogurt can be consumed by the general public since the caffeine concentration in the food is within the recommended range for all population groups and it does not seem bioaccessible after the digestion of the food. Full article

Heavy metal and pesticide contaminations represent significant environmental and health hazards to humans and animals. Toxic heavy metals such as lead (Pb), cadmium (Cd), mercury (Hg), and copper (Cu) persist in the environment, bioaccumulating in beverages and food products from both natural and anthropogenic sources. Traditional remediation techniques, such as chemical precipitation and ion exchange, are effective but often costly and challenging to apply at a large scale. In recent years, grape pomace—a winemaking by-product rich in bioactive compounds—has emerged as a promising, low-cost biosorbent for the removal of such pollutants. Its high adsorption capacity, environmental friendliness, and availability make it a strong candidate for water and food decontamination processes. This study evaluates grape pomace and its biochar as sustainable biosorbents for heavy metal removal from water and soil, examining their adsorption efficiency, adsorption mechanisms, environmental benefits, advantages, limitations, and perspectives for future industrial-scale applications. Full article

A solid phase microextraction (SPME) method coupled with liquid chromatography (LC) and fluorescence/ultraviolet-diode array detection was developed for the simultaneous determination of quercetin and trans-resveratrol. The chromatographic, detection, and SPME extraction/desorption conditions were systematically optimized. The performance of four commercial SPME fibers—polyacrylate (PA), polyethylene glycol (PEG), polydimethylsiloxane (PDMS), and polydimethylsiloxane-divinylbenzene (PDMS-DVB)—was evaluated and compared with a homemade polydopamine (PDA)-coated fiber. While all of the fibers successfully extracted the target analytes, their efficiencies varied significantly. The PA, PEG, and PDA fibers demonstrated superior performance, exhibiting wide linearity ranges (0.03–1 µg/mL (PA and PEG) and 0.06–1 µg/mL (PDA) for quercetin, 0.01–1 µg/mL for trans-resveratrol); high sensitivity (LODs of 0.01 µg/mL (PA and PEG) and 0.02 µg/mL (PDA) for quercetin, 0.003 µg/mL for trans-resveratrol); and excellent precision. Among these, the polyacrylate coating delivered the best analytical performance and was selected for further application. The optimized method was applied to analyze winemaking by-products (seeds, skins, and stalks) using SPME on ethanol-macerated extracts subjected to brief ultrasonication. Quercetin and trans-resveratrol were quantified in pomace extracts at concentrations of 104.3 ± 8.2 µg/g and 38.5 ± 4.1 µg/g, respectively. Recovery experiments confirmed the method’s accuracy, with recoveries of 99.1 ± 7.4% for quercetin and 98.5 ± 9.8% for trans-resveratrol. This study establishes a reliable, sensitive, and efficient approach for the determination of these bioactive compounds in complex matrices, with potential applications in the food and pharmaceutical industries. Full article