Application of the Botryococcus braunii microalgae extract in sunscreens

Diversos produtos tópicos são desenvolvidos a fim de se evitar os efeitos nocivos da radiação ultravioleta (UV), dentre eles, os protetores solares constituídos por filtros físicos e/ou químicos. No entanto, os filtros químicos podem promover eventos adversos, razão pela qual a busca de ativos em fontes naturais tem-se mostrado de grande importância. A microalga Botryococcus braunii pode ser de potencial interesse em aplicações cosméticas, pois foi descrito que seu extrato aquoso apresentou redução da desidratação cutânea, induziu a produção do colágeno, bem como promoveu atividade antioxidante. Assim, o estudo visou analisar o auxilio da B. braunii na fotoproteção cutânea e na proteção da pele por meio da ação antioxidante in vitro. As formulações, constituídas de biomassa da microalga ou de seus extratos, acrescidas ou não de filtros, foram avaliadas quanto à: ação antioxidante, atividade fotoprotetora in vitro e fotoestabilidade. A B. braunii apresentou bom desempenho de crescimento, contendo lipídeos (25,65%) e proteínas (49,17%) em proporção semelhante à descrita na literatura. A presença de fenóis totais e a ação antioxidante foram analisadas nos extratos obtidos com clorofórmio, metanol e etanol 70%. O extrato obtido com etanol 70% foi o que apresentou maior concentração de fenóis totais (68,9 µg/mL de ácido cafeico), porém inferior ao relatado na literatura; e a ação antioxidante não foi considerada significativa ao se comparar com o padrão Trolox®. Nas formulações, os extratos foram considerados ineficientes para ação antioxidante. Quanto à atividade fotoprotetora in vitro e fotoestabilidade, a B. braunii não apresentou eficácia adequada, existindo, porém, a possibilidade de os extratos atuarem na região da luz visível e contribuírem contra os efeitos danosos provocados por esta radiação à pele.Several topical products are developed in order to avoid the harmful effects of ultraviolet (UV) radiation, including sunscreens made by physical and/or chemical filters. However, chemical filters may promote adverse events, which is why the search for actives from natural sources has proven to be of great importance. The microalgae Botryococcus braunii may be of potential interest in cosmetic applications, because it has been reported that its aqueous extract showed a reduction in skin dehydration, induced collagen production and promoted antioxidant activity. Thus, the study aimed to analyze the contribution of B. braunii in skin photoprotection and skin protection through in vitro antioxidant action. The formulations, consisting of biomass from the microalgae or their extracts, supplemented or not by filters, were evaluated for: antioxidant activity, photoprotective activity in vitro and photostability. The B. braunii showed good growth performance, containing lipids (25.65%) and protein (49.17%) in similar proportion to the described by the literature. The presence of phenolic compounds and antioxidant activity were analyzed in extracts obtained with chloroform, methanol and 70% ethanol. The extract obtained with 70% ethanol showed the highest concentration of total phenolics (68.9 mg/mL caffeic acid), but lower than that reported in the literature; and the antioxidant action was not considered significant when compared to the Trolox® standard. In the formulations, the extracts were considered inefficient for antioxidant action. In relation to the in vitro photoprotection activity and photostability, B. braunii did not provide adequate efficacy, however, there is a possibility that the extracts have an ability to act in the visible light region and contribute to the protection from the harmful effects caused by that radiation to the skin

Dietary Supplements and the Skin: Focus on Photoprotection and Antioxidant Activity—A Review

Skin health is not only significantly affected by ageing, but also by other lifestyle-related factors, such as sun exposure, exercise and eating habits, smoking or alcohol intake. It is known that the cutaneous tissue can exhibit visible signs of senescence, in the form of, for example, dull complexion, loss of firmness, or changes in pigmentation. Consumers attempt to improve skin health and appearance not only by cosmetic products, but also with the consumption of food supplements. Recently, there has been an increase in the amount of food supplements with claims that are related to skin and hair health. Nevertheless, the literature is still scarce in evidence of the efficacy of this type of products. Considering this scenario, we aim in this review to assemble studies and methodologies that are directed at the substantiation of the cutaneous health claims of food supplements. For example, we reviewed those that were indicative of antioxidant properties, improvement in pigmentation disorders, increased hydration or protection against the damages caused by ultraviolet radiation

Prospecting In Vitro Antioxidant and Photoprotective Properties of Rosmarinic Acid in a Sunscreen System Developed by QbD Containing Octyl <i>p</i>-Methoxycinnamate and Bemotrizinol

Progressively growing diagnoses of skin cancer trigger public health concerns about excessive sun exposure, awareness of the deleterious effects of ultraviolet (UV) radiation on the skin, and the proper use of sunscreens. Studies show that bioactive molecules, such as rosmarinic acid (RA), may potentiate the photoprotective and antioxidant activity of topical formulations. This research presents the application of the concepts of quality by design (QbD) to evaluate the critical parameters of quality and the development of an optimized cosmetic formulation with RA by means of an understanding of product design space. Samples were developed using design of experiments (DoE) and they were evaluated for in vitro antioxidant activity and photoprotective efficacy, as well as for photostability through artificial irradiation. We were able to achieve the RA performance regarding antioxidant and SPF properties through in vitro experiments. We obtained the equations for predicting the in vitro antioxidant activity and SPF. Considering our sunscreen system, developed with octyl p-methoxycinnamate and bemotrizinol, the presence of RA increased its antioxidant capacity; however, the in vitro SPF was reduced when both UV filters were used. The development of multifunctional sunscreens is of utmost importance; moreover, there is a need for the rational development of formulations that ensure representative statistical tests of the effects and interactions among the components of a formulation on the desired critical quality attributes, including efficacy

Rosmarinic Acid Multifunctional Sunscreen: Comet Assay and In Vivo Establishment of Cutaneous Attributes

The skin acts as a protective barrier, guarding the body against microorganisms, chemicals, and several environmental factors. Accordingly, this all-important organ must be kept healthy to maintain its optimal functionality. One approach to maintain skin health is the application of multifunction bioactive sunscreens containing antioxidant molecule(s). Rosmarinic acid (RA), a phenolic compound, is known for its antioxidant activity. Herein, the safety and efficacy of a multifunction prototype sunscreen were investigated, aiming to evaluate the performance of this polyphenol with two known and widely used UV filters (bemotrizinol and octyl p-methoxycinnamate). Samples protected the DNA fragmentation compared to UV control, by the comet assay, and showed good skin compatibility in subjects. Formulations F1 and F3 were able to increase skin hydration, and, possibly, the RA interfered with this attribute. An increase in transepidermal water loss was observed for formulations F1, F2, and F4, which may be related to the vehicle, containing the RA or not. No decreases were observed in the inflammatory reaction caused by the ethyl nicotinate with any of the samples. As a perspective, we suggest trials with a greater number of subjects or protocol modifications. Altering the vehicle qualitative and quantitative composition is also a pertinent perspective

Rosmarinic Acid Multifunctional Sunscreen: Comet Assay and In Vivo Establishment of Cutaneous Attributes

The skin acts as a protective barrier, guarding the body against microorganisms, chemicals, and several environmental factors. Accordingly, this all-important organ must be kept healthy to maintain its optimal functionality. One approach to maintain skin health is the application of multifunction bioactive sunscreens containing antioxidant molecule(s). Rosmarinic acid (RA), a phenolic compound, is known for its antioxidant activity. Herein, the safety and efficacy of a multifunction prototype sunscreen were investigated, aiming to evaluate the performance of this polyphenol with two known and widely used UV filters (bemotrizinol and octyl p-methoxycinnamate). Samples protected the DNA fragmentation compared to UV control, by the comet assay, and showed good skin compatibility in subjects. Formulations F1 and F3 were able to increase skin hydration, and, possibly, the RA interfered with this attribute. An increase in transepidermal water loss was observed for formulations F1, F2, and F4, which may be related to the vehicle, containing the RA or not. No decreases were observed in the inflammatory reaction caused by the ethyl nicotinate with any of the samples. As a perspective, we suggest trials with a greater number of subjects or protocol modifications. Altering the vehicle qualitative and quantitative composition is also a pertinent perspective