High Sun Protection Factor Research Articles

Stachys byzantina K. Koch (Lamiaceae) as a potential ingredient for delaying skin ageing and treating hyperpigmentation disorders in pharmaceutical products.

This study aimed to investigate whether the plant species Stachys byzantina produces bioactives with the potential to delay the skin ageing process and treat hyperpigmentation conditions. The antioxidant action was assessed by 2,2-diphenyl-1-picrylhydrazylradical scavenging, Griess reaction, oxygen radical absorption capacity, and β-carotene bleaching assays. Inhibitory activities for tyrosinase, hyaluronidase, and elastase enzymes were tested. The antiglycation activity, the sun protection factor (SPF), and the toxicity to skin cells by MTT(3-(4,5-dimethylthiazolyl-2)-2,5-diphenyltetrazolium bromide)assay were also evaluated. The ethanolic extract of S. byzantina aerial parts and all fractions obtained by solvent partition inhibited the tyrosinase enzyme at different levels. The dichloromethane fraction (DF) demonstrated the highest inhibition (IC50 = 63.5±10.9 µg/ml). DF also inhibited the hyaluronidase enzyme with IC50 = 369±11.64 μg/ml and elastase by 40% at 500 μg/ml. This fraction showed prominent antioxidant and antiglycation activities, high SPF, and no cytotoxicity at concentrations lower than 50 μg/ml. The phenolic and flavonoid contents were 116.30±6.7 (mgTAE/g) and 66.38±13.5 (mgQE/g), respectively. Chlorogenic acid (23.54±2.46mg/g) and verbascoside (203.97±19.8mg/g) were identified and quantified. Stachys byzantina is a potential source of cosmetic and therapeutic ingredients to reduce hyperpigmentation and the impacts caused by free radicals, advanced glycation end products, and sun radiation in skin ageing.

Algerian vine canes as a good source of phenolic compounds for several in vitro biological activities

<p>One of the most widely cultivated crops in the world is grapevine knowing that about 77.8 million tons of grapes are produced worldwide each year. Both of vine growing, pruning, and winemaking generate a vast quantity of wastes and byproducts such as skin, seed, and canes. Grape canes include a wide range of phenolic profiles which have several biological effects. In the present study four vine Algerian grape cane cultivars were selected for the evaluation of their phenolic contents and biological activities. The objective of this study was to evaluate the total phenolic and flavonoid contents, in vitro antioxidant activity (using DPPH, ABTS, and reducing power methods), enzyme inhibitory activity (towards alpha amylase, and urease) anti-inflammatory activity, and sun protection factor of each extract. All grape extracts were compared for their TPC and TFC values which ranged from 123 to 288 mg of Gallic acid equivalent (GAE)/g extract to 24.5 to 55.6 mg of quercetin equivalent (QCE)/g extract respectively. The highest TPC and TFC were found in the grape cultivar FR (288.8 mg GAE/g extract, 55,625 mg QCE/g extract respectively). The results revealed also that all extracts showed high antioxidant with the same trend of phenolic composition and significant enzymatic activity in all tests. Additionally, all extracts showed a moderate anti-inflammatory activity by inhibiting the denaturation of BSA, and given a high sun protection factor. These findings imply that grape canes which considered as undervalued parts have a significant potential to be used as a natural treatment for many physiological diseases and for the pharmaceutical and cosmetic sector and medical research.</p>

Synthesis and characterization of chitosan-pectin fabricated nanoemulsion for ethylhexyl triazone topical delivery

This study aimed to investigate the stability of nanoemulsions for the UVB filter, ethylhexyl triazone (EHT) encapsulation followed by fabrication with chitosan and pectin. Four formulations were developed to assess the influence of hydrophile-lipophile balance (HLB) values on nanoemulsion stability for EHT encapsulation, targeting high Sun Protection Factor (SPF) values. The selected nanoemulsion was then subjected to fabrication with chitosan and pectin, followed by physical characterization and rheological behaviour study. Results indicated that all nanoemulsions exhibited particle sizes ranging from 137.7 nm to 206.0 nm and high entrapment efficiency from 88.76 % to 91.98 %. Sample N3, containing 1 % Tween 20 and 2 % polyethylene glycol (PEG) 400 with HLB of 12, demonstrated the highest stability, yielding a significantly elevated SPF value (10.33). Moreover, polymer-coated nanoemulsions with a low concentration of chitosan (0.1 %) showed enhanced stability when combined with different percentages of pectin. Polymer-coated nanoemulsions indicated shear-thinning behaviour at lower shear rates to Newtonian flow at higher shear rate. Furthermore, both polymer-coated and uncoated nanoemulsions exhibited decreased viscosity with increasing temperature. Also, polymer-coated nanoemulsions was found to enhance the sustainable release of EHT. These findings demonstrated the potential of polymer-coated nanoemulsions for skin application, offering enhanced stability and improved flow behaviour. The design of polymer-coated nanoemulsions could potentially minimize the risks of accumulation and toxicity of UV filters by providing a sustainable release behaviour.

FORMULATION OF RED BETEL LEAF EXTRACT LOTION (Piper crocatum Ruiz & Pav) AS SUNSCREEN

Betel leaf is a natural ingredient that people use as a traditional medicine. One of the ingredients found in red betel leaves is a phenolic compound in the form of flavonoids, a photoprotective substance that can be used as protection from UV radiation. Sunscreen is a cosmetic preparation that can protect the skin from UV radiation and reduce the amount of radiation harmful to the skin. This study aimed to formulate a lotion preparation from red betel leaf extract that has activity as a sunscreen. Red betel leaf (Piper crocatum Ruiz & Pav) was extracted using the maceration method. Preparation formulations were made with variations of red betel leaf ethanol extract in each formula, namely with concentrations of 0.04% (F1), 0.05% (F2), 0.06% (F3), and base control (F0). The activity of sunscreen lotion extract is based on the Sun Protection Factor (SPF) value using UV-VIS spectrophotometry at wavelengths of 290–320 nm using the Mansur equation. The results of the SPF value of the lotion are F1 of 13.48, F2 of 16.71, and F3 of 18.7. The evaluation of the lotion results obtained a light green lotion with M/A emulsion type that met the requirements, including homogeneity, pH, spreadability, viscosity, centrifugation test, and freeze and thaw test. Research results show that betel leaf extract lotion is physically stable and has a high SPF value, so it has the potential to be a sunscreen.

Multi-omics analysis to evaluate the effects of solar exposure and a broad-spectrum SPF50+ sunscreen on markers of skin barrier function in a skin ecosystem model.

Sun exposure induces major skin alterations, but its effects on skin metabolites and lipids remain largely unknown. Using an original reconstructed human epidermis (RHE) model colonized with human microbiota and supplemented with human sebum, we previously showed that a single dose of simulated solar radiation (SSR) significantly impacted the skin metabolome and microbiota. In this article, we further analyzed SSR-induced changes on skin metabolites and lipids in the same RHE model. Among the significantly altered metabolites (log2-fold changes with p ≤ 0.05), we found several natural moisturizing factors (NMFs): amino acids, lactate, glycerol, urocanic acid, pyrrolidone carboxylic acid and derivatives. Analyses of the stratum corneum lipids also showed that SSR induced lower levels of free fatty acids and higher levels of ceramides, cholesterols and its derivatives. An imbalance in NMFs and ceramides combined to an increase of proinflammatory lipids may participate in skin permeability barrier impairment, dehydration and inflammatory reaction to the sun. Our skin model also allowed the evaluation of an innovative ultraviolet/blue light (UV/BL) broad-spectrum sunscreen with a high sun protection factor (SPF50+). We found that using this sunscreen prior to SSR exposure could in part prevent SSR-induced alterations in NMFs and lipids in the skin ecosystem RHE model.

Enhanced sun protection factor of octocrylene with green tea and bhringraj extracts

Objectives The aim of this study of sun protection factor boosting effect sunscreen compositions with herbal extract and combination with octocrylene. Materials and Methods The standardized herbal extracts procured and studied their sun protection Factors. Camellia Sinensis (Green tea) leaf Extract, Eclipta prostrata (bhringraj) leaf extract are selected for the development of the herbal sunscreen composition along with octocrylene as synthetic sunscreen. The developed sunscreen composition contains defined concentration of herbal extracts and octocrylene were evaluated for their different physicochemical properties and stability. Sun protection factor boosting effect of herbal extracts is studied combination with octocrylene. Results Invitro SPF studied for herbal extract individually and combination with octocrylene. The results of Invitro SPF study revealed the presence of green tea extract and, Eclipta prostrata (bhringraj) leaf extract shows excellent sun protection factor (SPF) boosting value of sunscreen composition containing 5% concentration of herbal extract and octocrylene. The sunscreen formulation containing 5% herbal extracts are stable for 12 weeks in an oven (45 °C). Conclusion The findings of this in-vitro SPF study revealed a sun protection boosting capacity of green tea extract and bhringraj extract confirmed. Summary The over exposure of human skin to Ultra-Violet Radiation (UVR) can trigger photodamage, UV burn, pigmentation, erythema, and enhance the chance of dermal carcinoma. UVR causes DNA damage, which leads to dermal cancer. Daily sunscreens protect the skin from the adverse effects of sun rays, especially UVB (290-320 nm) and UVA (320-400 nm). The ozone layer filters UVC (200-290 nm) radiation when it enters into atmosphere of the earth. UVB causes sunburn, photo damage and cause mutagenic changes in nucleic acids. UVA increases ROS (Reactive Oxygen Species) accumulation. ROS is responsible for cell repair which leads to carcinogenesis, and the cause of photodamage. Herbal extracts contain polyphenols, and flavonoids act as a natural sunscreen that will filter Ultra-Violet (UVB) light and contain antioxidant characteristics to modulate the photo-oxidative damage that results from UV-induced Reactive Oxygen Species production. The UVR protection of most herbal extracts are required to attain the higher UV protection in the sun care products. The approaches for preparing sun care products with higher Sun Protection Factor (SPF) possible through Oil in water formulation with herbal extract combinations of octocrylene. The developed sunscreen composition containing different concentration of herbal extracts were evaluated for their other physicochemical properties and stability. Invitro SPF was studied for Camellia Sinensis (Green tea) Leaf Extract and Eclipta prostrata (bhringraj) leaf extract individually and in combination with octocrylene. The results of the Invitro SPF study revealed the Camellia Sinensis (Green tea) Leaf Extract with octocrylene shows better Sun protection factor than Eclipta prostrata (bhringraj) leaf extract with octocrylene. The Sun Protection Factor (SPF) enhancement value of sunscreen compositions was compared to both sunscreen macroemulsion and nanoemulsion.

Molecularly engineered lignin to polyphenol via organocatalysis as an active sunscreen ingredient

Phenolation is one of the effective strategies to synthesize lignin-based polyphenols, improve lignin's properties, and extend its value-added applications in biological, medicinal and cosmetic fields. Herein, by taking the structural feature advantage of lignin, an effective and green strategy was developed to molecularly engineer lignin into a robust lignin-3-(2-hydroxyphenyl)propionate ester (LPPE) derivative via a transesterification reaction between 3,4-dihydrocoumarin (DHC) and the aliphatic hydroxyls in lignin under organocatalysis. The strategy is optimized and the novel derivative was systematically characterized by 1H, 13C and 31P nuclear magnetic resonance (NMR) and Fourier transform infrared (FT-IR) spectroscopy. The findings indicated that the successful introduction of 3-(2-hydroxyphenyl)propionate groups using a OH groups/DHC/organic base molar ratio of 1꞉1꞉0.3 at 120 °C for 6 h increased the content of phenolic hydroxyl groups from 1.793 1 to 3.017 9 mmol/g, and the LPPE exhibited excellent ultraviolet-absorbing and antioxidant performance with up to 90% free radical scavenging activity within 20 min using 5 mg/mL of LPPE. In addition, good biocompatibility and a high Sun protection factor (SPF) value of 40.9 were achieved at 5% (w) dosage of LPPE in the cream, indicating its significant application potential in sunscreen.

Exploration of photoprotective and antibiotic activity of wild Polypodiaceae ferns from Costa Rica

Skin disorders affect millions of people all over the world. There are limited options to treat dermal illnesses such as vitiligo, psoriasis, and atopic dermatitis (eczema). Central American ferns are a potential source of bioactive metabolites against those diseases. Currently, Polypodium leucotomos Poir. is the only one being commercially utilized for this purpose. In this work, we evaluated the concentration of the skin bioactive compounds: quinic and chlorogenic acid, in the extract of 20 wild ferns from Costa Rica. We also evaluated the antimicrobial capabilities of the crude extracts of wild ferns and the sun protection factor (SPF) of the extracts. We found 19 out of 20 have either an important concentration of the compounds mentioned above or antimicrobial properties. Also, most samples result in higher SPF than P. aureum’s rhizome. We also have studied the fern acclimatization, at different shading conditions, finding a significant influence of the culturing conditions on metabolite production. After acclimatization. So far, we demonstrate that various ferns included in this study are a potential source of treatments for skin conditions.

Gas chromatography/mass spectrometry analysis and uv absorptivity of bio-oils extracted from some locally grown plant seeds in nothern Nigeria

Oils play vital roles in various ramifications including health, and food industries. Oils which are components of plant seeds can be extracted using various extraction techniques. This research is an exposition into the chemistry of oils with possible repositioning for purposeful use in the cosmetic, pharmaceutical, and food industries especially as sunscreen. In this work, oils were extracted from nine different seeds and subjected to gas chromatography coupled to mass spectrometry, and Ultraviolet analysis. The extraction method adopted in this work shows that 5 out of the 9 seeds have a relatively high percentage yield ranging from 20.9 to 36.8 % which indicates their potential for use in commercial quantity. The GC- MS analysis shows that (Z, Z)- 9, 12-Octadecadienoic acid is the most abundant components of all the oil samples. n-Hexadecanoic acid and cis-Vaccenic acid are the major constituents of Swietenia macrophylla (mahogany) seed oil. The lead components in the oil samples are usually responsible for their physico-chemical and Ultraviolet interactivities. All the samples were found to have adequate absorbance for Ultraviolet radiation ranging from Ultraviolet C to Ultraviolet A region. Citrullus lanatus, Hyptis spicigera, and Swietenia macrophylla (mahogany) have the highest absorbance ranges of 1.394–1.718, 1.449 to 1.70,2 and 1.402 to 1.711 respectively at Ultraviolet A region. The finding shows that all the samples have the ability to protect the skin from Ultraviolet radiation when expose to the sun, whereas only Citrullus lanatus, Hyptis spicigera and Swietenia macrophylla (mahogany) have the potentials for use as sunscreen with high sun protection factor. Further studies on the antimicrobial activities, cosmeceutical and nutraceutical potentials of the various components of these samples are encouraged.

Optimization of pressurized ethanol extraction for efficient recovery of hyperoside and other valuable polar antioxidant-rich extracts from Betula pendula Roth leaves

Silver birch (Betula pendula Roth) leaves, known for their long-standing uses in traditional medicine, are bioactive compound-rich by-products of the birch logging industry, abundantly available throughout the northern hemisphere. Considering the current demands for the sustainable valorization of various plant materials and their processing by-products, this study aimed to optimize pressurized ethanol extraction (PLE-EtOH) parameters in order to produce hyperoside and other valuable polar antioxidant-rich extracts from silver birch leaves. A central composite design along with response surface methodology (CCD-RSM) was used to optimize the temperature and time of PLE-EtOH for yield, total phenolic (TPC) and flavonoid (TFC) content, Trolox equivalent antioxidant capacity (TEAC) measured in oxygen radical absorbance capacity (ORAC), cupric ion reducing antioxidant capacity (CUPRAC), and 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid (ABTS) assays, and hyperoside content measured by ultraperformance liquid chromatography-electrospray tandem mass spectrometry (UPLC-ESI/MS2) analysis. The optimal PLE-EtOH conditions were 86 °C and 39 min, which produced an extract with 32.2% yield, high TPC (97.3 mg gallic acid equivalents/g), TFC (37.3 mg quercetin equivalents/g) and proanthocyanidin (301.2 mg catechin hydrate equivalents/g) content, also strong in vitro antioxidant capacity in ORAC, CUPRAC and ABTS assays (999.3, 297.0 and 392.3 mg Trolox equivalents/g, respectively). Hyperoside (54.1 mg/g), betuloside (18.3 mg/g) and chlorogenic acid (11.5 mg/g) were the prime phenolic compounds in the PLE-EtOH extract. Additionally, a high sun protection factor (37.4 at 1 mg/mL) was determined by in vitro method for this extract. Such products from B. pendula leaves have potential cosmetical, nutraceutical, and pharmaceutical applications.

Positive and ecobiological contribution in skin photoprotection of ectoine and mannitol combined in vivo with UV filters.

Chronic exposure to ultraviolet (UV) irradiation causes immunosuppression, photoaging, and carcinogenesis by induction of a cascade of skin damages. Sunscreens currently on the market are not absorbing UV rays uniformly throughout the full UV range, high sun protection factor (SPF) sunscreens absorb most of UVB rays but are less effective in absorbing the UVA part of the spectrum. In the context, one approach could consist of preserving the skin natural resources and mechanisms, which is the foundation of the ecobiological approach, by combing UV filters and antioxidants to enhance their photoprotective effect. First, the photoprotection properties of ectoine and mannitol association were characterized by the quantification of glutathione, reactive oxygen species, and double-stranded DNA breaks and by the epidermal Langerhans cells functionality. Second, the protection of squalene oxidation, catalase activity, and trans-urocanic acid (UCA) by the ectoine and mannitol association combined or not with SPF30 UV filters was assessed in vivo via non-invasive skin samplings in 10 subjects on irradiated areas. Using in vitro irradiated skin cell models, we demonstrated that this association significantly preserved intracellular glutathione levels, reduced DNA strand breaks induced by oxidative stress, and maintained Langerhans cell functionality. In vivo this association combined with UV filters presented significantly higher protection of three natural defense systems altered by UV compared to UV filters alone: squalene oxidation, catalase activity, and preservation of trans-UCA. This study demonstrates the ecobiological potential of combining UV filters with biological protection to increase skin photoprotection provided by specific active ingredients with antioxidative and immunosuppressive properties.

Extraction, Chemical Composition, Antiradical Capacity, and Photoprotective Effect of Inonotus obliquus from Eastern Canada

To promote the rational use of Inonotus obliquus (chaga) from Eastern Canada, a mushroom consumed in infusion as a health drink, the extraction of its constituents was investigated. The extraction was carried out with water or ethanol at room temperature or by heating as well as following exposure to ultrasound. The extracts of the four seasons obtained with the four extraction methods were compared for their contents in carbon, nitrogen (N), sulfur (S), potassium (K), betulin, betulinic acid, potassium, flavonoids, and polyphenols. The antiradical effect as well as the photoprotective effects of all extracts were also investigated. The results show that there is no difference between the quantities extracted from the extracts of the 4 seasons. The results show a significant difference between the mass of the extracts obtained with water and ethanol. Betulinic acid was found to be more abundant in the extracts obtained with water while betulin was more abundant in the extracts obtained with ethanol. The mushroom and the extracts had high C contents, but low N and S contents, typical of protein-poor and carbohydrate-rich materials. Extracts were particularly rich in potassium, five times more than bananas. Heating favors the extraction of polyphenols and flavonoids. The aqueous extracts of chaga harvested in winter had the highest antiradical capacity. With a Sun Protection Factor (SPF) higher than 30 in the UVB wavelength, chaga extracts might be used as sunscreen. Extracts obtained with water had the highest SPF in general. The analysis of this mushroom further highlights this local product that deserves more attention for its potential benefits as a functional food/nutraceutical product. In addition to its nutritional values, this mushroom can also be used for its cosmetic qualities as it can be used as a sunscreen.

Golf participants in Australia have a higher lifetime prevalence of skin cancer compared with the general population

ObjectiveTo estimate the age-specific lifetime prevalence of skin cancer in a sample of Australian golf participants and estimate skin cancer risk in golf participants compared with a general population-based sample.MethodsGolf...

Educational level-dependent melanoma awareness in a high-risk population in Switzerland.

The worldwide incidence of melanoma has been increasing rapidly in recent decades with Switzerland having one of the highest rates in Europe. Ultraviolet (UV) radiation is one of the main risk factors for skin cancer. Our objective was to investigate UV protective behavior and melanoma awareness in a high-risk cohort for melanoma. In this prospective monocentric study, we assessed general melanoma awareness and UV protection habits in at-risk patients (≥100 nevi, ≥5 dysplastic nevi, known CDKN2A mutation, and/or positive family history) and melanoma patients using questionnaires. Between 01/2021 and 03/ 2022, a total of 269 patients (53.5% at-risk patients, 46.5% melanoma patients) were included. We observed a significant trend toward using a higher sun protection factor (SPF) in melanoma patients compared with at-risk patients (SPF 50+: 48% [n=60] vs. 26% [n=37]; p=0.0016). Those with a college or university degree used a high SPF significantly more often than patients with lower education levels (p=0.0007). However, higher educational levels correlated with increased annual sun exposure (p=0.041). Neither a positive family history for melanoma, nor gender or Fitzpatrick skin type influenced sun protection behavior. An age of ≥ 50 years presented as a significant risk factor for melanoma development with an odd's ratio of 2.32. Study participation resulted in improved sun protection behavior with 51% reporting more frequent sunscreen use after study inclusion. UV protection remains a critical factor in melanoma prevention. We suggest that melanoma awareness should continue to be raised through public skin cancer prevention campaigns with a particular focus on individuals with low levels of education.

Pharmacological Perspective of Green Coffee Beans and their Metabolites: A Review

Abstract: Coffee is the most extensively consumed drink in the world. However, in the last few years, unroasted coffee seeds, popularly known as green coffee beans (GCB), attracted people due to its health properties. This review covers pharmacological efficacy, mechanism of action and bioactive components of green coffee beans. It contains a unique set of polyphenolic compounds, methylxanthines and diterpenes which are responsible for the astringency, flavour, smell and taste as well as for its health benefits. Chlorogenic acid, a polyphenolic compound, is the major bioactive compound in coffee beans which contributes most to the medicinal activities present in it. The finding reveals the effectiveness of green coffee beans in all parameters of metabolic syndrome by regulating adipokines. It prevents doxorubicin induced cardiomyocyte cell death and also has antimutagenic activity on the HeLa cell line and PA-1 cell line. Neuroprotective effect of GCB in degenerative disease was achieved by reducing neuroinflammatory markers TNF-α (tumor necrosis factor-α) and IL-1β (interleukin-1β). Along with these properties, GCB has shown some potential antimicrobial, hepatoprotective, cardioprotective and sunscreen effects, as it contains a high sun protection factor. The findings from this study conclude that green coffee beans have shown bizarrely several health benefits, but a large number of trials and intervention are required to establish its medicinal values.

Analysis on the Methods and Techniques of Sunscreen Enhancement

In recent years, sunscreen products have been the research focus in the field of daily chemicals. Sunscreen products with high sun protection factor (SPF), fresh skin feeling and high safety are the market hotspots of sunscreen products. This article systematically sorts out the key points of sunscreen synergistic technology from the aspects of sunscreen compound synergism, the influence of plant-derived active ingredients on sunscreen, the carrier modification of sunscreen microcapsules, the solid lipid particles and sunscreen product formulation system. This article explained the future development direction of sunscreen enhancement, hoping to provide scientific basis for the research and development of sunscreen product formula.

Sunlight Exposure and Protection Behavior as Prevention of Skin Cancer in Nursing Students

Background: Skin cancer ranks fifth in the world. Melanoma, a type of skin cancer, ranks 23rd in Indonesia. Meanwhile, deaths caused by skin cancer are more than half of the number of new cases in Indonesia. Indonesia is a country that lies across the equator. It makes Indonesia have longer exposure to sunlight and a higher UV index. This study aims to describe the sunlight exposure level and protection behavior among nursing students.Methods: The samples of this study were 248 respondents from the Faculty of Nursing, Universitas Padjadjaran, who were recruited with a convenience sampling technique. Data were collected using a modified Sun Exposure Behaviour Inventory (SEBI). The data were processed using SPSS statistical software to determine behavioral descriptions and exposure to sunlight. Then, the result of the data analysis was performed with descriptive analysis (frequency and percentage).Results: The result of this study showed that most of the respondents (84.3%) always used longsleeved clothes to cover their shoulders. Most respondents (85.9%) used sunscreen with a Sun Protection Factor (SPF) of 15 or more, and more than half of the respondents (68.5%) used sunscreen that can protect from Ultraviolet A (UVA) and Ultraviolet B (UVB). Most respondents (76.2%) never spent time under natural or artificial Ultraviolet Radiation (UVR) to get the desired brown skin. More than half of the respondents (66.9%) had never sunbathed in the last 12 months. Conclusions: More than half of the respondents had adequate protective behavior against sun exposure and had moderate sun exposure. Using sunscreens with a higher SPF has shown a stronger preventive effect. Therefore, regular use of sunscreen can decrease the risk of skin cancer.

Lignin decolorization in organic solvents and their application in natural sunscreen

In order to improve the utilization of industrial lignin as an effective component for ultraviolet (UV) shielding, organic solvent (methanol, ethanol, and acetone) fractionation was applied to improve its UV absorption performance and reduce its apparent color. Physicochemical properties of lignin and lignin-based sunscreens, such as molar mass fraction, functional group content, color change and UV shielding properties, were characterized in detail by GPC, UV spectroscopy, 31P NMR and HSQC-NMR spectroscopy. The results showed that the color and UV-shielding properties of the soluble fraction were significantly superior to those of the original and insoluble fractions. Different lignin fractions were acted as the only active substance in the pure cream and its UV-shielding properties were compared. Among them, the composite sunscreen by adding 5 wt% acetone fractionated lignin had highest sun protection factor (SPF) value of 6.6, approximately 4.5 times higher than those sunscreens mixed with pristine lignin. Overall, this work offers the potential of industrial lignin in value-added applications such as UV protection and cosmetics.

White pitahaya as a natural additive: potential usage in cosmetic industry

The awareness of some harmful side effects of the chemicals contained in synthetic cosmetics has increased the demand for herbal-based cosmetic products today.
 White pitahaya fruit and peel methanol extracts were prepared to determine their usage potential in the cosmetic industry. Firstly, we investigated their antimicrobial activity against some test microorganisms using the disc diffusion assay. We also determined their minimal inhibition and minimal bactericidal or fungicidal concentrations. Then, we assayed the antimicrobial activity of a commercial cream containing white pitahaya extracts and the probiotic Lactobacillus fermentum MA-7 strain against the test microorganisms. Finally, we measured the sun protection factors of the white pitahaya fruit and peel extracts and the cream with the extracts.
 The white pitahaya fruit and peel extracts exhibited antimicrobial activity against the test microorganisms. The cream formulation containing a pitahaya fruit extract had the highest inhibition zone diameter of 11.25 mm against Escherichia coli O157:H7. The highest sun protection value among the extracts and cream with extracts was determined for peel extract as 6.66 and 23.34, respectively.
 The results indicate that pitahaya fruit and peel extracts have effective antibacterial and antifungal properties, as well as high sun protection factors, and therefore they could be used as natural preservatives in the cosmetic industry.

Expert recommendations on supportive skin care for non-surgical and surgical procedures.

A thorough knowledge of non-surgical procedures (laser, peelings, injections, threads) and surgical procedures (combined surgeries and skin grafts), including contraindications and potential risks and side effects, (e.g. infection, hypopigmentation, hyperpigmentation, and scarring) is essential to be able to reduce their incidence and ensure the patient receives the most benefit from the procedure. Individuals with darker skin and of high Fitzpatrick phototype are at higher risk of dyschromias, notably melasma and post-inflammatory hyperpigmentation, which may be treated using aesthetic procedures but may also arise as a complication of some procedures. A group of experts in cosmetic surgery and dermatology reviewed the published literature and discussed recommendations for optimizing outcomes with practical advice on supportive skincare before, during and after non-surgical or surgical procedures. A broad-spectrum sunscreen with a high sun protection factor against UVB and high protection against UVA, especially long UVA, is essential for all treatment modalities for the prevention and potential improvement of pigmentation disorders. Supportive skin care management to prepare, cleanse and protect the skin and post-procedure skin care with healing and anti-inflammatory ingredients are recommended to speed up regeneration and wound healing whilst minimizing scarring and downtime. Additionally, adjunctive skin care to procedures with antioxidant, anti-ageing and lightening properties may enhance skin benefits.