Search Results (4,029)

Amomyrtus luma (A. luma), a native Chilean tree species, produces fruits containing 1–3 non-edible seeds, which are typically discarded as waste during processing. This study evaluated the fatty acid composition and bioactive properties of A. luma seed oil obtained through maceration, ultrasound extraction, and Soxhlet extraction, using hexane as the extraction solvent. Fatty acid methyl esters (FAMEs) were quantified using gas chromatography–mass spectrometry (GC–MS), revealing that linoleic acid was the most abundant (79.79–80.09%), followed by oleic acid (8.89–9.18%) and palmitic acid (7.29–7.40%), with no significant differences (p < 0.05) among extraction methods. However, extraction conditions significantly influenced the concentration of bioactive compounds, including total phenolics, flavonoids, tannins, lycopene, carotenoids, and antioxidant capacity, as determined through DPPH and FRAP assays. A strong correlation was observed between polyphenol content and antioxidant activity, particularly in maceration and ultrasound extraction, whereas Soxhlet extraction favored tocopherols and carotenoids due to the thermal degradation of polyphenols. Soxhlet extraction yielded the highest oil recovery, while ultrasound extraction preserved the highest levels of bioactive compounds and antioxidant capacity. No antimicrobial activity was detected against Staphylococcus aureus and Escherichia coli. These findings underscore the key role of extraction methods in determining the nutritional and functional quality of A. luma seed oil. Given its high unsaturated fatty acid content and bioactive potential, A. luma seed oil represents a promising ingredient for cosmetic and pharmaceutical applications, while contributing to waste valorization and sustainable resource utilization. Full article

The growing demand for health-promoting and eco-friendly foods has driven interest in biofunctional dairy products. Goat milk yogurt, though nutritionally beneficial, faces sensory challenges, while antioxidant-rich spent coffee grounds (SCGs), a coffee by-product, offer sustainable enhancement potential. This study assessed the consumer acceptance of goat milk yogurt enriched with 2% and 3% SCG extract. A total of 137 untrained consumers evaluated six sensory attributes—appearance, aroma, taste, texture, coffee–yogurt balance, and aftertaste—on a five-point hedonic scale. Due to non-normal data, Wilcoxon rank-sum tests and Spearman correlations were applied. No significant differences emerged between formulations (p > 0.05). Taste, aftertaste, and aroma were strongly correlated (r > 0.65). All attributes significantly predicted purchase intent (p < 0.01), with taste as the strongest driver (OR = 2.24). Consumers aged 26–35, usually presenting health or environmental concerns, showed greater acceptance. The addition of SCG extract did not compromise sensory quality, supporting its viability as a sustainable functional ingredient. These findings present high acceptance of a newly developed eco-friendly and nutritionally beneficial product, responding to consumers’ current qualitative demands related to the food they consume. Full article

Macroalgae are valuable natural sources for bioprospection and the development of raw materials applicable to the nutrition, health, and agriculture industries. To build a basis for the sustainable use of marine organisms from the Colombian Caribbean, a preliminary study was conducted focusing on known functional compounds in two genera of macroalgae, including the species Acanthophora spicifera (Rhodophyta), Sargassum ramifolium, and Sargassum fluitans (Ochrophyta). This study included the extraction and identification of polysaccharides using ultrafiltration, nuclear magnetic resonance (¹H-NMR), Fourier-transform infrared spectroscopy (FT-IR), and size exclusion chromatography (SEC); fatty acids by gas chromatographic (GC) profiling; and phenolic composition and antioxidant activity by complementary semi-quantitative methods (ABTS, DPPH, FRAP, and ORAC assays). Carrageenan-type polysaccharides were detected in A. spicifera, while alginate and fucoidan types were found in S. ramifolium and S. fluitans; palmitic acid was the predominant fatty acid in A. spicifera and S. ramifolium, but it was not detected in S. fluitans. S. ramifolium showed the highest ABTS, DPPH, and ORAC activities and phenolic compounds, while S. fluitans exhibited the highest FRAP activity. This study contributes to the chemical knowledge on Colombian macroalgae to establish potential applications in various fields, including biomedicine, cosmetics, functional foods, and nutraceutical ingredients. Full article

Breastfeeding women require specific nutrition to support the quality and secretion of breast milk, which can be achieved through the development of analog rice. Several potential alternatives to develop analog rice, including sago and corn flour, can be developed with the addition of moringa leaf powder due to its high nutritional composition and bioactive compounds, particularly high protein, iron, phytosterols, and flavonoids, which are suitable for breastfeeding women. However, as a new product, besides considering its nutritional value, developing the preferred and acceptable formulation of analog rice remains challenging. This research aims to gain the best formulation and investigate the physicochemical and sensory properties. Three formulations of analog rice were applied in this study utilizing extrusion technology, comprising sago, corn flour, and moringa leaf powder in ratio variations as follows: A, 60:37:3; B, 70:25:5; C, 80:10:10. Overall, the analog rice produced had a green color, a sticky texture, a distinct moringa aroma, and a slightly bitter taste, with Formulation C being most preferred (overall organoleptic value of 2.5, categorized as neutral), containing 6.22 ± 0.83% moisture, 1.04 ± 0.07% ash, 4.08 ± 0.17% protein, 0.46 ± 0.09% fat, 88.21 ± 0.59% carbohydrate, 3.42 ± 1.54% crude fiber, 382.62 ± 3.75 Kcal, 40.12 ± 13.38 ppm iron, 1.09 ± 0.05% sitosterol, 1.16 ± 0.03% stigmasterol, and 0.19 ± 0.07% flavonoid levels. The analog rice provides high energy and lactation-supporting bioactive compounds (iron, phytosterols, and flavonoids), demonstrating potential as a sustainable dietary intervention. This study offers a novel approach through the development of extruded analog rice, which transforms local ingredients into a functional food targeting maternal nutritional gaps by synergizing sago, corn flour, and moringa leaf powder. Full article

Nut-based plant beverages are gaining recognition for their functional properties and nutritional value in bakery applications. This study evaluated the effects of substituting water with hazelnut (BH), walnut (BW), and almond (BA) beverages in wheat bread formulations at four substitution levels (25–100%). Thirteen bread variants, including a control, were produced using the straight dough method. The impact of substitution on dough performance, crumb structure, texture, color, physicochemical composition, and sensory attributes was evaluated. All nut beverages improved bread yield, with BA100 and BW100 showing the highest values. Crumb moisture was well retained, and baking losses were reduced in some high-substitution variants. Medium-sized pores (0.1–0.9 mm²) dominated crumb structure, particularly in almond-enriched breads, which contributed to desirable loaf volume and crumb elasticity. Walnut beverage significantly darkened the crumb due to natural pigments, while BA and BH maintained lighter tones and enhanced yellowness. Nut-based beverages increased ash and fat content, with BW breads showing the highest caloric values—mainly due to beneficial unsaturated fats. Sensory evaluation confirmed high consumer acceptability, with the highest ratings observed for breads containing 100% walnut and 50–75% almond beverage. These variants demonstrated the most favorable balance of technological performance and nutritional enhancement, underscoring their potential as optimal formulations for clean-label, plant-based bread products. Full article

Phenols are natural compounds with considerable bioactivities. However, the low bioavailability and chemical instability of phenols limit their biological functions. This review summarizes recent progress in phenol delivery systems that account for the specific physiological conditions of the gastrointestinal tract. It focuses on the delivery materials for intestinal targeting and the synergistic benefits of co-encapsulating phenols with other functional ingredients. To achieve targeted release of phenols in the digestive tract, factors such as pH, digestive enzymes, and gut microbiota should be fully considered in delivery system designing. Materials like chitosan, sodium alginate, pectin, and guar gum offer effective protection and targeted delivery of phenols due to their pH sensitivity and enzyme-degradable properties. Co-delivery systems that combine phenols with carotenoids or probiotics improve the functional properties of phenols, such as antioxidant activity, anti-inflammatory effect, and regulation of gut microbiota. Probiotics can enhance phenolic compound absorption and probiotic survival in a phenolic–probiotic co-encapsulation system through debonding, bioconversion, and synergistic effects. Full article

Amelanchier alnifolia is a plant known for its nutritional and bioactive properties. Its leaves contain a high concentration of active compounds with significant antioxidant and antidiabetic effects, including strong α-glucosidase inhibitory potential. The combination of these bioactive leaf extracts with prebiotic substances, such as fructooligosaccharides (FOS), galactooligosaccharides (GOS), and chitooligosaccharides (COS), enables the development of functional systems with enhanced beneficial properties. In this study, process optimization for leaves extraction was performed using a Plackett–Burman screening design, which identified key parameters for further optimization using the Box–Behnken design. The optimal extraction conditions were determined as follows: methanol content 58.06%, solid-to-solvent ratio 26.03 m/v, and extraction time 73.56 min. These conditions yielded the highest the total phenolic content (TPC). A comparative analysis of different cultivars revealed significant variations in polyphenol content among them. The formulated lyophilized systems with GOS, FOS and COS positively influenced the chlorogenic acid release profile, while maintaining the extract’s antidiabetic and antioxidant properties. FT-IR analysis confirmed the molecular interactions responsible for these effects. The prebiotic effectiveness of the systems was quantitatively evaluated using two key parameters: the prebiotic index (PI), and the prebiotic activity score (PAS). Microbiological analyses demonstrated the beneficial effects of prebiotic-enriched systems characterized by better prebiotic action on Bifidobacterium strains than the pure extract. These findings suggest that A. alnifolia leaf extracts, in combination with prebiotics, could serve as promising functional ingredients with potential applications in health-promoting and antidiabetic formulations. Full article

This study explored the functional and pharmaceutical properties of native and modified starches derived from rice bean (Vigna umbellata) using physical (pregelatinization) and chemical (phosphorylation, carboxymethylation) modifications. Native starch (NRBS) exhibited a 27.5% amylose content. Modifications significantly influenced physicochemical characteristics. Swelling power increased from 12.25 g/g in NRBS to 16.34 g/g (pregelatinized, PGRBS) and 18.91 g/g (carboxymethylated, CMRBS), while solubility reached 53.12% in CMRBS. X-ray diffraction study estimated degrees of crystallinity of 26.5%, 19.4%, 22.8%, and 14.5% for NRBS, PGRBS, phosphate crosslinked (CLRBS), and CMRBS, respectively. Oil absorption capacity was highest in CMRBS (1.67 g/g), while its free swelling capacity reached 6.12 g/g at 37 °C. In vitro digestibility showed resistant starch (RS) contents of 11.31%, 5.49%, 17.38%, and 21.65% for NRBS, PGRBS, CLRBS, and CMRBS, respectively. Flowability and compressibility analysis demonstrated that CLRBS had the best flow (Carr’s Index: 12.16%, Hausner ratio: 1.14), while CMRBS exhibited superior tablet hardness across compression forces. These findings highlight rice bean starch, particularly in its modified forms, as a sustainable and multifunctional excipient and ingredient for food and pharmaceutical applications. Full article

Perilla seed meal (PSM) is a waste biomass of perilla seed extraction that retains flavonoid and phenolic compounds. In this study, we aimed to investigate the potential of PSM extracts (PSMEs) from Perilla frutescens (L.) Britton as a sustainable source of natural active pharmaceutical ingredients (NAPIs) containing rosmarinic acid and luteolin for promoting bone health. PSMEs were obtained through shaking incubation and ultrasonic extraction, with 40% ethanol (PS-E40) and 80% ethanol (PS-E80) being found to be the most effective solvents. The effects of PSMEs on bone formation markers were evaluated in human fetal osteoblast cells (hFOB 1.19) using bone formation parameters. The results demonstrated that PS-E40 and PS-E80 extracts significantly increased alkaline phosphatase (ALP) activity, osteocalcin (OC) production, and osteoprotegerin (OPG) levels while concurrently reducing receptor activator of nuclear factor kappa-Β ligand (RANKL) and reactive oxygen species (ROS) production in a dose-dependent manner, particularly at 100 µg/mL on day 7 and 50 and 100 µg/mL on day 14 of the co-incubation period. Moreover, Alizarin Red S staining demonstrated that PS-E40 enhanced calcium deposition in both normal and osteogenic media, further supporting the effect of PSMEs on mineralization and osteoblast differentiation. Our findings suggest that PSMEs rich in rosmarinic acid and luteolin enhance bone health by promoting osteoblast activity and reducing osteoclastogenesis. Full article

Plant-derived pharmaceuticals represent a highly compelling area of research and continue to attract significant interest from countries, regions, scientific communities, and pharmaceutical companies worldwide. Among these, α- and β-amyrins have been identified as high-value triterpenoid compounds with a broad spectrum of potential therapeutic properties, including anti-inflammatory, antidiabetic, antiatherosclerotic, analgesic, antigout, neuroprotective, anti-Parkinsonian, anticancer, antibacterial, and anti-HIV activities. Relevant information and data were obtained through comprehensive searches of major scientific databases, including Web of Science, Elsevier, and the National Library of Medicine. This study highlighted the pharmaceutical potential of α- and β-amyrins, supported by specific evidence from in vivo, in vitro, and clinical trials. Various extraction methods for α- and β-amyrins are discussed, followed by recommendations for future directions in the development of these compounds as pharmaceutical agents and functional food ingredients. This review highlights the therapeutic of α- and β-amyrin compounds in the prevention and treatment of various serious diseases worldwide, potentially opening new opportunities and directions for the pharmaceutical industry. Full article

Sustainable development and the circular economy have become key challenges in the modern food sector, calling for innovative solutions that reduce waste and promote the efficient use of resources. The aim of this study was to develop a functional food product by utilizing by-products from chokeberry processing, thereby contributing to circularity in food systems. The integration of design thinking with fermentation of chokeberry pomace is presented in this study as an approach to developing value-added food ingredients. Qualitative consumer research (focus group interviews, n = 36) identified preferences and expectations regarding functional foods containing by-products. Conducted by an interdisciplinary team, the project followed five stages, involving both qualitative and quantitative research. Liquid surface fermentation was performed using Aspergillus niger, selected for its proven ability to enhance the antioxidant capacity and polyphenol content of plant matrices. The optimal process was 2-day fermentation under controlled pH conditions with glucose supplementation, which significantly enhanced the quality and nutritional value of the final product. Antioxidant activity (ABTS, FRAP, CUPRAC assays), total polyphenols, anthocyanins, and proanthocyanidins were determined, showing significant increases compared to non-fermented controls. The outcome was the development of a dried, fermented chokeberry pomace product that meets consumer expectations and fulfils sustainability goals through waste reduction and innovative reuse of fruit processing by-products. Full article

Seeds of Cucurbitaceae crops represent a promising yet underexplored source of bioactive compounds with potential applications beyond nutrition, particularly in the cosmetics industry. This review examines the seeds of Citrullus lanatus (watermelon), Cucumis melo (melon), and Cucurbita pepo (pumpkin), focusing on their biochemical composition and evaluating their functional value in natural cosmetic development. Although these fruits are widely consumed, industrial processing generates substantial seed by-products that are often discarded. These seeds are rich in polyunsaturated fatty acids, proteins, carbohydrates, and phytochemicals, positioning them as sustainable raw materials for value-added applications. The incorporation of seed-derived extracts into cosmetic formulations offers multiple skin and hair benefits, including antioxidant activity, hydration, and support in managing conditions such as hyperpigmentation, acne, and psoriasis. They also contribute to hair care by improving oil balance, reducing frizz, and enhancing strand nourishment. However, challenges such as environmental instability and low dermal permeability of seed oils have prompted interest in nanoencapsulation technologies to improve delivery, stability, and efficacy. This review summarizes current scientific findings and highlights the potential of Cucurbitaceae seeds as innovative and sustainable ingredients for cosmetic and personal care applications. Full article

Jabuticaba (Myrciaria jaboticaba (Vell.) O. Berg) peel is a native Brazilian fruit by-product recognized for its high anthocyanin (ANC) content and strong antioxidant potential, making it a valuable natural source for food applications. This study aimed to optimize the extraction and spray drying-based encapsulation of ANCs from the peels of Sabará jabuticaba. Extraction was performed using ethanol acidified with HCl (6 M) under varying conditions of pH (1.0–3.0), temperature (14–50 °C), and solvent volume (100–250 mL). The highest anthocyanin yield (328.13 mg/100 g dry basis) was achieved at pH 1.0, 50 °C, and 250 mL solvent volume. For encapsulation, gum arabic and maltodextrin were used as wall materials at different mass ratios (1:1, 1:2, 1:3, 1:4, 2:1, 3:1, and 4:1 w/w). The 1:2 ratio (gum arabic/maltodextrin) resulted in the highest retention of anthocyanins (315.37 mg/100 g dry basis), with encapsulation efficiency of approximately 96%, low water activity (0.27), and reduced moisture content (3.6%). These characteristics are essential for ensuring product stability during storage. The optimized anthocyanin-rich microparticles present promising potential for application as natural colorants and functional ingredients in food formulations or as antioxidant carriers in pharmaceutical products. Full article

The extract of powdered raspberry pomace was characterized in terms of its phenolic profile and antioxidant and antimicrobial activity. Kuromanin, chlorogenic acid, protocatechuic acid, and pelargonidin-3-O-glucoside were found to be the major phenolic compounds, while the antioxidant activity of the extract correlated positively with the total phenolic content (TPC), which was 472.9 ± 0.1 mg GAE/g dw. The extract also showed good antimicrobial activity against Gram-positive foodborne bacteria. More importantly, in vitro bioaccessibility of phenols from the raspberry pomace extract was 5-fold higher when the extract was incorporated into meringue cookies. Although the concentrations of anthocyanins, flavonoids, and tannins decreased after the oral, gastric, and intestinal phases of digestion, the TPC slightly increased as the compounds were released from the food matrix. The content of available phenolics was 4-fold lower in the case of a commercial raspberry colorant, demonstrating that the waste from raspberry pomace could serve as a valuable health-promoting ingredient for functional food formulations. Full article

Skin aging is closely related to mitochondrial dysfunction and cell cycle abnormalities, and developing intervention strategies targeting mitochondrial quality control is an important direction for anti-aging research. In this study, we investigated the anti-aging mechanism of Camellia japonica flower (CJF) extract and its active ingredient hyperoside based on a doxorubicin (DOX)-induced endogenous senescence model in human skin fibroblasts (HSFs). LC-MS proteomics analysis revealed that CJF extract and hyperoside specifically activated the FUNDC1-mediated mitochondrial autophagy pathway, significantly ameliorated the DOX-induced decrease in mitochondrial membrane potential and the accumulation of reactive oxygen species (ROS), and alleviated the cellular S-phase blockade and reversed the high expression of senescence-associated β-galactosidase (SA-β-gal). Further studies showed that the two cleared damaged mitochondria by enhancing mitochondrial autophagy and restoring cellular energy metabolism homeostasis while promoting type III collagen and elastin synthesis and repairing the expression of Claudin 1 related to skin barrier function. For the first time, the present study reveals the molecular mechanism of CJF extract in delaying skin aging by regulating the FUNDC1-dependent mitochondrial autophagy pathway, which provides a theoretical basis and a candidate strategy for developing novel anti-aging agents targeting mitochondrial quality control. Full article