Search Results (521)

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

Cannabidiol (CBD), a non-psychoactive phytocannabinoid derived from Cannabis sativa L., has emerged as a promising multifunctional agent in dermatology and cosmetic science. The review provides an updated synthesis of CBD’s topical therapeutic potential, challenges, and evolving regulatory frameworks. CBD exhibits diverse biological effects, including anti-inflammatory, antioxidant, antibacterial, analgesic, lipostatic, antiproliferative, moisturising, and anti-ageing properties through interactions with the skin’s endocannabinoid system (ECS), modulating CB1, CB2, TRPV channels, and PPARs. Preclinical and clinical evidence support its efficacy in managing acne, psoriasis (including scalp psoriasis), atopic and seborrheic dermatitis, and allergic contact dermatitis. CBD also relieves pruritus through neuroimmune modulation and promotes wound healing in conditions such as pyoderma gangrenosum and epidermolysis bullosa. In hair disorders such as androgenetic alopecia, it aids follicular regeneration. CBD shows promise in managing skin cancers (melanoma, squamous cell carcinoma, Kaposi sarcoma) and pigmentation disorders such as melasma and vitiligo. It enhances skin rejuvenation by reducing oxidative stress and boosting collagen and hydration. However, there are challenges regarding CBD’s physicochemical stability, skin penetration, and regulatory standardisation. As consumer demand for natural, multifunctional skincare grows, further research is essential to validate its long-term safety, efficacy, and optimal formulation strategies. Full article

Background: The skin microbiome plays a key role in maintaining skin health, and its composition can be influenced by cosmetic treatments. This study aimed to investigate the effects of SMART DNA Therapy treatment on facial skin microbiome composition, with specific focus on changes in commensal and pathogenic bacterial populations following multi-component anti-aging intervention. Methods: This clinical study included 10 Caucasian female participants aged 28–50 years (Clinical trial registration number: 0406/2023). Each participant received three Retix.C SMART DNA THERAPY treatments at 14-day intervals over 6 weeks. The protocol included three phases: chemical peeling with ferulic acid, peptide microinjections for DNA repair, and home-care products with antioxidants. Bacterial samples were collected from forehead and cheek skin before treatment and 2 weeks after the final treatment. Samples were analyzed using bacterial culture and PCR methods. Results: After treatment, the skin microbiome showed beneficial changes with increased numbers of helpful bacteria and elimination of harmful bacteria: complete removal of Cutibacterium acnes and Staphylococcus aureus was observed, Staphylococcus epidermidis and other beneficial bacteria increased on both forehead and cheek areas. Overall bacterial diversity decreased, and participants exhibited more similar microbiome patterns after treatment. Conclusions: SMART DNA Therapy treatment successfully modified the skin microbiome by increasing protective bacteria and eliminating pathogenic species. The treatment may support skin health through microbiome modulation and the potential antioxidant effects of its active ingredients, although these were not directly assessed in this study. Full article

Carnivorous plants have garnered attention as sources of pharmacologically active compounds, yet their floral tissues remain largely underexplored. In this study, we investigated the bioactive properties of Nepenthes miranda flower extracts prepared using water, methanol, ethanol, and acetone. Among these, the ethanol extract exhibited the highest total phenolic content (18.2 mg GAE/g), flavonoid content (68.9 mg QUE/g), and antioxidant activity (DPPH IC₅₀ = 66.9 μg/mL), along with strong antibacterial effects against Escherichia coli and Staphylococcus aureus. Cosmetically relevant enzyme inhibition assays revealed significant activity against tyrosinase (IC₅₀ = 48.58 μg/mL), elastase (IC₅₀ = 1.77 μg/mL), and hyaluronidase (IC₅₀ = 7.33 μg/mL), supporting its potential as an anti-skin aging agent. For antidiabetic evaluation, the ethanol extract demonstrated potent α-glucosidase inhibition (IC₅₀ = 24.53 μg/mL), outperforming standard inhibitors such as acarbose and quercetin. The extract also displayed marked cytotoxicity against A431 epidermoid carcinoma cells (IC₅₀ = 90.61 μg/mL), inducing dose-dependent apoptosis, inhibiting cell migration and colony formation, and causing significant DNA damage as shown by comet assay. Furthermore, the ethanol extract strongly inhibited the activity of purified human dihydroorotase (IC₅₀ = 25.11 μg/mL), indicating that disruption of pyrimidine biosynthesis may underlie its anticancer activity. Overall, this study provides the first characterization of N. miranda flower extracts, particularly the ethanol fraction, as a promising source of multifunctional bioactive compounds with possible applications in cosmetics, antidiabetic therapy, and cancer treatment. Full article

Background: The natural cosmetics market is expanding, and milk, valued for its biological properties and low toxicity, is gaining popularity as a cosmetic ingredient due to its moisturizing, anti-inflammatory, and anti-aging effects. Mare’s milk, distinct from cow’s milk, offers superior microbiological quality and potential as a luxury product, though it remains underutilized in Poland’s cosmetics industry. This study examined the hygienic quality of mare’s milk and soaps derived from it. Methods: The study was conducted on a stud farm with twenty-five mares and two stallions of the Sztumski breed, under strict hygiene and feeding standards. Physicochemical and microbiological analyses of mare’s milk and the resulting soaps included assessments of nutrient content, microbiological testing, and challenge tests conducted in accordance with ISO 11930 to evaluate antimicrobial properties and product safety. Results: The milk showed high microbiological quality, low fat (0.64–0.96%) and protein (1.70%) content, and a high lactose level (6.61%). Most soap samples were free of microbial growth, demonstrating their hygienic status and effective production decontamination. Although some preservatives showed limited efficacy against specific microorganisms, three soap samples remained resistant to contamination throughout the 28-day challenge test. Conclusions: Overall, mare’s milk soaps proved safe and stable. Improvement of their formulation could further enhance their stability and competitiveness in the natural cosmetics market. Full article

Skin aging is commonly characterized by increased wrinkles, loss of elasticity, and hyperpigmentation, significantly affecting personal appearance and quality of life. Although botulinum toxin type A (BTX-A) has been widely applied in cosmetic anti-wrinkle treatments, its intrinsic cytotoxicity limits broader clinical applications. In this study, we developed a novel exosome-based BTX-A composite delivery system designed to synergize the anti-aging properties of exosomes with the wrinkle-reducing effects of BTX-A while reducing toxicity. Human adipose-derived mesenchymal stem cells were genetically modified via lentiviral transduction to overexpress Synaptic Vesicle Glycoprotein 2C (SV2C), the receptor of BTX-A, thereby producing SV2C-enriched functionalized exosomes (EXO^SV2C). These exosomes (2.0 × 10⁷ particles/mL) were incubated with BTX-A (3 U/mL) to generate the EXO^SV2C-BTX-A complex. In vitro, EXO^SV2C-BTX-A significantly promoted the proliferation and migration of human dermal fibroblasts and effectively alleviated D-galactose (D-gal)-induced cellular senescence and collagen type I loss. These effects were superior to those observed with either BTX-A or exosomes alone. In vivo, intradermal injection of EXO^SV2C-BTX-A for 28 days markedly suppressed D-gal-induced skin aging in 8-week-old male KM mice, as evidenced by reduced malondialdehyde levels in dermal tissue, enhanced collagen type I expression, and preserved skin structure. Notably, the composite exhibited significantly lower toxicity compared to free BTX-A. Collectively, these findings highlight EXO^SV2C-BTX-A as a promising exosome-mediated BTX-A delivery platform with enhanced anti-aging efficacy and improved biocompatibility, offering a potential therapeutic strategy for skin rejuvenation. Full article

Background: Silkworm cocoons are rich in bioactive compounds beneficial for cosmetic applications. This study presented a novel approach by comparing microwave and ultrasonic pretreatments to enhance silk protein extraction efficiency. The aim was to evaluate the effects of pretreatment methods and extraction solvents on the bioactive components, physicochemical properties, and biological activities of silkworm cocoon extracts for cosmetic applications. Methods: Cocoons of Bombyx mori (Nang Lai) were pretreated using conventional soaking (12 h), microwave (3 min), or ultrasonication (30 min), and then subjected to aqueous or enzymatic extraction. The extracts were analyzed for protein, phenolic, and flavonoid content. Structural and thermal properties were characterized using infrared spectroscopy, X-ray diffraction, differential scanning calorimetry, and thermogravimetric analysis. Antioxidant and anti-aging properties were assessed by measuring the inhibition of nitric oxide, 2,2-diphenyl-1-picrylhydrazyl (DPPH^•), and collagenase. Skin moisturizing effects and irritation potential were tested. Results: Silkworm cocoons pretreated with microwave (ALM) and ultrasonication (ALS), followed by enzymatic extraction, had the highest yields (21.6 ± 0.5% and 21.7 ± 0.4%, respectively). Despite their slightly lower protein contents, these extracts showed elevated phenolic and flavonoid content. ALM and ALS demonstrated strong antioxidant activities, with DPPH^• scavenging of 65.9 ± 0.2% and 65.2 ± 0.3%, collagenase inhibition of 60.3 ± 0.8% and 59.7 ± 1.7%, and nitric oxide inhibition of 13.5 ± 0.4% and 12.9 ± 0.2%, respectively. Skin moisturizing effects increased by 63.6 ± 2.1% for ALM and 61.2 ± 1.5% for ALS, compared to 1.3 ± 0.6% in the control. All extracts were found to be non-irritating for topical application, indicating their safety for skincare formulations. Conclusions: Microwave and ultrasonication pretreatments, in combination with enzymatic extraction, provide an effective, time-efficient, and sustainable method for producing silkworm cocoon extracts with promising cosmetic applications. Full article

Crotalaria juncea L. (Fabaceae: Faboideae), traditionally used as green manure due to its nitrogen-fixing capacity, also exhibits therapeutic potential for conditions such as anemia and psoriasis. However, its cosmetic applications remain largely unexplored. This study examined the phytochemical profiles and biological activities of ethanolic extracts from the root, flower, and leaf of C. juncea, focusing on their potential use in cosmetic formulations. Soxhlet extraction with 95% ethanol was employed. Among the extracts, the leaf showed the highest total flavonoid content, while the root contained the highest total phenolic content. The root extract demonstrated the strongest antioxidant activity, as assessed by DPPH, FRAP, and lipid peroxidation assays, along with significant anti-tyrosinase and anti-aging effects via collagenase and elastase inhibition. LC-MS/QTOF analysis identified genistein and kaempferol as the major bioactive constituents in the root extract. Molecular docking confirmed their strong interactions with enzymes associated with skin aging. Additionally, the root extract exhibited notable anti-inflammatory activity. These results suggest that C. juncea root extract is a promising multifunctional natural ingredient for cosmetic applications due to its antioxidant, anti-tyrosinase, anti-aging, and anti-inflammatory properties. Full article

Resveratrol is a natural stilbene known for its wide range of biological activities, including antioxidant, anti-inflammatory, and anti-aging effects. However, its application in cosmetics and dermatology is limited by poor stability and bioavailability. Azelaic acid is a natural carboxylic acid employed in cosmetics for its tyrosinase inhibition activity and for cutaneous hyperpigmentation disorders. In this work, we report a concise chemoenzymatic procedure for the synthesis of a novel hybrid molecule combining acetylated resveratrol and azelaic acid. This methodology offers a valuable route for the development of new bioactive compounds for potential cosmetic and dermatological applications. Full article

Metagenomic studies have provided deeper insights into the complex interactions between the skin and its microbiota. However, limited research has been conducted on the skin microbiota of Brazilian women. Given that Brazil ranks as the fourth-largest consumer of cosmetics worldwide, the development of new tools to analyze skin microbiota is crucial for formulating cosmetic products that promote a healthy microbiome. Skin samples were analyzed using the Illumina platform. Biometrology assessments were applied. The results showed pH variations were more pronounced in the older age group, along with higher transepidermal water loss values. Metagenomic analysis showed a predominance of Actinobacteria (83%), followed by Proteobacteria (7%), Firmicutes (9%) and Bacteroidetes (1%). In the older group (36–45 years old), an increase in Actinobacteria (87%) was observed and a decrease in Proteobacteria (6%). Moreover, the results differ from the international literature, since an increase in proteobacteria (13.9%) and a decrease in actinobacteria (46.7%) were observe in aged skin. The most abundant genus identified was Propionibacterium (84%), being the dominant species. Interestingly, previous studies have suggested a decline in Cutibacterium abundance with aging; although there is no significant difference, it is possible to observe an increasing trend in this genus in older skin. These studies can clarify many points about the skin microbiota of Brazilian women, and these findings could lead to the development of new cosmetics based on knowledge of the skin microbiome. Full article

Aloe vera gel is a valuable raw material used in the cosmetic industry for its skin care properties. The present study analyzed the effects of the fermentation of aloe vera gel with a tea fungus kombucha, which is a symbiotic consortium of bacteria and yeast, carried out for 10 and 20 days (samples F10 and F20, respectively). The resulting ferments and unfermented gel were subjected to chromatographic analysis to determine the content of biologically active compounds. The permeability and accumulation of these compounds in pig skin were evaluated. In addition, the methods of DPPH, ABTS and the determination of intracellular free radical levels in keratinocytes (HaCaT) and fibroblasts (HDF) cell lines were used to determine antioxidant potential. The results showed a higher content of phenolic acids and flavonoids and better antioxidant properties of the ferments, especially after 20 days of fermentation. Cytotoxicity tests against HaCaT and HDF cells confirmed the absence of toxic effects; moreover, samples at the concentrations tested (mainly 10 and 25 mg/mL) showed cytoprotective effects. The analysis of enzymatic activity (collagenase, elastase and hyaluronidase) by the ELISA technique showed higher levels of inhibition for F10 and F20. The kombucha ferments also exhibited better moisturizing properties and lower levels of transepidermal water loss (TEWL), confirming their cosmetic potential. Full article

A number of marine resources have been exploited for a long time. Examples include Fucus and Laminaria, from which gelling agents are extracted. Only a few hundred thousand marine species are currently known, representing a tiny fraction of the estimated total of between 700,000 and one million species. This opens up numerous possibilities for innovation in the cosmetics industry. In this study, we present various species that are currently under-exploited, but which could have applications in hydration and photoprotection, for example. Algae and microalgae are worthy of interest because they can be used for hydration and anti-ageing purposes. Collagen can be extracted from animal sources and used as a substitute for collagen of bovine origin. From a marketing perspective, it is possible to market it as ‘marine collagen’. However, it is imperative to emphasize the significance of ensuring the sustainability of the resource. In accordance with this imperative, algae that are capable of being cultivated are distinguished by their enhanced qualities. Full article

In recent decades, there has been a marked surge in the development of marine-by-product-derived ingredients for cosmetic applications, driven by the increasing demand for natural, sustainable, and high-performance formulations. Marine animal by-products, particularly those from fish, crustaceans, and mollusks, represent an abundant yet underutilized source of bioactive compounds with notable potential in cosmeceutical innovation. Generated as waste from the fishery and seafood-processing industries, these materials are rich in valuable bioactives, such as chitosan, collagen, peptides, amino acids, fatty acids, polar lipids, lipid-soluble vitamins, carotenoids, pigments, phenolics, and mineral-based substrates like hydroxyapatite. Marine by-product bioactives can be isolated via several extraction methods, and most importantly, green ones. These compounds exhibit a broad spectrum of skin-health-promoting effects, including antioxidant, anti-aging, anti-inflammatory, antitumor, anti-wrinkle, anti-hyperpigmentation, and wound-healing properties. Moreover, applications extend beyond skincare to include hair, nail, and oral care. The present review provides a comprehensive analysis of bioactives obtained from marine mollusks, crustaceans, and fish by-products, emphasizing modern extraction technologies with a focus on green and sustainable approaches. It further explores their mechanisms of action and documented efficacy in cosmetic formulations. Finally, the review outlines current limitations and offers future perspectives for the industrial valorization of marine by-products in functional and environmentally-conscious cosmetic development. Full article

Background: Blackberry seed oil (BSO), obtained from Rubus spp. Xavante cultivar via supercritical CO₂ extraction, contains bioactive lipids and antioxidants, but its cosmetic application is limited by poor solubility and stability. Nanoencapsulation with poly(ε-caprolactone) (PCL) can overcome these limitations. Methods: BSO was characterized by Ultra-High-Performance Liquid Chromatography coupled with electrospray ionization quadrupole time-of-flight mass spectrometry and incorporated into PCL nanocapsules (NCBSO) using the preformed polymer deposition method. Physicochemical properties, stability (at 4 °C, room temperature, and 37 °C for 90 days), cytotoxicity, and collagen production were assessed in human fibroblasts. Additionally, a predictive in silico analysis using PASS Online, Molinspiration, and SEA platforms was performed to identify the bioactivities of major BSO compounds related to collagen synthesis, antioxidant potential, and anti-aging effects. Results: NCBSO showed a nanometric size of ~267 nm, low polydispersity (PDI < 0.2), negative zeta potential (−28 mV), and spherical morphology confirmed by FE-SEM. The dispersion remained stable across all tested temperatures, preserving pH and colloidal properties. In particular, BSO and NCBSO at 100 µg.mL⁻¹ significantly enhanced in vitro collagen production by 170% and 200%, respectively, compared to untreated cells (p < 0.01). Superior bioactivity was observed for NCBSO. The in silico results support the role of key compounds in promoting collagen biosynthesis and protecting skin structure. No cytotoxic effects were achieved. Conclusions: The nanoencapsulation of BSO into PCL nanocapsules ensured formulation stability and potentiated collagen production. These findings support the potential of NCBSO as a promising candidate for future development as a collagen-boosting cosmeceutical. Full article

Type I collagen is a major protein in animals, and its hydrolyzed products, collagen peptides, have wide-ranging applications. This article reviews collagen peptides’ preparation methods, biological activities, and application progress in the fields of food, cosmetics, and medicine. By employing various extraction and hydrolysis methods, collagen peptides with different molecular weights can be obtained, and their biological activities are closely related to their molecular weight and amino acid sequence. Studies have revealed that collagen peptides possess a variety of biological activities, including antioxidant, hematopoietic promotion, osteogenic differentiation promotion, antihypertensive, and anti-diabetic effects. In the food industry, their antioxidant and hypoglycemic properties have opened new avenues for the development of healthy foods; in the cosmetics field, the moisturizing, anti-aging, and repair functions of collagen peptides are favored by consumers; in the medical field, collagen peptides are used in wound dressings, drug carriers, and tissue engineering scaffolds. Looking to the future, the development of green and efficient preparation technologies for collagen peptides and in-depth research into the relationship between their structure and function will be important research directions. The multifunctional properties of collagen peptides provide a broad prospect for their further application in the health industry. Full article