Search Results (100)

Geraniin is the major compound in Nephelium lappaceum peel and exhibits significant immunomodulatory effects. So, this study aimed to evaluate the anti-inflammatory effects of Nephelium lappaceum peel extract and geraniin through in vitro experiments and clinical trials. In vitro, inflammatory responses were induced using UV, IR, SDS, LPS, and RA, followed by treatment with the Nephelium lappaceum peel extract and geraniin. The results demonstrated significant reductions in inflammatory cytokines, indicating potent anti-inflammatory properties. Based on these promising results, clinical trials were conducted to assess the effects of the Nephelium lappaceum peel extract on skin barrier function using various irritants, including IR, UV, SDS, Retinol, and tape stripping. Measurements of transepidermal water loss and erythema were performed to evaluate the extract’s protective effects. The results indicated that Nephelium lappaceum peel extract effectively mitigated skin barrier damage and reduced erythema, confirming its potential as a skin-soothing and anti-inflammatory agent. This study suggests that Nephelium lappaceum peel extract, rich in bioactive compounds such as geraniin, can be utilized in the development of cosmetic products aimed at reducing skin inflammation and protecting against environmental irritants. Full article

Background: Sensitive skin exhibits impaired skin barrier function. The lipid composition of the skin, a pivotal element within the stratum corneum’s “brick-and-mortar” structure, plays a dual role: it is integral to cell differentiation processes and serves as a vital nutrient reservoir for cutaneous microbiota, thereby influencing the skin’s microecological balance. There is a notable research gap concerning the comparative analysis of physiological parameters and lipid profiles among individuals with sensitive dry skin (SDS), sensitive oily skin (SOS), and healthy skin (HS). Methods: A total of 95 females (18–25 years) were grouped: SDS (n = 32), SOS (n = 31), and HS (n = 32). Stratum corneum water content, oil content, and TEWL were measured. Lipids from sebaceous glands and stratum corneum (tape-stripping) underwent UPLC-QTOF-MS analysis. Differential lipids were identified via OPLS-DA, volcano plots, and LMSD. Results: In terms of physiological indicators, notable disparities emerged in oil content and stratum corneum water content between the SOS and both the HS and the SDS. Sensitive skin, whether dry or oily, displayed a higher transepidermal water loss (TEWL) value than healthy skin, reflecting a declined state of skin barrier function. Regarding the sebum samples, the relative percentages of sphingolipids (SP) and glycerophospholipids (GP) were significantly higher in SDS. Regarding the stratum corneum samples, the percentages of SP in SDS were significantly higher. Conclusions: This study, for the first time, conducted a comprehensive analysis of the skin’s physiological properties, lipidomics of sebum, and stratum corneum lipids among groups with SDS, SOS, and HS. These observations indicate a profound association between skin barrier dysfunction in SDS individuals and, in particular, sphingolipids (SP). Full article

The etiopathogenesis and treatment response of sensitive skin remain poorly understood. We used 4-tert-butylcyclohexanol (4-TBLH) and 1% pimecrolimus ointment to treat sensitive skin in mice models constructed using tape stripping, propylene glycol, and capsaicin. This study aimed to further investigate the sensitivity and responsiveness of this sensitive mouse skin model. Sensitivity and responsiveness were assessed by measuring transepidermal water loss (TEWL), skin hydration, skin flakes, vascular dilatation, itching, stinging, and histological changes, including mast cell, lymphocyte, and granulocyte infiltration, tumor necrosis factor-α (TNF-α) expression, and transient receptor potential vanilloid 1 receptor (TRPV1) expression. The application of 4-TBLH and pimecrolimus revealed distinct responses in skin sensitivity indicators, including TEWL, capillary dilation, and mass cell activity, depending on the treatment timing and substance used. The prophylactic and therapeutic applications of 4-TBLH revealed distinct responses in skin sensitivity indicators, including skin flakes, TEWL, itching, stinging, epidermal thickness, mast cell activity, TNF-α, and TRPV1 expression. The prophylactic and therapeutic applications of pimecrolimus ointment revealed distinct responses in skin sensitivity indicators, including skin flakes, skin water content, itching, epidermal thickness, mast cell activity, CD45, CD11b, TNF-α, and TRPV1 expression. The mouse sensitive skin model demonstrates robust sensitivity and responsiveness to different treatment factors, and the model can be applied to the development of prophylactic and therapeutic medications for sensitive skin. Full article

Objective: Relaxation delivered via audiotapes can reduce stress and improve wound healing. Virtual humans are a promising technology to deliver relaxation, but robust research is needed into their effectiveness. This randomised controlled trial investigated whether relaxation delivered by a virtual human could improve healing and reduce stress after an experimental wound. Methods: A total of 159 healthy adults underwent a tape-stripping wounding procedure and were randomly assigned to relaxation delivered by a virtual human, human audiotape, or a control condition. Skin barrier recovery (SBR) was measured by assessing changes in transepidermal water loss at baseline, post-tape-stripping, and post-intervention. Psychological and physiological variables were measured over the session. Participants’ perceptions of the interventions were assessed. Results: There were no significant differences in SBR between conditions. All conditions experienced significant improvements in the psychological variables, heart rate, and cortisol over time. After controlling for the baseline values, the virtual human and audiotape conditions were significantly more relaxed post-intervention than the control condition (p = 0.005), the audiotape condition had lower post-intervention anxiety than the control condition (p = 0.016), and alpha-amylase was significantly reduced in the virtual human group compared with the audiotape (p = 0.041). The audiotape received the highest satisfaction and engagement ratings, with qualitative results suggesting the appearance and lip-syncing of the virtual human could be improved. Conclusions: Relaxation instructions delivered by a virtual human increased participants’ relaxation levels with similar effects to traditional audiotapes. Furthermore, it reduced physiological stress indices. Further work with other wound types and stressed samples is needed. The voice and interactiveness of the virtual human should be improved to promote greater engagement and satisfaction. Full article

Background: Rutin is a natural flavonoid extracted primarily from plants with anti-inflammatory and antioxidant properties, and it is highly valuable in the cosmetics industry. However, the poor transdermal permeability of rutin limits its application via transdermal administration. Previous studies have predominantly focused on chemical methods for enhancing penetration. This study investigated the potential of ultrasound as a physical method by which to augment the transdermal absorption and anti-inflammatory effects of rutin. Method: Through in vitro diffusion experiments, we analyzed the effects of the ultrasonic frequency and intensity on percutaneous absorption. The optimal ultrasound parameters were determined based on the intradermal retention rate, which is defined as the proportion of intradermal retention to the total penetration. Parameters with higher retention rates were considered optimal. To validate the anti-inflammatory efficacy of rutin delivered using the ultrasound-assisted method, we employed a tape-stripping technique to induce inflammation in BALB/c nude mice. Eight mice were assigned to each treatment group: (A) self-repair (control group), (B) regular rutin treatment, and (C) ultrasound-assisted treatment. Results: The research findings indicate that ultrasound frequency and intensity of 1 MHz and 0.2 W/cm², as well as 3 MHz and 0.2 W/cm², result in the maximum proportion of rutin intradermal retention, exhibiting values 1.8 times (using porcine skin) and 2.63 times (using nude mouse skin) higher than those achieved without ultrasound, respectively. Group C showed the shortest recovery time and displayed complete skin barrier function restoration by the fourth day $(p<0.05)$, whereas group A exhibited the slowest recovery. Conclusions: This study offers an innovative approach for the transdermal delivery of rutin to facilitate skin barrier function repair. Full article

Background/Objectives: The topical delivery of antibiotics through transethosomes shows promise for enhancing its dermal delivery for the treatment of skin infections. This study aimed to develop and characterize azithromycin-loaded transethosomes to enhance topical drug delivery and improve the antibacterial activity of azithromycin. Methods: The prepared azithromycin formulations underwent assessment for various characteristics, including their vesicle dimensions, size distribution, zeta potential, encapsulation efficiency, and morphological features (via TEM analysis). Additionally, their thermal properties were examined through DSC analysis, and their stability was monitored over six months under refrigerated storage conditions. The sequential tape-stripping technique was employed to conduct ex vivo penetration studies on human skin. Interactions between transethosomes and stratum corneum lipids were examined using attenuated total reflectance Fourier-transform infrared spectroscopy (ATR-FTIR). Additionally, the formulations were tested for their in vitro antibacterial efficacy against Staphylococcus aureus. Results: The findings revealed that AZ 1 and AZ 2 had vesicle sizes of 108.44 ± 5.72 nm and 70.42 ± 6.02 nm, zeta potential measurements of −11.897 ± 1.820 mV and −34.575 ± 4.535 mV, and high entrapment efficiencies of 99.259 ± 0.086% and 99.560 ± 0.014%, respectively. Transmission electron microscopy (TEM) analysis confirmed the spherical nature of the vesicles, whereas differential scanning calorimetry (DSC) confirmed the successful encapsulation of azithromycin in transethosomes. The formulations exhibited acceptable physical stability at 4 °C for six months. Ex vivo studies revealed a significantly higher deposition of azithromycin in the skin by both transethosome formulations than by the drug solution (p < 0.05), with low systemic absorption. Among the formulations, AZ 2 resulted in much deeper skin penetration, with deeper dermal and epidermal layer deposition (1.388 ± 0.242 µg/cm²) compared to AZ 1 (four-fold higher, p < 0.05) and to the control drug solution (12 times more, p < 0.05). Analysis using ATR-FTIR suggested that azithromycin-loaded transethosomes improve the drug penetration by increasing the lipid fluidity and extracting lipids from the stratum corneum. Moreover, the transethosomes loaded with azithromycin demonstrated enhanced antibacterial efficacy against Staphylococcus aureus, with minimum inhibitory concentration (MIC) values that were lower than those of the free drug solution. Conclusion: The results highlight the promising potential of transethosomes as a novel topical drug delivery system for azithromycin that offers improved therapeutic effects against skin infections Full article

The discrete phase model (DPM) and the RNG k-ε turbulence model were employed to simulate the swirl flow behavior of hydrate transport in pipelines equipped with twisted tapes. The study analyzed the effects of various twisted tape parameters on the velocity field, turbulent dissipation, turbulent kinetic energy, and pressure distribution of hydrate particles. The results indicate that increasing the placement angle of the twisted tape enhances the tangential velocity near the pipe axis while reducing the axial velocity. Similarly, higher twisted tape configurations result in a further decrease in axial velocity. An increase in the number of twisted tapes leads to reductions in both tangential and axial velocities, and maximum speed increased by 18.2%. Larger placement angles of twisted tapes also intensify turbulence dissipation, with a more pronounced decay in turbulence intensity observed from the pipe wall to the axis. At section 8D, the turbulent kinetic energy increases by 60% with the increase in the height of the twisted tapes. Furthermore, as the number of twisted tapes increases, the disparity in turbulence strength between regions near the twisted tape and the pipe axis diminishes. The inner pipe pressure distribution is 360°/n rotation symmetrical distribution, and the twist tape is more, and the high pressure area is greater on the pipe section. The minimum pressure area is gradually close from the lee plane of the diversion strip to the position of the pipe axis. At section 65D, the pressure drop increases gradually with the increase in the orientation angle, and it increases by 36.8%. Full article

Atopic dermatitis (AD) is a chronic inflammatory skin disorder with significant implications for patient quality of life and a well-documented association with the atopic march. Recent advancements in biomarker research have unveiled critical insights into AD pathogenesis, diagnosis, prognosis, and therapeutic monitoring. This comprehensive review evaluates the utility of emerging biomarkers, including cytokines, chemokines, genetic markers, and microbiome-related components, in understanding the disease mechanisms and stratifying patient care. The role of minimally invasive diagnostic techniques, such as tape stripping and RNA monitoring, is highlighted, offering innovative approaches to pediatric populations. Furthermore, this review explores the biomarkers that predict disease progression, therapeutic response, and comorbidities, including food allergies and asthma. Personalized treatment strategies based on endotype-specific biomarkers are discussed as a future direction for improving clinical outcomes. Despite promising findings, the integration of biomarkers into routine practice necessitates further validation through large-scale studies. This work underscores the transformative potential of biomarker-driven approaches in enhancing the management of AD in children and its associated conditions. Full article

Exposure to ultraviolet (UV) radiation is a major contributor to skin injury, including sunburn, photoaging, and augmented risk of skin cancer, primarily through the generation of reactive oxygen species (ROS) that induce oxidative stress. Rosmarinic acid (RA), a natural phenolic compound with antioxidant and several other biological properties, has shown promise in mitigating such damage when incorporated into sunscreens. We evaluated RA’s possible interactions and potential to enhance the efficacy of three worldwide known UVB filters—ethylhexyl methoxycinnamate (EHMC), octocrylene (OCT), and ethylhexyl salicylate (EHS). The performance of sunscreens with and without RA (0.1% w/w) was analyzed through in vitro and in vivo photoprotective assessments. The HPLC-TBARS-EVSC (high-performance liquid chromatography—thiobarbituric acid reactive substances—ex vivo stratum corneum) protocol, which quantified oxidative stress reduction in the human stratum corneum, was also used. The in vitro photoprotective assays showed that RA had distinct levels of interactions with the UVB filters. When associated with EHMC, RA exclusively acted in the UVB range (SPF-enhancing effect). Remarkably, for EHS, RA contributed to a higher efficacy profile in the total UV spectrum. OCT-RA was the sample that reached the highest critical wavelength value parallelly to OCT, boosting the in vivo SPF by more than 157% in comparison to OCT. However, its in vitro SPF performance was not affected by the RA addition, being comparable to OCT, EHS, and EHS-RA. Furthermore, the HPLC-TBARS-EVSC protocol highlighted RA’s ability to reduce lipid peroxidation, with OCT-RA exhibiting the most notable protective effect. These findings underscore RA’s potential as a multifunctional additive in sunscreen systems, enhancing both photoprotection and oxidative stress mitigation. Full article

Evaluation of skin inflammation biomarkers in canine atopic dermatitis (AD) currently requires skin biopsies. Tape stripping has been shown to be a reliable technique to study biomarkers in the stratum corneum (SC) in humans. The aim of this study was to assess the immune response and identify biomarkers in the SC of dogs with canine AD using D-squame^® as a minimally invasive technique. Eight beagle dogs were epicutaneously sensitized to Dermatophagoides farinae extract after tape stripping on sensitized site (S); twice a week for 49 days. Two sites were determined: lesional site (L) and non-lesional site (NL) on eight dogs affected spontaneously with AD. Adhesive tape strips D-Squame^® were applied on each site. Skin concentrations of 10 cytokines were analyzed with an ELISA kit. Our results revealed a significant increase of IL-13, IL-4, and TNF-α concentrations in S and L sites. Regarding IFN-γ, its concentration was significantly increased in L skin and increased but not significantly in S sites. All the alarmins were not differentially expressed except IL-33 in the S site. IL-31, IL-1β, and IL-10 were not detectable. D-squame^® seems to be a suitable technique to extract inflammatory cytokines from the SC of dogs, and IL-13, IL-4, TNF-α, and IFN-γ could be interesting biomarkers of canine AD. Full article

Dullness or lack of radiance in facial appearance is a common concern among females. Previous studies have linked skin dullness to aging and revealed alterations in skin pigments. However, younger individuals (ages ≤ 35) also report concerns about dull skin in their hectic daily lives, which may not involve pigmentation changes. We hypothesized that the mechanisms underlying dullness in youth differ from those associated with aging. To investigate this, we measured cellular and molecular changes in 132 healthy Japanese and Chinese females aged 18 to 35 using biophotonic multiphoton tomography and biochemical tape-strip analysis. Our findings revealed that dull skin exhibited a thicker stratum granulosum and less densely packed keratinocytes in deeper layers. Biochemical analysis showed upregulation of interleukin-36γ and downregulation of E-cadherin in dull skin, with interleukin-36γ levels negatively correlating (p = 0.023) with metabolites of filaggrin. These alterations resemble those observed in inflammatory skin conditions, suggesting an additional mechanism of skin dullness beyond pigmentation. In vitro cultured cell models evaluated the efficacy of three skincare ingredients: galactomyces fermentation filtrate, bisabolol, and batyl alcohol. Galactomyces suppressed interleukin-36γ (p = 0.037), while both batyl alcohol (p = 0.006) and bisabolol (p = 0.049) showed beneficial effects on filaggrin. Targeting these biomarkers may improve the appearance of dull skin. Full article

In this study, we evaluated the skin barrier improvement effect of a natural liquid mineral extract of mica clay, commonly used in cosmetics. The mica particles have an average size of approximately 4.77 μm, with a range around 10 μm. The specific surface area is about 8.8 m²/g, the average pore volume is 0.02 cm³/g, and the pore size is 10.82 nm. The extraction process involved mixing the mineral materials with distilled water for 2 days. The final extraction solution contained approximately 6 mg/L of potassium, as determined using inductively coupled plasma optical emission spectrometry (ICP-OES). A cosmetic emulsion containing the natural illite liquid mineral extract was assessed for stability in pH, viscosity, color, and odor under various conditions, including 4 °C, 25 °C, 45 °C, temperature cycling, and daylight, over 3 months. A placebo-controlled clinical trial was conducted to evaluate the skin barrier improvement and soothing effects on skin damaged by sodium lauryl sulfate (SLS) exposure or tape stripping. The test product demonstrated a statistically significant improvement in transepidermal water loss (TEWL) and skin redness compared to the control product. Therefore, the natural illite liquid mineral extract appears to enhance skin barrier function and soothe damaged skin, suggesting its potential therapeutic benefits. Full article

Background/Objectives: Ivermectin gained widespread attention as the “miracle drug” during the coronavirus disease 2019 (COVID-19) pandemic. Its inclusion in the 21st World Health Organization (WHO) List of Essential Medicines is attributed to its targeted anti-helminthic response, high efficacy, cost-effectiveness and favorable safety profile. Since the late 2000s, this bio-inspired active pharmaceutical ingredient (API) gained renewed interest for its diverse therapeutic capabilities. However, producing ivermectin formulations does remain challenging due to its poor water solubility, resulting in low bioavailability after oral administration. Therefore, the transdermal drug delivery of ivermectin was considered to overcome these challenges, which are observed after oral administration. Methods: Ivermectin was incorporated in a nano-emulsion, nano-emulgel and a colloidal suspension as ivermectin-loaded nanoparticles. The nano-drug delivery vehicles were optimized, characterized and evaluated through in vitro membrane release studies, ex vivo skin diffusion studies and tape-stripping to determine whether ivermectin was successfully released from its vehicle and delivered transdermally and/or topically throughout the skin. This study concluded with cytotoxicity tests using the methyl thiazolyl tetrazolium (MTT) and neutral red (NR) assays on both human immortalized epidermal keratinocytes (HaCaT) and human immortalized dermal fibroblasts (BJ-5ta). Results: Ivermectin was successfully released from each vehicle, delivered transdermally and topically throughout the skin and demonstrated little to no cytotoxicity at concentrations that diffused through the skin. Conclusions: The type of nano-drug delivery vehicle used to incorporate ivermectin influences its delivery both topically and transdermally, highlighting the dynamic equilibrium between the vehicle, the API and the skin. Full article

We previously reported that a pathogenic abnormality in the barrier and water-holding functions of the stratum corneum (SC) in the skin of patients with atopic dermatitis (AD) is mainly attributable to significantly decreased levels of total ceramides in the SC. That decrease is mediated by the abnormal expression of a novel ceramide-reducing enzyme, sphingomyelin/glucosylceramide deacylase (SGDase), which is the β-subunit (ASAH1b) of acid ceramidase. In this study, we determined whether mice overexpressing ASAH1b in their epidermis develop AD-like skin symptoms. We generated transgenic (TG) mice overexpressing ASAH1b, regulated by the involucrin promoter, to localize its expression in the upper epidermis. After hair removal using a depilatory cream containing glycolic acid, the TG mice without any visible skin inflammation at 8 weeks of age had increased levels of ASAH1b and decreased levels of SC ceramide, with disrupted barrier functions measured by trans-epidermal water loss compared to the wild-type (WT) mice. Interestingly, enzymatic assays revealed that SGDase activity was not detectable in the skin of the TG mice compared to WT mice. Immunological staining revealed that there was an increased expression level of IL-33 in the epidermis and an accumulation of macrophages in the dermis of TG mice compared to WT mice, which are phenotypic characteristics of AD, that were exacerbated by tape-stripping of the skin. In the skin of the TG mice, the mRNA levels of IL-5, CCL11, IL-22, CXCL10, and IFNγ were significantly upregulated compared to the WT mice, and tape-stripping significantly increased the mRNA levels of IL-4, IL-33, CXCL1, CXCL12, TLR9, and CD163 compared to WT mice. These findings strongly indicate that the skin of the depilatory cream-treated TG mice exists in an atopic dry skin condition that is highly sensitive to various environmental stimuli. The sum of our results suggests that ASAH1b itself, even in the absence of its enzymatic activity, is a major etiologic factor for atopic dry skin symptoms via an unknown mechanism. Full article

L-ascorbic acid represents one of the most potent antioxidant, photoprotective, anti-aging, and anti-pigmentation cosmeceutical agents, with a good safety profile. However, the main challenge is the formulation of stable topical formulation products, which would optimize the penetrability of L-ascorbic acid through the skin. The aim of our research was to evaluate the performance of ascorbyl palmitate on the skin, incorporated in creams and emulgels (2%) as carriers, as well as to determine the impact of its incorporation into liposomes on the penetration profile of this ingredient. Tape stripping was used to study the penetration of ascorbyl palmitate into the stratum corneum. In addition, the sensory and textural properties of the formulations were determined. The liposomal formulations exhibited a better penetration profile (p < 0.05) of the active substance compared to the non-liposomal counterpart, leading to a 1.3-fold and 1.2 fold-increase in the total amount of penetrated ascorbyl palmitate in the stratum corneum for the emulgel and cream, respectively. Encapsulation of ascorbyl palmitate into liposomes led to an increase in the adhesiveness and density of the prepared cream and emulgel samples. The best spreadability and absorption during application were detected in liposomal samples. The obtained results confirmed that liposomal encapsulation of ascorbyl palmitate improved dermal penetration for both the cream and emulgel formulations. Full article