Search Results (2,384)

The growing interest in clean-label and naturally preserved foods has pushed the scientific community to research essential oils (EOs) as sustainable, multifunctional alternatives to chemical preservatives. These plant volatile compounds exhibit strong antimicrobial and antioxidant activities, making them promising ingredients for natural preservation. Fermented meat products, though highly nutritional, are particularly at risk of microbial spoilage and contamination by foodborne pathogens due to their complex microbiota and processing conditions. This review examines the role of EOs as natural antimicrobials in fermented meat systems, summarizing their mechanisms of action, efficiency against key pathogens, and impact on safety, shelf life, and sensory attributes. Additionally, it discusses technological challenges related to volatility, stability, and sensory alterations, and outlines mitigation strategies such as encapsulation, nanoemulsions, and controlled-release delivery systems. By critically presenting current progress and identifying research gaps such as standardization and matrix interactions, this review contributes to the development of effective, natural, and clean-label preservation strategies. These insights support innovation and sustainability in the meat processing industry by bridging the gap between antimicrobial efficacy and sensory acceptability. Full article

In the context of modern ruminant nutrition, increasing attention is being directed toward the valorization of agro-industrial by-products as alternative feed ingredients that enhance nutrient utilization efficiency while supporting the sustainability of animal production systems. Milk thistle (Silybum marianum) oilseed cake, a by-product of oil extraction, has emerged as a resource of growing interest due to its favorable nutritional profile and the presence of bioactive compounds with functional properties. This review critically analyzes recent scientific literature addressing the use of milk thistle oilseed cake in ruminant nutrition, highlighting its potential practical relevance as a functional feed ingredient. The available evidence suggests that milk thistle oilseed cake may support inclusion in ruminant diets at moderate levels; however, controlled in vivo studies remain limited, and several proposed mechanisms are inferred from studies on structurally analogous polyphenol-rich by-products rather than from milk thistle cake itself. Further research is needed before precise inclusion recommendations can be established. Special attention is given to the bioactive fraction dominated by the silymarin complex, which may interact with rumen digestive and fermentative processes, influencing nutrient utilization efficiency and oxidative stability. Overall, the findings suggest that milk thistle oilseed cake represents a promising feed resource that aligns with sustainable and efficiency-oriented feeding strategies in modern ruminant production systems. Full article

The enrichment of chocolate with healthy beneficial ingredients represents an effective strategy to create functional food with high nutritional and bioactive potential. Comparisons were made between eight treatments derived by the factorial combination of 2 types of butter (milk and cocoa) and 4 concentrations of green barley powder addition (1%, 3%; 5%; and 7%), plus 2 untreated controls (milk butter and cocoa butter with no green barley powder addition), in terms of chemical, colorimetric, physical, antioxidant, mineral and sensory characteristics of white chocolate. Increasing addition of green barley to both milk and cocoa butter led to the decrease in dry matter, soluble solids, pH and fat in the produced chocolate, with the untreated controls always showing the highest values. Opposite trends were recorded for proteins, fiber, ash and mineral substances. The ‘L’, ‘a’ and ‘b’ color components gradually decreased from the untreated control to the highest concentration of barley powder addition both to milk and cocoa butter. The increasing integration of barley powder either into milk or cocoa butter resulted in the gradual decrease in F max compression and F max cutting of the chocolate manufactured, compared to the untreated control. The addition of barley powder to milk and cocoa butter elicited a gradual increase in all the antioxidants analyzed, i.e., vitamin C, carotenes, lycopene and xanthophylls, and of chlorophyll a and b, compared to the untreated control. Vegetal flavor attributes were enhanced by the increasing addition of green barley powder. The latter incorporation into milk and cocoa butter sheds light on the interesting topic of conceiving and applying the manufacture of innovative functional chocolate with high content of fiber, nutrients and antioxidants. Full article

Turmeric has a long history of use as a colorant and flavoring agent. Turmeric extract (TE) is a feed additive containing at least 90% total curcuminoids, comprising mainly curcumin, desmethoxycurcumin and bisdemethoxycurcumin. The published antioxidant effects of TE in humans have sparked interest and feeding studies in companion animals. Studies describing the feeding of TE to cats are scarce and do not provide adequate toxicology data; regulatory approval is required to allow use of TE as a nutritional antioxidant in pet food. The current study describes a safety test of TE in cats. Control cats were fed a standard extruded dry diet whilst two groups of test cats were fed the same diet supplemented with two different levels of TE for four months. Physical examination, body weight, body condition score, food intake, fecal score, monitoring of adverse effects (vomiting, diarrhea, clinical signs), complete blood count, and blood biochemistry (particularly liver enzymes) were used to monitor toxicity signs. The lack of statistically significant effects of clinical or toxicological concern concludes that feeding TE to cats at a dietary level providing up to 1040 ppm total curcuminoids is safe. This allows future application of this ingredient in cat food as a nutritional antioxidant. Full article

Toxicological risk assessment of food ingredients has traditionally relied on identifying a no-observed-adverse-effect level (NOAEL) or benchmark dose (BMD), followed by the application of default uncertainty factors (UFs) to derive health-based guidance values (HBGVs) such as the acceptable daily intake (ADI). While effective for conventional food additives, this approach may be inappropriate for nutrients and intrinsic food components with established physiological functions. This paper critically explores these limitations using free glutamate as a central example, alongside additional cases relevant to infant nutrition, including vitamin C, iodine, and human milk oligosaccharides (HMOs). Data on free glutamate in human milk show that breastfed infants habitually ingest amounts far exceeding additive-based ADIs without adverse effects, underscoring the limitations of applying default uncertainty factors and classical toxicological paradigms to endogenous nutrients. Comparable considerations apply to protein hydrolysates and amino acid-based infant formulas evaluated by EFSA, where growth, tolerance, and compositional suitability are integral to safety assessment. Overall, nutrient safety evaluation requires an integrative, physiology-informed framework that incorporates realistic exposure, developmental stage, and metabolic competence. Breast milk provides a biologically relevant reference, supporting a proportionate and science-based application of toxicological principles in infant nutrition. Full article

Edible insects are recognised as a sustainable, high-protein food source, yet consumption in Western diets remains limited due to cultural barriers and concerns about taste, appearance, and safety. This study explored the factors affecting the acceptance of familiar products where insects have been added as ingredients, and how purchase intent is influenced by label information. During sensory evaluation, 59 participants tested pasta-only and pasta-with-sauce samples that were presented with and without insects (controls). Results showed no significant differences in preference between insect and control samples (pasta only: p = 0.150; pasta with sauce: p = 0.193). Open-ended feedback highlighted flavour, texture, and familiarity as key drivers. Label design strongly shaped purchase intent, with participants preferring labels that combined clear allergen and ingredient information with credible nutrition and eco-certification logos. Benefit-focused price framing (protein and sustainability) significantly increased willingness to pay (p < 0.001), while prior insect consumption, age and gender had no effect. Overall, the findings show that adding insects into a well-known ready-meal format, supported by transparent labelling and benefit-based communication, has the potential to improve acceptance. This approach highlights a practical way to bring insect proteins into mainstream food systems while contributing to nutrition and sustainability goals. Full article

As global demand grows for natural health-promoting food ingredients, the agri-food industry’s organic wastes are emerging as promising alternatives thanks to attributes such as biocompatibility, nutritional value and nutraceutical effect. During saffron (Crocus sativus L.) production, approximately 53 kg of petals are obtained as a by-product for every 1 kg of saffron spice. The use of saffron petals and petal extracts in bakery products improves products’ shelf life due to the petals’ high content of nutraceuticals and minerals acting as natural preservatives. Petal-enriched bakery products contain high levels of fiber, minerals and antioxidants. Addition of saffron petals into bread dough reduces gluten network strength, increases crumb hardness, enhances acidity, improves water retention, alters color profiles and increases the duration of the shelf life. The formulation for incorporating saffron petals or petal extracts into food products must address three primary criteria: the maximum concentration of bioactive compounds per 100 g of the finished matrix, the thermal stability of these compounds during the baking process, and their bioavailability (in the food matrix) within the human gastrointestinal tract. Nutraceuticals with pharmacological potential are also influenced by the compositional profile: the proximate composition, minerals, phenolic content, flavonols, and antioxidant capacity of saffron petals and bakery products containing saffron petals. Saffron petals exhibit diverse therapeutic potentials, acting as antidepressants, anxiolytics, anticonvulsants, and neuroprotective agents. They also offer metabolic, cardiovascular, hepatoprotective, and renoprotective benefits, along with anti-inflammatory, antimicrobial, and antitumor activities. This article proposes a roadmap for developing bakery products enriched with saffron petals or petal extracts, targeting both pharmacological applications and consumer goods focused on disease prevention and general wellness. This study investigates the biochemical composition of saffron petals and their integration into bakery products. It evaluates the influence of petal-derived additives on rheological properties, shelf stability, and organoleptic characteristics, alongside an assessment of their bioactivity and toxicological profiles. Furthermore, the analytical methodologies employed for ingredient and biological sample characterization are discussed, emphasizing their role in verifying the authenticity, safety, and nutritional functionality of both raw materials and finished formulations. Full article

The generation of byproducts during the production of apple and carrot juices can negatively impact the environment. Using these byproducts as functional ingredients represents an integrated and innovative strategy for today’s food industry. This review aims to provide a comprehensive analysis of the progress made over the past decade in the applications of apple and carrot pomace in the food industry, with an emphasis on qualitative analyses (compositional, sensory, functional) in the context of promoting sustainability and resource efficiency. The main quality parameters of apple and carrot pomace and pomace powders, as well as of the composite food products in which they were incorporated, were examined with the optimal dosage. The analysis reveals the extent to which the studied powders can improve—or fail to improve—the nutritional, functional, or sensory parameters of composite products, while accounting for environmental impact and sustainable practices within the context of circular economy. It is found that the industrial reintegration of apple and carrot pomace has nutritional, functional, and bio-packaging development potential, with the main remaining challenge being the development of solutions to preserve the color and rheology of composite products. Full article

The growing demand for clean-label foods has stimulated interest in minimally processed ingredients capable of improving the nutritional and technological quality of gluten-free bakery products. Carob (Ceratonia siliqua L.) is an underutilized Mediterranean crop whose seeds are mainly used for locust bean gum production, while other fractions of the fruit remain insufficiently valorized. This study investigated the potential of carob seed flour (CSF) and the whole carob fruit flour (pods and seeds; CSPF) as natural structuring ingredients in gluten-free flatbread (GFFB), combined with sourdough fermentation. The initial technological properties (pasting profile, baking loss, specific volume, color, and texture profile) and nutritional composition were evaluated, alongside storage stability, through textural and sensory changes during 72 h. The incorporation of carob ingredients improved the nutritional profile of GFFB, nearly doubling total dietary fiber and iron content without compromising sensory acceptance. CSF use resulted in an improved pasting profile and a 50% softer crumb structure. Sourdough fermentation successfully mitigated the increased hardness and lower sensory freshness perception in CSPF formulations. Carob seed flour, as well as whole carob fruit flour combined with sourdough, represent effective natural strategies for improving the technological properties, nutritional quality, texture profile, and freshness perception of gluten-free flatbread without compromising sensory acceptability. Full article

Novel ingredients from rowanberry pomace were developed for French-type bread applications via supercritical CO₂ extraction and the enzymatic and ultrasound treatment of the defatted residue (DFR), which contained 6.367% of proteins, 8.36% of soluble, and 43.04% insoluble fiber. Proteolytic enzymes from Bacillus licheniformis and Aspergillus oryzae, and cellulolytic enzyme mixtures Viscozyme L and Celuclast, were used to increase the soluble fraction. Treating DFR with enzymes generated significant amounts of soluble substances containing oligosaccharides, fructose, and glucose, with Viscozyme L being more effective than proteases. Tri-, and tetrapeptides, chlorogenic acids, and dihydroxy coumarins were also present in the soluble extracts of fermented DFR. The antioxidant characteristics of treated DFR were evaluated by the in vitro assays. Substitution of >5% of wheat flour with untreated DFR significantly reduced bread volume and crumb porosity; however, these adverse effects were mitigated by using fermented DFR. The highest bread volume (1845 cm³) and porosity (78.38%) were observed in bread containing 5% pomace that underwent enzymatic hydrolysis and ultrasound treatment. The substitution of flour with DFR significantly increased the antioxidant characteristics of bread samples and the substances generated during the in vitro digestion. It may be concluded that rowanberry pomace ingredients may improve bread nutritional quality and assist in the sustainable use of fruit processing by-products. Full article

This research focuses on the synthesis of a novel baking powder enriched with bioactive molecules recovered from olive pomace via ultrasound-assisted extraction using a hydro-ethanolic mixture. The functional ingredient was engineered by anchoring the extracted phytocompounds onto a starch backbone through a sustainable grafting technique. Biscuits formulated with the innovative ingredient showed an increased concentration of phenolic compounds (2.162 mg GAE/g), encompassing both phenolic acids (0.372 mg GAE/g) and flavonoids (0.360 mg CTE/g). Enhanced antioxidant efficacy was recorded, mostly in aqueous media (IC₅₀ = 0.554 mg mL⁻¹ against ABTS radical) compared to organic environments (IC₅₀ = 0.132 mg mL⁻¹ against DPPH radical). Furthermore, Oxitest and oxidation stability reactor analyses revealed exceptional antioxidant capacity (induction period = 37 ± 2 h). By an accelerated shelf-life test, a marked instrumental color difference was observed with the fortified sample showing a darker, redder/brown color (ΔE > 16), as also confirmed by trained panelists. On the contrary, similar scores were achieved for the olfactory, textural and tasting attributes of the two samples, as well as values of the friability index (<1 mm⁻¹) evaluated by instrumental techniques. This approach represents a sustainable strategy, transforming a high-polluting agri-food by-product into a source of bioactive compounds for nutritional and technological improvement of baked foods. Full article

Alternative proteins and novel processing technologies are crucial to transforming contemporary food systems into ones with lower environmental impact while meeting the rising global demand for protein. Alternative protein sources from plants, microbes, insects, and cultivated cells offer diverse nutritional and techno-functional attributes that can partially or fully replace conventional animal proteins in meat analogs and related products. This review synthesizes the current knowledge on major categories of alternative protein sources, including plant-based ingredients, microbial- and fermentation-derived proteins, insect and other emerging sources, and cultivated (cell-based) meat, with a specific focus on their suitability for structured meat analog applications. Modern structuring and processing technologies are discussed, including the traditional wet and dry extrusion to modern technologies like high-moisture extrusion, high-pressure processing, shear-cell technology, 3D printing, fermentation-based structuring, and enzymatic protein modification. Furthermore, this review critically evaluates product design and quality attributes of meat analogs, including physicochemical properties, sensory performance, nutritional aspects, and safety considerations. This review highlights technological and scale-up challenges, as well as the necessity of multi-criteria optimization in sensory quality, nutrition, sustainability, and affordability, and presents research priorities focused on combining multiple protein sources and advanced processing pathways for next-generation meat analog. This review provides an integrated framework linking protein sources, processing technologies, antioxidant functionality, and sustainability considerations to support the development of next-generation meat analogs. In addition, this review highlights the intrinsic antioxidant potential of alternative proteins, emphasizing the role of bioactive peptides, polyphenols, and structure–function relationships in enhancing oxidative stability and product quality. Full article

This study evaluated the effects of dietary supplementation with goji berries (Lycium barbarum) on the nutritional profile, oxidative stability, and shelf life of rabbit meat. Thirty-two rabbits were assigned to two dietary treatments: a control diet (CN) and the same diet supplemented with 3% dried goji berries (GJ). Proximate composition and fatty acid profile of the Longissimus thoracis et lumborum muscle were determined at dissection, whereas physical, microbiological, and biochemical parameters were evaluated during refrigerated storage (4 °C; 1, 4, and 10 days) and frozen storage (−20 °C; 60 and 120 days). Dietary supplementation significantly modified the lipid profile of the meat, reducing saturated fatty acids and increasing long-chain n-3 and n-6 polyunsaturated fatty acids. During refrigerated storage, lipid peroxidation increased in both groups; however, meat from the GJ group showed significantly lower TBARS values after 10 days (0.22 vs. 0.33 mg MDA/kg; p < 0.001), indicating improved oxidative stability. Lower accumulation of total volatile basic nitrogen (TVB-N), reduced formation of biogenic amines, and slower growth of spoilage-related microbial populations, particularly Pseudomonas spp., were also observed in GJ samples. Overall, the GJ diet improved fatty acid composition and delayed degradative processes during storage, suggesting its potential as a functional feed ingredient to enhance rabbit meat quality and shelf life. Full article

Edible insects have emerged as a sustainable source of high-quality proteins, lipids, and carbohydrates (including chitin), as well as micronutrients such as minerals and vitamins, and diverse bioactive compounds, thereby making them promising ingredients for functional food applications. Their favourable nutritional profile and low environmental footprint make them attractive ingredients for next-generation food systems. However, processing and preservation remain critical challenges, particularly with respect to the stability of bioactive compounds, lipid oxidation, and protein functional properties such as solubility, emulsifying capacity, and water-holding capacity. This review critically examines recent advances in food processing technologies applied to edible insects, including drying, extraction, fermentation, and microencapsulation, with emphasis on their effects on bioactive compound retention and functional performance. The role of processing strategies in enhancing oxidative stability, protein solubility, emulsifying properties, and overall technological applicability is discussed, alongside safety, regulatory, and consumer acceptance considerations. Overall, this review highlights key technological pathways for the effective valorisation of insect-derived ingredients and outlines future directions for their integration into sustainable and functional food products. In contrast to previous reviews, this work provides a comparative and mechanism-oriented analysis of processing methods, highlighting inconsistencies across studies and identifying key technological trade-offs. Particular attention is given to the relationship between processing parameters and the stability of bioactive compounds. Full article

Dietary habits are pivotal in preventing chronic noncommunicable diseases, as vegetable-rich diets provide over 25,000 bioactive phytochemicals that modulate cell-signaling and metabolic pathways. Consequently, nutraceuticals and functional foods are increasingly recognized for their potential to prevent chronic pathologies. Among functional foods, Phaseolus vulgaris L. (common bean) stands out as a critical resource for global nutrition and disease prevention. Beyond its role in food security and environmental sustainability, the common bean offers extraordinary nutrient density, providing a unique “protein plus fiber” package and a source of health-promoting active ingredients. In this review, special emphasis is placed on the bean’s role in preventing or mitigating cardiovascular diseases and cancer, driven by bioactive molecules that modulate metabolic and cell-signaling pathways. Practical evidence of this growing interest is demonstrated by the surge in scientific literature over the last 50 years, as shown by PubMed and Scopus data. By synthesizing data from original research and existing reviews, this work highlights how incorporating common beans into the diet represents a strategic, health-conscious choice with potential therapeutic benefits for human health. Full article