RESUMO
BACKGROUND: Although the scientific literature associates mature skin with dry skin and the secretion of sebum on the face decreases over the years, in tropical countries, such as Brazil, mature skin can still present oily characteristics. Thus, the knowledge of the hydrophilic characteristics of mature skin is fundamental to help the development of more effective treatments for this skin type. In this context, the study aimed to evaluate the hydrophilic characteristics and the clinical efficacy of a cosmetic formulation for mature skin added with alfalfa and lentil extracts by using biophysical and skin imaging techniques. METHODS: Twenty-eight healthy females aged between 45 and 59 years were enrolled. Measurements of the stratum corneum water content, sebum content, transepidermal water loss, skin microrelief, and pores count were performed before and after the 28-day formulation application. RESULTS: The mature skin presented as oily with wrinkles and pores. The proposed formulation significantly reduced the sebum content and the number of fine and large pores and improved skin microrelief and hydration after a 28-day period of the application when compared to the vehicle. CONCLUSIONS: The proposed formulation was effective in oily mature skin treatment, improving its general skin aging and oiliness conditions, and reducing pores count in just 28 days.
RESUMO
The cytoplasmic membrane is one of the most frequent cell targets of antimicrobial peptides (AMPs) and other biomolecules. Understanding the mechanism of action of AMPs at the molecular level is of utmost importance for designing of new membrane-specific molecules. In particular, the formation of pores, the structure and size of these pores are of great interest and require nanoscale resolution approaches, therefore, biophysical strategies are essential to achieve an understanding of these processes at this scale. In the case of membrane active peptides, pore formation or general membrane disruption is usually the last step before cell death, and so, pore size is generally directly associated to pore structure and stability and loss of cellular homeostasis, implicated in overall peptide activity. Up to date, there has not been a critical review discussing the methods that can be used specifically for estimating the pore dimensions induced by membrane active peptides. In this review we discuss the scope, relevance and popularity of the different biophysical techniques such as liposome leakage experiments, advanced microscopy, neutron or X-ray scattering, electrophysiological techniques and molecular dynamics studies, all of them useful for determining pore structure and dimension.
Assuntos
Bicamadas Lipídicas/química , Simulação de Dinâmica Molecular , Proteínas Citotóxicas Formadoras de Poros/química , Lipossomos/químicaRESUMO
The effects of ultraviolet (UV) radiation emitted by the sun are cumulative and can result in chemical changes such as the generation of reactive oxygen species (ROS), leading to the regular use of sunscreen. As an alternative, the use of antioxidants, such as quercetin, into sunscreen can control these effects and provide additional skin photoprotection. However, quercetin presents low stability and poor permeation, alternatively, the encapsulation in nanoparticles can improve the stability and skin permeation. Thus, this study aimed to develop photoprotective formulations containing nanoencapsulated quercetin, characterize the physical-mechanical and sensorial properties, and evaluate the influence of nanocarriers on sun protection factor (SPF) and the immediate clinical effects. Sunscreen formulations with or without antioxidants in a free form or loaded in nanostructured lipid carriers (NLCs) were developed. After the stability, rheological behavior, texture profile, and in vivo SPF (sun protector factor) evaluation, sixty female participants, aged between 20 and 35 years, were enclosed to evaluate the sensorial properties and immediate clinical effects of the formulation in the skin hydration using biophysical and skin imaging techniques. The correlation of rheological behavior, texture profile, and sensory properties enabled the correct choice of formulation ingredients. In addition, the use of NLCs with quercetin significantly improved the SPF in vivo of the developed photoprotective formulation, without increasing the amount of UV filters. Finally, the association of NLCs in the photoprotective formulation showed synergistic effects in the SPF and an improvement in the skin barrier function and hydration.
Assuntos
Composição de Medicamentos , Lipídeos/administração & dosagem , Nanopartículas/química , Protetores contra Radiação/química , Fator de Proteção Solar , Protetores Solares/química , Adulto , Feminino , Humanos , Masculino , Pele/efeitos dos fármacos , Raios Ultravioleta , Adulto JovemRESUMO
In recent years, lipopeptides (LPs) have attracted a lot of attention in the pharmaceutical industry due to their broad-spectrum of antimicrobial activity against a variety of pathogens and their unique mode of action. This class of compounds has enormous potential for application as an alternative to conventional antibiotics and for pest control. Understanding how LPs work from a structural and biophysical standpoint through investigating their interaction with cell membranes is crucial for the rational design of these biomolecules. Various analytical techniques have been developed for studying intramolecular interactions with high resolution. However, these tools have been barely exploited in lipopeptide-lipid interactions studies. These biophysical approaches would give precise insight on these interactions. Here, we reviewed these state-of-the-art analytical techniques. Knowledge at this level is indispensable for understanding LPs activity and particularly their potential specificity, which is relevant information for safe application. Additionally, the principle of each analytical technique is presented and the information acquired is discussed. The key challenges, such as the selection of the membrane model are also been briefly reviewed.
Assuntos
Antibacterianos/metabolismo , Membrana Celular/metabolismo , Lipídeos/química , Lipopeptídeos/metabolismo , Animais , Biofísica , HumanosRESUMO
BACKGROUND: All over the world, people face the same skin problems. However, their skin characteristics are different. Thus, it is a challenge to prescribe treatments that will be effective on different skin types. Therefore, it is very important to consider the skin biology when indicating a dermocosmetic treatment. OBJECTIVES: To assess skin biophysical parameters in French and Brazilian subjects and to verify the efficacy of four dermocosmetic treatments in these populations. METHODS: Five test areas were defined on each volar forearm of the eighteen Brazilian and eighteen French participants using a randomized design. Biophysical measurements in terms of skin hydration, skin barrier function, skin brightness, and skin viscoelasticity were performed before and after 60 minutes of treatment. RESULTS: Skin biophysical differences between populations were found. French skin has been shown to be more hydrated regarding epidermal mechanic properties and stratum corneum water content and more radiant when compared with Brazilian skin. However, it showed more signs of cutaneous aging and fatigue effects on skin. The Brazilian skin showed better skin barrier function. In addition, the treatments were effective in both populations. CONCLUSIONS: Despite the differences found in French and Brazilian skin, the proposed dermocosmetic treatments showed effective in both populations.
Assuntos
Clareadores/administração & dosagem , Técnicas Cosméticas , Envelhecimento da Pele/efeitos dos fármacos , Creme para a Pele/administração & dosagem , Pele/efeitos dos fármacos , Adulto , Brasil , Elasticidade/efeitos dos fármacos , Elasticidade/fisiologia , França , Geografia , Humanos , Pele/química , Envelhecimento da Pele/fisiologia , Resultado do Tratamento , Viscosidade/efeitos dos fármacos , Perda Insensível de Água/efeitos dos fármacos , Perda Insensível de Água/fisiologia , Adulto JovemRESUMO
OBJECTIVE: Products with film-forming effect, or 'second skin', which guarantees an immediate protective effect after application, is a highlight, especially when composed of natural ingredients. Thus, the objective of this study was to evaluate the immediate film-forming effect on skin of a gel and emulsion formulations added with Kappaphycus alvarezii and Caesalpinia spinosa extracts through biophysical and skin imaging techniques, especially with the Reflectance Confocal Microscopy (RCM). METHODS: The measurements were done in the forearm region before (baseline) and 1 h after of application of the developed formulation and its control. The parameters related to the stratum corneum water content, transepidermal water loss (TEWL), cutaneous microrelief and morphological and structural characteristics of the epidermis were analysed through the following biophysical and skin imaging techniques: Corneometer® CM 825, Tewameter® TM 300, Visioscan® VC98 and Vivascope® 1500, respectively. A sensorial analysis was also performed to study how the formulations were perceived on the skin. RESULTS: The obtained results showed that the active ingredient under study allows the film formation on the skin surface, leading to a reduction of TEWL and skin desquamation. The obtained images from RCM showed a reduction of furrows on the skin surface and a film formation after a single application of the formulations. However, these effects were more pronounced in the emulsion formulation, which suggests a synergistic effect of the active ingredient under study with the emollients of formulation composition. This result was also observed in the sensorial analysis, as both formulations added with the active substance were well evaluated. CONCLUSION: The presence of Kappaphycus alvarezii and Caesalpinia spinosa extracts in the studied cosmetic formulations, enabled a film formation on a skin surface, bringing benefits as a reduction of transepidermal water loss and skin desquamation, as well as a furrows reduction and an improvement of stratum corneum after 1 h of application. Finally, the skin imaging techniques can be suggested as an excellent tool to evaluate a film-forming effect of cosmetic formulations.
OBJECTIF: Les produits ayant un effet filmogène, ou « deuxième peau ¼ qui garantit un effet protecteur immédiat après l'application, sont un plus, notamment lorsqu'ils sont composés d'ingrédients naturels. L'objectif de cette étude visait ainsi à évaluer l'effet filmogène immédiat sur la peau de formulations avec gel et émulsion enrichies d'extraits de Kappaphycus alvarezii et de Caesalpinia spinosa grâce à des techniques d'imagerie cutanée et biophysique, en particulier par microscopie confocale par réflectance (MCR). MÉTHODES: Les mesures ont été effectuées dans la région de l'avant-bras avant (référence) et 1 h après l'application de la formulation développée et de son contrôle. Les paramètres liés à la teneur en eau de la couche cornée, perte d'eau transépidermique (Transepidermal Water Loss, TEWL), au microrelief cutané et aux caractéristiques structurelles et morphologiques de l'épiderme ont été analysés à l'aide des techniques d'imagerie cutanée et biophysique suivantes : Corneometer® CM 825, Tewameter® TM 300, Visioscan® VC98 et Vivascope® 1500, respectivement. Une analyse sensorielle a également été réalisée pour étudier comment les formulations étaient perçues sur la peau. RÉSULTATS: Les résultats obtenus ont montré que le principe actif étudié permet la formation d'un film à la surface de la peau, entraînant une réduction de la TEWL et de la desquamation de la peau. Les images obtenues par MCR ont montré une réduction des sillons à la surface de la peau et la formation d'un film après une seule application des formulations. Ces effets étaient toutefois davantage prononcés avec la formulation de type émulsion, ce qui suggère un effet synergique du principe actif étudié avec les émollients contenus dans la formulation. Ce résultat a également été observé dans l'analyse sensorielle, car les deux formulations enrichies en substance active ont été bien évaluées. CONCLUSION: La présence d'extraits de Kappaphycus alvarezii et de Caesalpinia spinosa dans les préparations cosmétiques étudiées a permis la formation d'un film à la surface de la peau, procurant des bénéfices sous forme d'une réduction de la perte d'eau transépidermique et de la desquamation de la peau, de même qu'une réduction des sillons et une amélioration de la couche cornée 1 h après l'application. Enfin, les techniques d'imagerie cutanée peuvent être proposées comme excellent outil d'évaluation de l'effet filmogène des préparations cosmétiques.
Assuntos
Cosméticos/farmacologia , Pele/diagnóstico por imagem , Fenômenos Biofísicos , Fabaceae/química , Humanos , Rodófitas/química , Pele/efeitos dos fármacosRESUMO
abstract Acetyl hexapeptide-3 has been used in anti-aging topical formulations aimed at improving skin appearance. However, few basic studies address its effects on epidermis and dermis, when vehiculated in topical formulations. Thus, the objective of this study was to determine the clinical efficacy of acetyl hexapeptide-3 using biophysical techniques. For this purpose, formulations with and without acetyl hexapeptide-3 were applied to the ventral forearm and the face area of forty female volunteers. Skin conditions were evaluated after 2 and 4-week long daily applications, by analyzing the stratum corneum water content and the skin mechanical properties, using three instruments, the Corneometer(r) CM 825, CutometerSEM 575 and ReviscometerRV600. All formulations tested increased the stratum corneum water content in the face region, which remained constant until the end of the study. In contrast, only formulations containing acetyl hexapeptide-3 exhibit a significant effect on mechanical properties, by decreasing the anisotropy of the face skin. No significant effects were observed in viscoelasticity parameters. In conclusion, the effects of acetyl hexapeptide-3 on the anisotropy of face skin characterize the compound as an effective ingredient for improving conditions of the cutaneous tissue, when used in anti-aging cosmetic formulations.
resumo Acetil hexapeptídeo-3 tem sido utilizado como um ingrediente ativo em formulações tópicas antienvelhecimento para a melhoria da aparência cutânea. No entanto, poucos estudos avaliam seus efeitos na epiderme e derme, quando veiculado em formulações tópicas. Portanto, o objetivo desse estudo foi a determinação da eficácia clínica de acetil hexapeptídeo-3 utilizando técnicas de biofísica e de análise de imagem. Para tal, formulações contendo, ou não, acetil hexapeptídeo-3 foram aplicadas no antebraço volar e na face de voluntárias. As condições cutâneas foram avaliadas após duas e quatro semanas de aplicação diária das formulações, por meio da análise no conteúdo aquoso do estrato córneo e avaliação das propriedades mecânicas da pele, utilizando os equipamentos Corneometer(r) CM 825, CutometerSEM 575 e ReviscometerRV600. Todas as formulações avaliadas aumentaram o conteúdo aquoso do estrato córneo na face, o qual permaneceu constante até o fim do estudo. Por outro lado, somente as formulações contendo acetil hexapeptídeo-3 apresentaram efeito significativo nas propriedades mecânicas, por meio da diminuição da anisotropia da pele na face. Não foram observados efeitos significativos para os parâmetros de viscoelasticidade. Em conclusão, os efeitos de acetil hexapeptídeo-3 na pele caracteriza este peptídeo como um ingrediente ativo efetivo para a melhoria das condições cutâneas, quando utilizadas em formulações cosméticas.
Assuntos
Humanos , Pele/metabolismo , Técnicas Cosméticas , Estudo Clínico , Cosméticos/análiseRESUMO
OBJECTIVE: Green coffee oil (GCO) has been used in cosmetic formulations due to its emollient and anti-ageing properties. However, there are insufficient studies about its safety when applied in cosmetic formulations. METHODS: Cytotoxicity of GCO and of formulations containing 2.5-15% of GCO was evaluated by the MTT reduction assay, in human keratinocytes. Formulations containing 15% of GCO and the vehicle were applied under in use conditions in the volar forearm of human volunteers during 3 days. Transepidermal water loss, stratum corneum water content and erythema index were evaluated each 24 h using biophysical techniques. The same formulations were probed for skin tolerance through a patch test. RESULTS: Neither pure GCO nor its formulations showed cytotoxic effects in concentrations up to 100 µg mL(-1) . Transepidermal water loss values showed a slight reduction when the formulation containing GCO was applied. Stratum corneum water content and erythema index did not show significant differences, as the results observed in the first day of the study were maintained throughout 3 days. None of the volunteers display any reaction after using an occlusive patch. CONCLUSION: The results obtained in the study indicate that GCO seems to be safe for topical applications and showed good skin compatibility under the experimental conditions of the study.
Assuntos
Café , Cosméticos , Óleos de Plantas , Pele , Células Cultivadas , HumanosRESUMO
O objetivo foi verificar as alterações no estrato córneo em modelos alternativos de membrana após a aplicação de ativos hidratantes envolvendo métodos biofísicos. O modelo de biomembrana utilizado foi a muda de pele de Crotalus durissus e os ativos hidratantes foram: uréia, silício orgânico, extrato vegetal de Imperata cylindrica, reação de xilitol e glicose e componentes de NMF. Os resultados da avaliação das alterações do modelo por meio de Espectroscopia Raman com Transformada de Fourier sugerem que os ativos hidratantes confirmam segurança necessária, pois não alteraram de forma acentuada a estrutura do estrato córneo. Utilizando-se Calorimetria Exploratória Diferencial pode-se indicar que a solução de silício orgânico e o gel hidrofílico com uréia apresentaram melhor poder hidratante.
The objective of this research was to use biophysical techniques to investigate the alterations induced in a biomembrane model of the stratum corneum by the application of moisturizers. The biomembrane was obtained from the skin shed by the rattlesnake Crotalus durissus and the active moisturizing compounds were: urea, dimethylsilanol hyaluronate, Imperata cylindrical plant extract, carbohydrates and natural moisturizing factors (NMF components). Results from FT-Raman spectroscopy suggested that the moisturizers were safe, since they did not promote modifications in the structure of the stratum corneum. Differential scanning calorimetry results indicated that the solution containing the organic silicon compound and the gel with urea showed the best hydrating effects on the stratum corneum.