Search Results (645)

The skin barrier is essential for maintaining the body’s internal homeostasis and protecting against harmful external substances; its impairment may cause different dermatological diseases. Algae compounds are used for skin care with the aim of preventing skin aging, improving hydration, and protecting against environmental aggressors. In this context, it can be assumed that these compounds (polysaccharides, lipids, phenols, etc.) may serve to strengthen the skin barrier, and therefore, the purpose of this review is to test this hypothesis. This review surveys the literature on the potential of algae-derived compounds in skin care, focusing on skin barrier repair, hydration, and emollience. From the review of published studies, it can be concluded that polysaccharides, phenols, carotenoids, and extracts from macro and microalgae can indeed be effective in skin barrier maintenance and recovery after injuries. Full article

Introduction: Major manifestations of facial skin aging include the loss of firmness and elasticity, the appearance of wrinkles, and various pigmentary changes. Mesotherapy—both needle and microneedle-based—is a commonly chosen procedure that effectively revitalizes and stimulates the skin. The aim of this study was to compare the effectiveness of both techniques in reducing the signs of skin aging using a product containing fragmented hyaluronic acid and an amino acid complex. Materials and Methods: The study included 20 female participants aged 35–60 years who underwent a series of four treatment sessions in a split-face design. One side of the face was treated with needle mesotherapy, while the other side received microneedle mesotherapy. In each session, 5 mL of a preparation containing fragmented hyaluronic acid, glutathione, stabilized vitamin C, and an amino acid complex was administered. Skin parameters (hydration, pH, sebum level, erythema, and pigmentation), photographic documentation, participants’ subjective evaluations, and pain scores were assessed. Results: Both techniques led to significant improvements in skin condition. Microneedle mesotherapy was more effective in enhancing hydration, regulating sebum and pH, and was better tolerated in terms of pain. Needle mesotherapy demonstrated greater efficacy in reducing pigmentation. Patient satisfaction was high in both groups. Conclusions: Both needle and microneedle mesotherapy are effective treatments for aging skin, although their mechanisms of action differ. The choice of technique should be tailored to the individual needs of the skin and the expectations of the patient. Full article

Contact dermatitis is a common inflammatory skin disorder characterized by erythematous and pruritic lesions caused by irritant exposure. Ohwia caudata, a traditional medicinal plant, possesses anti-inflammatory and antioxidant properties, but its dermatoprotective potential remains unclear. To investigate the protective effects and mechanisms of Ohwia caudata leaves’ hydroethanolic extract in a murine model of TPA-induced contact dermatitis. Major phytochemicals in Ohwia caudata extract were identified by HPLC–MS. SKH1/J hairless mice were topically treated with Ohwia caudata extract following TPA stimulation. Skin barrier function was assessed by transepidermal water loss and hydration. Inflammatory (IL-6, TNF-α, TGF-β), antioxidant (SIRT1, Nrf2, HO-1), and ERK-related (p-ERK, eIF2α, ATF-4, CHOP) proteins were analyzed by immunoblotting and immunofluorescence. HPLC–MS revealed harmine, swertisin, isoliquiritigenin, eupatilin, 3′,4′-dimethoxyflavone, and nerolidol as key constituents. The extract significantly reduced transepidermal water loss and enhanced hydration, indicating improved barrier integrity. It downregulated IL-6 and TNF-α while restoring TGF-β expression. ERK and downstream eIF2α/ATF-4/CHOP activation were suppressed, whereas SIRT1/Nrf2/HO-1 antioxidant signaling was enhanced. Ohwia caudata leaves hydroethanolic extract protects against TPA-induced dermatitis by improving skin barrier function, suppressing inflammation, and activating antioxidant defense, supporting its potential as a natural therapeutic for inflammatory skin diseases. Full article

Atopic dermatitis (AD) is a chronic inflammatory skin condition that affects up to 25% of children and impairs both skin barrier function and quality of life. This study examined the effectiveness of an emulgel containing hyaluronic acid, glycerol, grape seed oil, Calendula officinalis, aloe vera and sh-oligopeptide-1 (a synthetic Epidermal Growth Factor) for treating paediatric AD. In a randomised, self-controlled trial, 57 children (aged 2–14) applied the emulgel twice daily for 10 days to one forearm and left the other forearm as a control. Skin barrier parameters such as transepidermal water loss (TEWL), stratum corneum hydration (SCH), erythema and pH were measured. After applying the emulgel, lesional skin showed reduced erythema (p = 0.007), lower TEWL (p = 0.002) and higher SCH (p < 0.001). Non-lesional skin showed improved SCH (p < 0.001). SCORing Atopic Dermatitis (SCORAD) and Eczema Area and Severity Index (EASI) scores indicated milder disease post-treatment (mild cases: 64.9% to 80.7% SCORAD; 82.5% to 93.0%EASI). The Dermatology Life Quality Index improved by ~3.5 points, and patients reported high satisfaction with no adverse effects. This emulgel is an effective and well-tolerated adjunctive therapy for paediatric AD, enhancing barrier function and clinical outcomes. Full article

Mycosporine-like amino acids (MAAs) are multifunctional, UV-absorbing and antioxidant metabolites produced by marine algae, offering promising applications in biotechnology and dermocosmetic sciences. In this study, MAAs were sustainably extracted from nori seaweed (Porphyra spp.) using an ultrasound-assisted aqueous method, an eco-friendly approach that ensures efficiency and industrial scalability. Chromatographic enrichment followed by MALDI-TOF mass spectrometry confirmed the presence of bioactive compounds, including porphyra-334, palythine, and myc-ornithine. The enriched fraction exhibited potent antioxidant activity (low IC₅₀ in DPPH and ABTS assays) and significant anti-elastase effects, highlighting its potential as a natural anti-aging agent. To optimize delivery, MAAs were incorporated into a stable water-in-oil nanoemulsion, which maintained droplet sizes below 400 nm and a low polydispersity index (PDI < 0.2) for up to four months. A randomized, double-blind clinical study in 20 volunteers further demonstrated that the MAA-based nanoemulsion significantly improved skin hydration (+53.6%) and reduced transepidermal water loss (TEWL), confirming its humectant and barrier-strengthening efficacy. These findings position Porphyra spp. as a sustainable marine resource for producing MAAs, and demonstrate their practical potential as natural, multifunctional ingredients in eco-conscious cosmetic and pharmaceutical formulations. Full article

Natural deep eutectic solvents (NaDES) represent novel biodegradable green extraction solvents obtained from natural metabolites such as sugars and organic acids. NaDES-based extracts have demonstrated better performance in in vitro assays compared to those obtained using conventional solvents. In this study, extracts of bilberry leaves (BL), bilberry fruits (BF), and green tea leaves (TL) were prepared using the following NaDES, respectively—malic acid + glycerol (MG), citric acid + sorbitol (CS), and tartaric acid + sorbitol (TS), whose formation was confirmed via FTIR spectroscopy. With the aim to evaluate the effect of gels loaded with NaDES extracts on skin biophysical parameters 2 h prior their application, as well as their anti-irritation potential against sodium lauryl sulfate–induced irritation, an in vivo study involving human volunteers was conducted. The results indicated that all extract-loaded gels exhibited notable anti-irritation potential, reducing artificially induced irritation and improving elevated skin parameters including transepidermal water loss (TEWL), erythema index (EI), and pH. The ΔTEWL at CS–BF site was 8.20 ± 0.34, while at TS–TL was 5.63 ± 0.30. The short-term efficacy study revealed increased skin hydration across all treated sites, preservation of skin pH within physiological limits, and reduction in EI at the site treated with TS–TL gel. Further in vivo studies are planned for confirming long-term skin effects. Full article

Skin compatibility is a common issue and can often be worsened by certain ingredients in cosmetics. This is why developing well-balanced and -tolerated formulas is now an essential challenge. In this work we developed a cream rich in antioxidant, soothing, and moisturizing agents complying with concentration limits for sensitive skin. An initial optimization was carried out, and the best-performing formula was fully characterized to test its rheological properties under static or dynamic conditions and product safety. The formulation proved to be highly stable even under thermal stress, as shown by Turbiscan Lab analyses, which reported backscattering values ±2. Rheological tests also indicated a solid-like behavior with reduced viscosity at skin temperature of 32 °C, confirming the good spreadability of the cream. Finally, in vivo tests on healthy volunteers showed excellent safety results and good overall appreciation of the product. No changes in transepidermal water loss (7.9 ± 3.5 vs. 5.5 ± 0.4, p > 0.05), skin hydration (44.2 ± 18.6 vs. 50.5 ± 14.1, p > 0.05), or color were detected within 6 h from application, compared with baseline values. Moreover, volunteers highlighted the cream’s suitability for dry skin and expressed satisfaction with spreadability, a nourishing and hydrating sensation after application, and the absence of residues, consistently rating them ≥4 in the skin feeling questionnaire. These results are promising and support the potential use of the product on sensitive skin. Full article

Despite its remarkable moisturizing properties, the inherently high viscosity of high-molecular-weight hyaluronic acid (HA) restricts its practical application in skincare products, cosmetic formulations, and skin-contact medical devices. To overcome this limitation, we propose the incorporation of branched structures into HA to create a branched HA hybrid (bHH) by chemically coupling low-molecular-weight HA (200 kDa) with high-molecular-weight HA (700–2500 kDa). The introduction of branched structures into the HA backbone alters the viscosity of high-molecular-weight HA while preserving its moisturizing potential. Branching reduces the solution viscosity of linear HA, particularly at higher polymer concentrations. In this study, the moisturizing efficacies of branched and linear HAs were extensively evaluated. Branched HA demonstrated equivalent or superior moisturizing effectiveness compared with linear HA and even significantly enhanced the water-binding capacity over simple mixtures of linear HAs. These findings suggest that introducing branched structures can effectively reduce the solution viscosity of linear HA without compromising its moisturizing properties, thereby improving the usability and hydration performance of skincare products and skin-contact devices. Full article

Skin aging is a complex biological process influenced by both intrinsic factors such as hormonal changes, genetic programming, and immunosenescence and extrinsic stressors including ultraviolet (UV) radiation (particularly UV-A and UV-B), pollution, and lifestyle habits. One of the most prominent manifestations of skin aging is wrinkle formation, which arises from the progressive degradation of key extracellular matrix (ECM) components like collagen and elastin. Emerging evidence highlights the skin microbiome as a critical, yet underappreciated, modulator of these structural changes. This review summarizes current understanding of how aging alters skin structure and microbial composition, and how these changes contribute to wrinkle development. Age-associated skin is characterized by reduced hydration, sebum production, and barrier integrity, accompanied by a shift in microbial communities. These microbial shifts promote local inflammation, matrix metalloproteinase (MMP) activation, and oxidative stress, all of which accelerate ECM degradation. We further discuss how commensal microbes and their bioactive products such as probiotics and postbiotics can counteract wrinkle formation. Clinical studies support the efficacy of strains such as Lactobacillus plantarum HY7714 and Bifidobacterium breve in improving skin elasticity and reducing wrinkle depth. Additionally, this review highlights the emerging role of microbiome-based interventions in skincare, including oral supplements, topical formulations, and postbiotic-enriched products. Overall, we emphasized the therapeutic potential of microbiome modulation as a novel strategy for maintaining skin health and preventing wrinkle formation during aging. Full article

This study evaluated the potential of chicken by-products (hearts, gizzards, and skin) as functional raw materials for protein–fat emulsions to partially replace animal fat in pâtés. Five variants of pâté (PV1–PV5) were prepared, including a control without emulsion and four samples with increasing emulsion levels. Emulsions were formulated from chicken by-product mixtures and vegetable oil with potato starch, sodium bicarbonate, and salt to improve solubility and viscosity. The chemical composition of by-product mixtures varied with organ ratio: heart-rich mixtures supplied higher protein, supporting emulsion stability, whereas skin-rich mixtures contributed more fat for texture. Emulsion composition ranged from 6.6–8.1% protein, 19.1–28.4% fat, and 56.7–66.9% moisture. Functional properties depended on formulation balance: water-holding (58–67%), fat retention (70–83%), emulsifying capacity (50–62%), and stability (47–55%). Variant 5 achieved the most favorable combination of composition, stability, and viscosity. In pâtés, emulsion addition reduced protein and fat but increased ash and carbohydrate contents (p < 0.05), improving hydration and stability. Fat retention rose up to 83% and emulsion stability up to 62%. Drip loss declined markedly from 9.2% in the control to 3.6% in Variant 5, while yield stress decreased by 25%, producing softer, more spreadable products. Sensory evaluation favored emulsion-containing samples, with PV-5 scoring highest in texture and appearance. TBARS values rose with the amount of emulsion due to higher PUFA, but acid numbers increased more slowly, indicating reduced hydrolytic rancidity. Overall, pâté with 25% of emulsion offered the best balance of technological performance, sensory quality, and lipid stability, highlighting chicken by-products as sustainable emulsifiers in pâté production. Full article

Background: Contemporary dermatology and cosmetology continue to explore effective strategies for normalizing the function of oily skin, where excessive sebum production and impairment of the hydrolipid barrier pose considerable therapeutic challenges. The aim of the present study was to evaluate the effects of a series of microneedling mesotherapy treatments with a sebum-regulating ampoule on selected biophysical parameters of the skin in individuals with oily skin. Methods: The study included 19 female volunteers aged 18–42 years, who underwent six treatment sessions at three-week intervals. Skin parameters were assessed at baseline, after three sessions, and after six sessions using the MPA system (Courage & Khazaka) equipped with the following probes: Corneometer (hydration), Sebumeter (sebum secretion), pH meter (surface pH), Glossymeter (skin shininess), and Tewameter (transepidermal water loss). Results: After six sessions, hydration significantly increased both in the T-zone (from 43.9 ± 8.0 to 54.0 ± 5.4 AU; +23%) and on the cheeks (from 35.9 ± 8.3 to 55.6 ± 4.8 AU; +55%) (p < 0.001). Sebum secretion decreased markedly, with values in the T-zone falling from 192.2 ± 30.6 to 127.7 ± 27.2 AU (−34%) and on the cheeks from 185.0 ± 36.2 to 114.8 ± 30.1 AU (−38%) (p < 0.001). Skin surface pH showed minor but significant modulation within the physiological range (T-zone: 6.33 ± 0.64 → 6.01 ± 0.17; cheeks: 6.14 ± 0.50 → 6.03 ± 0.17; p = 0.021). TEWL demonstrated a nonsignificant change (T-zone: 17.46 ± 11.31 → 19.09 ± 3.54 g/m²/h; cheeks: 20.89 ± 5.36 → 18.37 ± 2.95 g/m²/h; p > 0.05), while skin gloss remained stable (T-zone: 5.46 ± 1.25 → 5.60 ± 1.16 GU; cheeks: 5.29 ± 1.76 → 4.87 ± 1.20 GU; p > 0.05). Conclusions: Microneedling mesotherapy combined with a sebum-regulating ampoule significantly improved skin hydration and reduced sebum secretion, accompanied by stabilization of skin surface pH. Although changes in TEWL and gloss were not statistically significant, the overall results indicate improved skin condition and balance. Despite the absence of a control group, these findings support the potential of this combined approach as an adjunctive therapy for oily skin. Further controlled studies with larger cohorts are warranted to confirm its efficacy and long-term effects. Full article

Background: Ultraviolet B (UVB) radiation accelerates skin aging by inducing oxidative stress, collagen degradation, and cellular senescence. Although Petasites japonicus is known for its antioxidant properties, its anti-photoaging potential remains underexplored. This research explored the protective properties of a hot water extract from P. japonicus leaves (KP-1) against photoaging caused by UVB exposure. Methods: Hairless mice were exposed to UVB three times per week and orally administered KP-1 for 13 weeks. Wrinkle formation, epidermal thickness, skin hydration, and collagen content were assessed. Protein expression related to MAPK/AP-1, TGF-β/Smad2/3, and p53/p21 pathways was analyzed by Western blotting. Results: KP-1 significantly reduced UVB-induced wrinkle area, epidermal and dermal thickening, and transepidermal water loss while restoring collagen density and skin hydration. KP-1 inhibited MMP-1 expression, enhanced COL1A1 levels, suppressed MAPK/AP-1 activation, and activated TGF-β/Smad2/3 signaling. It also balanced p53/p21 expression and restored cyclin D1 and CDK4 levels, thereby preventing UVB-induced senescence. Conclusions: The findings of this research revealed that KP-1 can serve as a promising natural substance for safeguarding the skin from damage and aging caused by UVB exposure. Full article

Background/Objectives: The skin is a protective barrier against pathogens such as herpes simplex virus type 1 (HSV-1), which causes recurrent and highly prevalent skin infections worldwide. The increasing resistance of HSV-1 to conventional treatments has driven the search for new therapeutic alternatives. In this context, the essential oil of Lippia graveolens (EOL) has demonstrated promising antiviral activity; however, its high volatility limits direct skin application. To overcome this, polymeric nanoparticles (NPs) loaded with EOL were developed to improve its availability and antiviral efficacy. Methods: Nanoformulations were prepared by nanoprecipitation, and their antiviral activity against HSV-1 was evaluated using the plaque reduction assay. The effect of the nanoformulations on skin barrier integrity was assessed using an ex vivo porcine skin model and non-invasive techniques. Results: The NP-EOL exhibited physicochemical properties favorable for skin deposition, including a particle size around 200 nm, a polydispersity index of ≤ 0.2, and negative zeta potential. Moreover, NP-EOL showed 1.85-fold higher antiviral activity against HSV-1 compared with free EOL, while also reducing cytotoxicity in Vero cells. Conclusions: Results demonstrated that the NPs promoted skin hydration without altering pH or transepidermal water loss, suggesting they do not disrupt skin homeostasis. This study supports the potential of NP-based systems as effective topical delivery vehicles for EOL, representing a promising therapeutic alternative against HSV-1 skin infections. Full article

Food waste from fish processing contributes significantly to environmental pollution, and fish skin is often discarded despite being a rich collagen source. This study evaluated the efficacy and consumer satisfaction of a ready-to-drink collagen supplement made from hydrolyzed collagen derived from seabass skin. The compositional analysis of this study revealed α-amino groups, hydroxyproline, and amino acids essential for skin elasticity, hydration, and tissue repair. A 30-day clinical trial was conducted in 36 Thai volunteers who were aged between 20 to 70 years, and their skin condition was assessed using a facial skin analyzer and a moisture analyzer on days 0, 15, and 30. Participants also completed self-perception and sensory satisfaction questionnaires. The results showed improved skin moisture, reduced pore size, and smoother skin texture. Participants reported high satisfaction, especially regarding increased moisture and skin smoothness. Sensory score evaluation showed favorable scores for color and taste; however, odor was the least preferred attribute with the lowest score. Notably, no adverse effects were reported throughout this study. The findings suggest that fish skin-derived collagen supplements can enhance skin appearance while offering a sustainable approach that converts fish by-products into functional skincare solutions aligned with global sustainability goals. Full article

Background/Objectives: Assessing the hydration status (HS) in geriatric patients remains challenging due to multimorbidity, polypharmacy, and cognitive impairment. Common indicators like reduced skin turgor and dry mucous membranes are unreliable. The Hydr-Age-Study is a prospective observational pilot study with a post hoc analysis to evaluate the diagnostic accuracy of clinical, laboratory, and instrumental methods to assess HS in hospitalised older adults. Methods: Upon admission, patients underwent an assessment including their medical history, a clinical evaluation, laboratory tests, ultrasound examination, and bioimpedance analysis. These data were collected and independently reviewed by two experts who diagnosed each patient’s current HS. This diagnosis served as the clinical reference standard for evaluating the diagnostic accuracy of each method. Results: Twenty-six methods were examined, of which four achieved an AUC > 0.8. Axillary dryness showed a high diagnostic accuracy for hypohydration (AUC = 0.854), with a sensitivity of 83.3% and a specificity of 82.8%. Inferior vena cava (IVC) ultrasound effectively detected both hypo- and hyperhydration. A subxiphoid IVC diameter ≤ 1.95 cm identified hypohydration with 90.9% sensitivity and 50.6% specificity. For hyperhydration, a diameter of ≥2.15 cm provided strong diagnostic performance in both subxiphoid and transcostal views. Conclusions: Axillary dryness and IVC sonography demonstrated the highest diagnostic accuracy. No other methods exceeded an AUC of 0.80. In the absence of a gold standard, a structured clinical consensus provides a feasible and reproducible approach to establish a clinical reference standard. These findings may contribute to the development of a standardised assessment protocol in geriatric medicine. Full article