Search Results (68)

Prickly pear (Opuntia ficus-indica (L.) Mill.) generates substantial agro-industrial by-products, such as press cake, seed, and oil, that remain underexploited despite their recognized phytochemical richness. This study reports the systematic optimization, characterization, and bioactivity profiling of flavonoid-rich extracts recovered from these three matrices. A Box–Behnken design (BBD) coupled with response surface methodology (RSM) was applied to optimize the ultrasound-assisted extraction (UAE) of total flavonoid content (TFC) from press cake using a natural deep eutectic solvent (NADES: fructose–glycerol–sorbitol–water and FGSH), selected through an initial screening of fifteen solvent systems. The quadratic polynomial model showed excellent fit (R² = 0.9852; R²adj = 0.9687; MAPE = 1.31%; Durbin–Watson = 1.857), and optimal extraction conditions were established at 37.6 min extraction time, 35.6% ultrasonic power, and 29.4 °C, yielding a maximum predicted TFC of 54.78 ± 0.49 mg quercetin equivalents (QE)/mL. HPLC-DAD analysis of the press cake extract revealed five isorhamnetin derivatives as the dominant flavonoids, with isorhamnetin-3-O-glucoside (23.18 ± 0.12 mg/g DW) and isorhamnetin-3-O-rutinoside (13.80 ± 0.28 mg/g DW) as the most abundant. Comprehensive bioactivity assessment demonstrated significant antioxidant capacities (CUPRAC: 191.35 ± 3.22 µM AAE; ORAC: 184.44 ± 3.44 µM TE; DPPH: 103.47 ± 9.98 µM TE for press cake extract), potent in cellulo ROS/RNS suppression in a yeast UV-stress model (85.9 ± 1.0% inhibition for press cake), and differential tyrosinase inhibition across fractions (press cake: 32.8%; seed: 57.5%; oil: 83.8%), highlighting the oil as a potent anti-melanogenic ingredient. In silico safety prediction (ProTox-II/pkCSM) confirmed the favorable toxicity profiles of all identified isorhamnetin derivatives (LD₅₀ > 5000 mg/kg; Toxicity Class V). These results collectively position Opuntia ficus-indica by-products as high-value natural sources of bioactive flavonoids with applications in cosmetic, nutraceutical, and dermatological formulations. Full article

The valorization of agro-industrial by-products is of increasing importance within circular economy strategies. Aronia melanocarpa pomace, a by-product of juice production, represents a valuable source of polyphenols with potential applications in food, nutraceutical, and cosmetic formulations. This study aimed to evaluate the effect of different preservation methods on the polyphenolic composition of Aronia pomace and to optimize accelerated solvent extraction (ASE). Pomace samples were subjected to drying, freeze-drying, freezing (−18 °C), and deep freezing (−80 °C). UAE was applied as a rapid screening method for polyphenol extraction, while ASE was used as an advanced technique for efficient recovery of target compounds. ASE parameters, including temperature (40–120 °C), methanol concentration (40–100%), and number of extraction cycles (1–3), were optimized using response surface methodology (RSM) based on a Box–Behnken design. Qualitative and quantitative analyses were performed using UHPLC–MS and HPLC–DAD. The developed models were statistically significant (p < 0.01) with high coefficients of determination (R² = 0.88–0.97). Temperature had a positive effect on phenolic acid extraction but negatively affected anthocyanins due to thermal degradation. Optimal extraction conditions differed between compound groups: phenolic acids were maximized at 120 °C and 75% methanol (two cycles), while anthocyanins required milder conditions (82 °C, 92% methanol, three cycles). Moreover, our study showed that drying significantly reduced the content of several compounds, particularly anthocyanins, whereas low-temperature methods had minimal impact. The results highlight the importance of tailored extraction strategies and support the sustainable utilization of Aronia pomace as a source of bioactive compounds. Full article

Pomegranate marc is a major, underutilized juice industry by-product rich in lipophilic polyunsaturated fatty acids—notably conjugated α-linolenic acids (CLnAs)—and hydrophilic polyphenols with potent antioxidant and anti-inflammatory properties. Despite its potential for nutraceutical, cosmetic, and pharmaceutical applications, this matrix remains largely unexploited. This study presents a novel, sequential in-line extraction strategy combining supercritical CO₂ (ScCO₂) and subcritical water (scW) to recover complementary bioactive fractions. Both extraction steps were optimized via Response Surface Methodology (RSM). Box–Behnken optimization of ScCO₂ (43 MPa, 76 °C, 6.4 L min⁻¹, 124 min) yielded 30 g kg⁻¹ dry weight (dw) of oleoresin, achieving a 68% recovery of total oil. Subsequent scW extraction was optimized at 149 °C, with a 40 L kg⁻¹ water-to-solute ratio and 73 min extraction time, yielding 47 g kg⁻¹ dw of total phenolics (58% recovery). Strong agreement between experimental and predicted values confirmed the robustness of the models. Comprehensive profiling revealed a diverse phytocomplex including fatty acids, tocopherols, flavonoids, soluble sugars, and polysaccharides. Antioxidant assays confirmed that both γ-tocopherol and polyphenols significantly contribute to the extracts’ bioactivity. To improve physical handling, the aqueous fractions were converted into solid dispersions via spray drying with maltodextrin. Preliminary in vitro biological assessments on HEK-293 (human embryonic kidney) and MCF-7 (Michigan Cancer Foundation-7) cell lines suggested that the maltodextrin-based formulations may modulate the cytotoxic profile compared to the free extract, with exploratory results showing dosage-dependent variations in cell viability across the two lines. This work suggests a potentially scalable and sustainable biorefinery approach for the integral valorisation of pomegranate marc, offering a basis for a pathway to produce solvent-free bioactives. Full article

The growing demand for healthier lipid alternatives has driven interest in oleogels as promising substitutes for the conventional saturated and trans fats in foods systems. In this context, this study explores the formulation and characterization of oleogels based on avocado oil (Persea americana var. Lorena) and monoglycerides, as an alternative to conventional saturated fats. Hydraulic compression was used to extract the oil, and the formulation was optimized using a Box–Behnken experimental design, evaluating the effects of temperature (70–90 °C), monoglyceride concentration (4–8%), and heating time (15–45 min) on oil retention capacity (ORC) and firmness. Results showed that temperature and concentration significantly influenced ORC and firmness, while heating time had no relevant effect. The optimal formulation achieved 85.95% ORC, 1.09 N firmness, and superior oxidative stability (41.71 h vs. 10.80 h in pure oil, Rancimat test). The obtained oleogel exhibited good mechanical and thermal properties, with an elastic-dominant rheological profile and higher oxidation resistance compared to unmodified avocado oil. These findings indicate that the avocado oleogels structured with monoglycerides have potential applications in the food and cosmetic industries, although further improvements in structural stability are recommended to broaden their range of applications. Full article

Adipose-derived mesenchymal stem cells (AD-MSCs) secrete various growth factors that activate skin cells. This study investigated the effects of crude extracts and isolated compounds, hitorin A and hitorin B, from Chloranthus quadrifolius on AD-MSCs. The crude extract and hitorins A and B obtained from C. quadrifolius promoted cell proliferation. Furthermore, they suppressed the accumulation of excessive lipid droplets and reduced the expression of peroxisome proliferator-activated receptor γ, CCAAT/enhancer-binding protein alpha, and adiponectin. The extract and hitorins A and B increased the expression of stemness marker genes, including SRY-box transcription factor 2, homeobox protein NANOG, and octamer-binding transcription factor 4. For anti-aging effects, the crude extract and hitorins A and B significantly inhibited senescence-associated-β-galactosidase activity and the gene expression of p16, p21, and p53 under hydrogen peroxide-induced oxidative stress. Additionally, they suppressed the production of intracellular reactive oxygen species and the gene expression of interleukin-6 and interleukin-8. These findings indicate that crude extracts and hitorins A and B derived from C. quadrifolius suppress excessive adipogenic differentiation, promote cell proliferation while enhancing stem cell characteristics, and reduce oxidative stress-induced cellular aging through antioxidant and anti-inflammatory activities. These results suggest that they are effective cosmetic ingredients for skin rejuvenation and anti-aging. Full article

Background: Piper nigrum L. (PNL) is a rich source of piperine, a bioactive alkaloid with pharmaceutical, cosmetic, nutritional supplement, and agricultural applications, yet efficient and sustainable extraction methods remain underexplored. Methods: This study compared ultrasonic bath extraction (UBE) and ultrasonic probe extraction (UPE) using natural deep eutectic solvents (NADES) for isolating piperine from PNL fruits. Six NADES formulations were screened, with NADES-5 (choline chloride:glycerin:urea, 1:1:1) showing superior performance. Response surface methodology with a Box–Behnken design optimized extraction parameters, including liquid-to-solid ratio, extraction time, temperature, and water content, for both UBE and UPE. Results: Optimized UPE consistently outperformed UBE, yielding 49.97 mg/g of piperine versus 25.67 mg/g under identical NADES conditions. Comprehensive characterization using TLC, HPTLC, UV, FTIR, Raman, HPLC, NMR, XRD, SEM, and EDX confirmed the successful isolation and structural integrity of piperine, with samples obtained via UPE exhibiting higher purity (98.7% vs. 95.2%) and enhanced crystallinity. In vitro cytotoxicity assays demonstrated that piperine extracted by UPE showed stronger activity against C2C12 myoblasts (IC₅₀: 24.3 μg/mL vs. 40.6 μg/mL) and greater anticancer effects in MCF-7 and HT-29 cells compared to piperine extracted by UBE. Antioxidant evaluation via DPPH, ABTS, FRAP, and TAC assays, along with intracellular reactive oxygen and nitrogen species suppression in THP-1 and RAW 264.7 macrophages, further confirmed the superior biological potential of the UPE-derived piperine sample. Conclusions: These findings indicate that UPE using NADES is a sustainable approach for high-yield piperine extraction with enhanced purity and bioactivity, supporting its potential for pharmaceutical applications. Full article

Medicinal plants play an essential role in the food, pharmaceutical, and cosmetic industries due to their ability to prevent and treat diseases. In this study, a three-factor, three-level Box–Behnken experimental design (BBD) with response surface methodology (RSM) was used to maximize the conditions of ultrasound-assisted extraction (UAE) of bioactive compounds from matico and chacruna leaves in terms of total extraction yield (TEY), total phenolic content (TPC) and antioxidant activity (AA) using ABTS and DPPH assays. The effect of methanol concentration (X1: 25%, 50%, and 75%), time (X2: 3, 6, and 9 min), and power (X3: 90, 270, and 450 W) was evaluated as independent variables. The experimental results were fitted to second-order polynomial models, and multiple regression analysis and analysis of variance were used to determine the suitability of the models, using which 3D response surface plots were generated. Considering the multivariable optimization, the best extraction conditions were 73.68% v/v methanol, 9 min, 269.32 W for matico, and 64.84% v/v methanol, 3 min, 344.44 W for chacruna. Under these conditions, the maximum value of 18.33 and 20.83% for TEY, 7.16 and 40.86 mg GAE/g dm for TPC, 56.88 and 526.38 µmol TE/g dm for DPPH were predicted for matico and chacruna, respectively. Practical Applications: This research focused on the modeling by response surface methodology (RSM) of Ultrasound-Assisted Extraction of bioactive compounds from matico and chacruna, Peruvian plants used in traditional medicine. The methodologies used allow the maximization of bioactive extraction, which presented a high recovery of phenolics with high antioxidant activity. These results highlight the use of Amazon plants in traditional medicine and their possible use in other industries such as cosmetic or food safety. Full article

Actinomycetes, especially Streptomyces, are prolific producers of bioactive metabolites, including pigments with potential applications in foods, textiles, cosmetics, and pharmaceuticals. Motivated by increasing concerns about the safety and environmental impact of synthetic pigments, this study aimed to optimize the production of an extracellular pigment-rich fraction from Streptomyces parvulus and to evaluate its bioactivities relevant for cosmeceuticals. A Plackett–Burman design was used to identify key variables influencing metabolite production, followed by optimization with a Box–Behnken design. The pigment-rich fraction was obtained after extraction with ethyl acetate from lyophilized supernatants and chemically characterized by IR and LC–MS. Biological assays were conducted to assess anti-tyrosinase, immunomodulatory, and antimicrobial activities. Temperature, incubation time, and agitation speed were identified as the most significant factors, with optimal conditions of 30 °C, 50 rpm, and 7 days yielding a pigment concentration of 465.3 μg/mL. LC–MS analysis revealed three 1,4-naphthoquinone-containing compounds, annotated as juglomycin Z (1), WS-5995B (2), and naphthopyranomycin (3), as the main constituents. The pigment-rich fraction showed modest anti-tyrosinase activity (10.9% at 300 μg/mL), immunomodulatory effects (TNF-α inhibition up to 36.9% and IL-10 stimulation up to 38.4% in macrophages), and antimicrobial activity against Staphylococcus epidermidis (15.8 mm inhibition halo, 91% growth reduction). The optimized fermentation model enhances pigment yield while reducing resource consumption, and the pigment-rich fraction exhibits multifunctional bioactivities, underscoring its potential as a natural cosmeceutical ingredient. Full article

A high-performance liquid chromatography (HPLC) method using a diode array detector (DAD) was developed and validated for the simultaneous quantification of chlorogenic acid, rutin, and isoquercitrin, which are key bioactive compounds in Cudrania tricuspidata leaves. The method demonstrated excellent specificity, precision, and accuracy in accordance with the guidelines of the International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use (ICH). Calibration curves showed outstanding linearity (r² > 0.99), with recovery rates of 101.63%, 101.81%, and 102.18% for chlorogenic acid, rutin, and isoquercitrin, respectively. The limits of detection (LOD) were 0.286, 0.411, and 0.201 μg/mL, and the limits of quantification (LOQ) were 1.246, 0.866, and 0.608 μg/mL for chlorogenic acid, rutin, and isoquercitrin, respectively. Additionally, response surface methodology (RSM) based on a Box–Behnken design was employed to optimize the extraction conditions of the three marker compounds. The second-order regression models showed high coefficients of determination (r²) and significant ANOVA results (p < 0.05). RSM analysis revealed that extraction temperature and ethanol concentration exerted the most significant effects on the extraction yields, while extraction time played a supportive role. The optimal conditions (70 °C, 40% ethanol, 120 min) significantly enhanced compound recovery while reducing solvent and energy consumption, thereby contributing to the development of efficient and sustainable extraction processes. Collectively, the validated HPLC-DAD method and the optimized extraction strategy developed in this study provide a reliable framework for the quality standardization and industrial application of C. tricuspidata leaf extracts in functional food, cosmetic, and pharmaceutical products. Full article

Background/Objectives: Natural products, especially plant metabolites, play a crucial role in drug development and are widely used in medicine, cosmetics, and nutrition. The present review aims to provide a comprehensive overview of the pharmacological profile of Glycyrrhizin (GL), with a specific focus on its molecular targets. Methods: Scientific literature was thoroughly retrieved from reputable databases, including Scopus, Web of Science, and PubMed, up to 30 July 2025. The keywords “glycyrrhizin” and “glycyrrhizic acid” were used to identify relevant references, with a focus on pharmacological applications. Studies on synthetic analogs, non-English publications, non-pharmacological applications, and GL containing crude extracts were largely excluded. Results: Glycyrrhizin, the major bioactive constituent of Glycyrrhiza glabra, exhibits diverse pharmacological activities, including anti-inflammatory, antiviral, hepatoprotective, antitumor, neuroprotective, and immunomodulatory effects. These actions are primarily mediated through the inhibition of high-mobility group box 1 (HMGB1) and the modulation of key signaling pathways, including nuclear factor kappa B (NF-κB), mitogen-activated protein kinase (MAPK), phosphoinositide 3-kinase/protein kinase B (PI3K/Akt), and various cytokine networks. As a result of its therapeutic potential, GL-based formulations, including Stronger Neo-Minophagen C, and GL-rich extracts of G. glabra are commercially available as pharmaceutical preparations and food additives. Conclusions: Despite its therapeutic potential, the clinical application of GL is limited by poor oral bioavailability, metabolic variability, and adverse effects such as pseudoaldosteronism. Hence, careful consideration of pharmacokinetics and safety is essential for translating its therapeutic potential into clinical practice. Full article

Vitis vinifera L. cultivar, “Assyrtiko”, is a famous grape variety native to Santorini island. Its wine production residues are rich in bioactive polyphenols, making them valuable for extraction and use in cosmetics. The aim of this work was the development and optimization of an extraction process from “Assyrtiko” Wine Production Residue (AWPR), using a Natural Deep Eutectic Solvent (NaDES) as the extraction medium. Four NaDESs were synthesized and screened for the extraction, and the extracts were evaluated for Total Phenolic Content (TPC) and Total Flavonoid Content (TFC). The NaDES comprising betaine and 1,3-propanediol was chosen for further analysis because of its effectiveness as an extraction solvent. The extraction process was optimized using a Box–Behnken experimental design. The NaDES %w/w content in the NaDES/water system was found to play the most statistically significant role in the quality of the extracts, assessed via TPC and TFC values. The quality of the extract obtained from the optimal conditions was practically stable with respect to TPC and TFC after long storage, suggesting that NaDESs have a potential “protective” effect for the extracted phytochemicals and give energy-efficient character to the process. This extract was also directly incorporated into a moisturizing cosmetic formulation, which remained homogeneous and stable after testing, demonstrating the extract’s potential for cosmetic applications. Full article

Ulva sp. is a fast-growing, widely distributed marine alga with significant potential across various sectors, yet it remains underutilised. This study optimised pressurised liquid extraction (PLE) to obtain high-value fractions from Ulva biomass. Using a Box–Behnken design and response surface methodology, the effects of sulfuric acid concentration, temperature, and extraction time on yield, reducing sugars, total carbohydrates, and phenolic content were evaluated. Optimal conditions were identified as 110 °C, three 15 min cycles, and 3.6% sulfuric acid. Under these parameters, the extract yielded 46.9 g/100 g dry weight (DW), with 244.0 mg of reducing sugars/g DW, and 15.4 mg GAE/g DW, aligning with model predictions. The hydrolysate supported fermentation by Lactiplantibacillus plantarum, resulting in a growth of ~9 log CFU and the production of 3.3 g/L of lactic acid within 48 h. The antioxidant capacity remained stable post-fermentation, with CUPRAC, DPPH, and ABTS values of ~52, 38, and 18 mg TE/g DW, respectively. This work demonstrates the effectiveness of PLE in extracting valuable compounds and the feasibility of microbial fermentation of the extracts. This integrated approach highlights the potential of Ulva biomass and offers a platform for further applications in food, cosmetics, and nutraceuticals. Full article

Corn residues are an abundant and low-cost lignocellulosic feedstock that provides a renewable carbon platform for the production of biofuels, bioplastics, and high-value aromatic volatile compounds (AVCs). Isoamyl alcohol, an important AVC, has applications in the food, cosmetics, and biofuel industries. This study evaluated the bioconversion of corn cob acid hydrolysates by Meyerozyma guilliermondii into isoamyl alcohol and ethanol. Corn cob was selected as feedstock due to its high hemicellulose content. A Box–Behnken (BBD) design was used to optimize phosphoric acid hydrolysis. The optimal treatment (2.49% v/v H₃PO₄, 130 °C, 120 min, 1 mm particle size) generated 19.79 g L⁻¹ xylose with 2.74 g L⁻¹ acetic acid. Then, agitation speed and nitrogen concentration were optimized via a central composite design (CCD) in synthetic and hydrolysate-based media fermentations. Isoamyl alcohol specific yield after 48 h of fermentation was higher in hydrolysate medium (12.08 ± 0.67 mg·g⁻¹) than in synthetic medium (8.274 ± 0.83 mg·g⁻¹). Free amino nitrogen (FAN) and intracellular protein analyses revealed higher nitrogen consumption in synthetic media fermentation and greater biomass production in acid hydrolysate media. In addition to isoamyl alcohol (33 mg·L⁻¹), and ethanol (10.18 g·L⁻¹), 1-butanol (61.2 mg·L⁻¹), 1-propanol (13.25 mg·L⁻¹), and acetaldehyde (14.88 mg·L⁻¹) were produced. These results demonstrate the potential of M. guilliermondii to convert corn cob into value-added products. Full article

Pomegranate (Punica granatum L.), is renowned for its bioactive compounds, offering significant potential in cosmetic applications due to its antioxidant, anti-inflammatory, and antimicrobial properties. This study presents a sustainably sourced cosmetic ingredient developed by enriching pomegranate seed oil with peel powder using optimized ultrasonication, followed by encapsulation in alginate nanobeads and integration into a minimalist hydrogel formulation. A Box–Behnken experimental design was employed to optimize ultrasonication parameters (15 min, 90% power, 202 mg/mL powder-to-oil ratio), yielding an enriched PSO with significantly enhanced total phenolic content (TPC: 69.23 ± 1.66 mg GAE/g), total flavonoid content (TFC: 61.09 ± 1.66 mg QE/g), and robust DPPH antioxidant activity (78.63 ± 3.81%). The enriched oil exhibited enhanced oxidative stability (peroxide value: 5.75 ± 0.30 meq O₂/kg vs. 50.95 ± 0.07 meq O₂/kg for neutral oil), improved fatty acid profile, and significant anti-inflammatory (IC₅₀ = 897.25 µg/mL for NO inhibition) and antibacterial activities. Alginate nanobeads (432.46 ± 12.59 nm, zeta potential: −30.74 ± 3.20 mV) ensured bioactivity preservation, while the hydrogel maintained physicochemical and microbial stability over 60 days under accelerated conditions (40 ± 2 °C, 75 ± 5% RH). This multifunctional formulation, integrating sustainable extraction, advanced encapsulation, and a minimalist delivery system, represents a highly promising natural ingredient for anti-aging and antioxidant cosmetic applications. Full article

Bixin, an apocarotenoid from Bixa orellana seeds, is a valuable natural pigment with industrial and pharmacological applications. Traditional extraction methods rely on organic solvents, but eco-friendly alternatives like silk fibroin solution (SFS) are emerging. This study evaluated SFS for bixin extraction from annatto seeds, optimizing conditions using Box-Behnken Design (BBD). The optimal parameters 1.5% SFS, 60 °C, and 60 min yielded 10.87 mg/mL (liquid extract of annatto seeds, LEAS + SFS) and 150.72 mg/g (solid extract of annatto seeds, SEAS + SFS). Cell viability was assessed in human dermal fibroblasts (HDFn) and RAW 264.7 murine macrophages via MTT assay. After 24 and 72 h, LEAS + SFS, SEAS + SFS, purified bixin (PB), and SFS maintained >70% viability in HDFn cells. Similarly, RAW 264.7 cells showed >70% viability after 24 h, indicating low cytotoxicity. These results highlight the biocompatibility of SFS-extracted bixin, supporting its potential in food, cosmetics, and biomedicine. The study demonstrates that SFS is an effective, sustainable alternative to traditional solvents, offering high extraction efficiency and minimal toxicity. This method aligns with green chemistry principles, providing a promising solution for bixin production. Full article