Camila Areias de Oliveira

Cutaneous biocompatible rutin-loaded gelatin-based nanoparticles increase the SPF of the association of UVA and UVB filters

The encapsulation of natural ingredients, such as rutin, can offer improvements in sun protection effectiveness. This strategy can provide enhanced flavonoid content and produces an improved bioactive compound with new physical and functional characteristics. As an alternative to common synthetic-based sunscreens, rutin-entrapped gelatin nanoparticles (GNPs) were designed and associated with ethylhexyl dimethyl PABA (EHDP), ethylhexyl methoxycinnamate (EHMC) and methoxydibenzoylmethane (BMDBM) in sunscreen formulations. The purpose of this study was to develop rutin-loaded gelatin nanoparticles and characterize their physicochemical, thermal, functional and safety properties. Rutin-loaded gelatin nanoparticles increased antioxidant activity by 74% relative to free-rutin (FR) solution. Also, this new ingredient upgraded the Sun Protection Factor (SPF) by 48%, indicating its potential as a raw material for bioactive sunscreens. The safety profile indicated that GNPs and glutaraldehyde (GTA) decreased HaCaT cell viability in a concentration/time-dependent manner. However, both blank nanoparticles (B-NC) and rutin-loaded nanoparticles (R-NC) had good performance on skin compatibility tests. These results functionally characterized rutin-loaded nanoparticles as a safe SPF enhancer in sunscreens, especially in association with UV filters.

Functional photostability and cutaneous compatibility of bioactive UVA sun care products

Sunscreens are the most-established approach for photoprotection. The strategy of providing antioxidant properties to sun care products by addition of natural and potent anti-free radical compounds has led to the development of bioactive sunscreens, able to neutralize the harmful effects of ultraviolet (UV) radiation. UVA filters, such as benzophenone-3 (BP) and butyl methoxydibenzoylmethane (BMDBM), can exhibit photodegradation which limits the development of broad spectrum sunscreens. Previous research verified that rutin interacts with filters incorporated in sunscreens. In this work, we focused on the development and evaluation of the efficacy of the sunscreens containing either BP or BMDBM with and without rutin. The addition of rutin to the UVA filters afforded antioxidant properties to the formulations and they were considered safe for human use. Additionally, rutin in combination with either BP or BMDBM increased the antioxidant activity about 40 times when compared with the UVA filters alone. Remarkably, the addition of rutin 0.1% (w/w) to BP 6.0% (w/w) raised the SPF from 24.3±1.53 to 33.3±2.89. In conclusion, these findings demonstrated that the addition of rutin into sunscreens can markedly improve the antioxidant properties of the formulation as well as photostabilize some of the UVA filters.

Safety and efficacy evaluation of gelatin-based nanoparticles associated with UV filters.

The safety and efficacy assessment of nanomaterials is a major concern of industry and academia. These materials, due to their nanoscale size, can have chemical, physical, and biological properties that differ from those of their larger counterparts. The encapsulation of natural ingredients can provide marked improvements in sun protection efficacy. This strategy promotes solubility enhancement of flavonoids and yields an improved active ingredient with innovative physical, physicochemical and functional characteristics. Rutin, a flavonoid, has chemical and functional stability in topical vehicles exerting a synergistic effect in association with ultraviolet (UV) filters. However, the solubility of rutin is a limiting factor. Additionally, this bioactive compound does not have tendency to permeate across the stratum corneum. As an alternative to common synthetic based sunscreens, rutin-entrapped gelatin nanoparticles were designed. The present study investigated the pre-clinical safety of gelatin nanoparticles (GNPs) using an in vitro method and also assessed the clinical safety and efficacy of the association of GNPs with three commonly used chemical UV filters (ethylhexyl dimethyl PABA, ethylhexyl methoxycinnamate and methoxydibenzoylmethane). The non-irritant and adequate safety profile under sun-exposed skin conditions of the nanomaterials and the emulsions qualified the products for clinical efficacy assays. The in vivo results indicated that the GNPs increased the antioxidant protection of the emulsions developed. However, the presence of rutin in the nanosized material did not enhance performance on the SPF test. In conclusion, these findings characterized the nanomaterials as an innovative platform for multifunctional bioactive sunscreens.

Longitudinal assessment of T‐lymphocyte subpopulations during generalized demodicosis in dogs and their relationship with remission

BACKGROUND The pathogenesis of canine generalized demodicosis is poorly understood but is thought to involve dysfunction of the immune system. Previous studies showed diminished CD4+ T lymphocyte counts in affected dogs, but none has evaluated this subpopulation through resolution of the disease. HYPOTHESIS/OBJECTIVES In this longitudinal study, we tested whether quantification of CD4+ cells, CD8+ cells and the ratio of CD4+ to CD8+ cells are good indicators of immunological status and could be used as biomarkers of treatment efficacy and prognosis. ANIMALS Sixteen dogs of several breeds with diagnoses of generalized demodicosis, plus 30 age/breedmatched healthy dogs. METHODS Total lymphocytes, CD4+, CD8+ and CD4+:CD8+ ratio were quantified at four time points: at diagnosis, 30 days after diagnosis (during treatment), at first negative parasitological examination and at clinical cure. RESULTS Absolute numbers of CD4+ cells were significantly lower in affected dogs at the time of diagnosis. Absolute numbers of CD4+ and CD8+ cells were significantly augmented in affected animals compared with control dogs after treatment was established, and this persisted until the first negative parasitological examination, at which time the CD4+ counts equalled those of the control group. CONCLUSIONS AND CLINICAL IMPORTANCE Our findings suggest that longitudinal quantification of CD4+ and CD8+ T lymphocytes is a useful indicator of the efficacy of demodicosis treatment.

Ferulic acid photoprotective properties in association with UV filters: multifunctional sunscreen with improved SPF and UVA-PF

Ultraviolet (UV) radiation stimulates several injurious biological effects on cutaneous tissue, causing, for instance, photocarcinogenesis. Sunscreens are topical products designed to protect the skin against these harmful effects and their use must be encouraged. The addition of antioxidants, as ferulic acid (FA), a phenolic compound from the class of the hydroxycinnamic acids, in sunscreens could improve their sun protection factor (SPF) and prevent inflammatory reactions. Here, the clinical safety and efficacy of an association of ethylhexyl triazone and bis-ethylhexyloxyphenol methoxyphenyl triazine (UV filters) with ferulic acid were assessed. Samples had good skin biocompatibility and presented satisfactory safety profile, even in a sun-exposed condition. A synergic effect between the natural polyphenol and the UV filters was evidenced, as well as, FA increased in vivo SPF in 37% and the UVA protection factor (UVA-PF) in 26%. The in vivo data indicated that FA reinforced the broad-spectrum characteristic of the photoprotective formulations. Additionally, according to the results from the ex vivo antioxidant test, it is plausible to recommend adjustments on the ex vivo protocol to explicitly determine the positive effects of topical antioxidant ingredients applied over the skin. These results provided a new perspective for the development of multifunctional bioactive sunscreens using FA as a new platform.

SPF enhancement provided by rutin in a multifunctional sunscreen

ABSTRACT Unprotected chronic exposure to solar radiation can contribute to premature skin cancer and sunscreens are a key factor to avoid those detrimental effects. Currently, there is a growing interest in the photoprotector and antioxidant potential of bioactive substances, such as rutin, that could increase the sun protection factor (SPF) value and, also, donate multifunctional characteristics to sunscreens. Recent in vitro findings indicated that rutin, when incorporated into sunscreens, can provide antioxidant activity and SPF improvement. However, clinical studies are fundamental to determine this activity, due to the lack of repeatability of in vitro methodology and low correlation with the in vivo data. We aimed at evaluating the clinical safety and in vivo SPF of rutin by comparing sunscreen formulations containing 0.1% (w/w) rutin, 3.0% (w/w) butyl methoxydibenzoylmethane and 8.0% (w/w) octyl dimethyl PABA (2‐ethylhexyl 4‐(dimethylamino)benzoato) with a similar bioactive‐free preparation. Additionally, skin hydration, in vitro SPF and in vitro antioxidant activity of rutin, in association with the ultraviolet (UV) filters, were investigated. The safety profile of the formulations under sun‐exposed skin conditions qualified the formulas for clinical efficacy assays. 2,2‐Diphenyl‐1‐picrylhydrazyl (DPPH) test confirmed the antioxidant properties of rutin, revealing around 40% increase in radical scavenging potential when the bioactive compound was present. Rutin in combination with the UV filters robustly elevated the clinical SPF around 70%, when compared with the bioactive‐free formulation. To date, this is the first report in the specialized literature of an in vivo SPF measurement of a rutin‐containing photoprotective preparation, supporting the claim that rutin is an effective and safe bioactive compound to be used in multifunctional sunscreens.

Safety and Antioxidant Efficacy Profiles of Rutin-Loaded Ethosomes for Topical Application

Topical application of dermocosmetics containing antioxidant and/or the intake of antioxidants through diet or supplementation are remarkable tools in an attempt to slow down some of the harmful effects of free radicals. Rutin is a strong antioxidant compound used in food and pharmaceutical industries. It was established that rutin presents a low skin permeation rate, a property that could be considered an inconvenience to the satisfactory action for a dermocosmetic formulation to perform its antioxidant activity onto the skin. Therefore, it is indispensable to improve its delivery, aiming at increasing its antioxidant capacity in deeper layers of the epidermis, being a possibility to associate the rutin to liposomal vesicles, such as ethosomes. Thus, in this work, the pre-clinical safety of rutin-loaded ethosomes was investigated employing an in vitro method, and the clinical safety and efficacy were also assessed. Rutin-loaded ethosomes were efficaciously obtained in a nanoscale dimension with a relevant bioactive compound loading (80.2%) and provided antioxidant in vitro activity in comparison with the blank sample. Pre-clinical and clinical safety assays assured the innocuous profile of the rutin-loaded ethosomes. The ethosomes containing the bioactive compound accomplished a more functional delivery system profile, since in the tape stripping assay, the deeper layers presented higher rutin amounts than the active delivered in its free state. However, the ex vivo antioxidant efficacy test detected no positive antioxidant activity from the rutin-loaded ethosomes, even though the in vitro assay demonstrated an affirmative antioxidant action.

Comparison of sunscreens Containing Titanium Dioxide Alone Or In Association With Cocoa, Murumuru Or Cupuaçu Butters: Comparação de Protetores Solares Contendo Dióxido De Titânio Associado Ou Não A Manteigas De Cacau, Murumuru Ou Cupuaçu

Ingredients of natural origin may represent alternatives for formulating sunscreens, without compromising their effectiveness. The literature has shown the antioxidant potential of compounds existing in murumuru (Astrocaryum murmuru), cupuaçu (Theobroma grandiflorum) and cocoa (Theobroma cacao) butters that recommends further investigation. The objectives of this research were: (1) to develop bioactive photoprotective formulations containing cocoa, murmuru or cupuaçu butters in association with a physical sunscreen (titanium dioxide (TiO2)) and (2) determine the possible photoprotective activity of butters and their interactions with the sunscreen. Cocoa, cupuaçu and murumuru butter were individually associated to TiO2 in O / W emulsions. The anti-UVA and UVB efficacy in vitro was estimated by diffuse transmittance analysis in a Labsphere® UV2000S, using quartz plates and Transpore® tape to obtain the SPF (sun protection factor) and critical wavelength. Photoprotective formulations containing titanium dioxide and bioactive butters were obtained using Aristoflex® AVC and triglycerides of caprylic capric acid (GTCC). The SPF of the samples containing only TiO2 and formulations containing cocoa, murumuru or cupuassu butters associated with TiO2 ranged from 4 to 5. The critical wavelength values for these formulations ranged from 383.0 to 386.7 nm. The results indicated no increase in the SPF value for formulations containing vegetable butters. The critical wavelength values indicated their potential to absorb part of the UVA radiation.

Photostabilization of sunscreens by incorporation of tea as the external phase: Fotoestabilização de protectores solares por incorporação de chás como fase externa

The use of isolated ultraviolet (UV) filters in photoprotective formulations creates products with limited protection against radiation, emphasising the need to develop formulations containing UVA and UVB filter combinations. However, most of the formulations developed to include both filters are unstable as a result of this combination, as well as by exposure to UV radiation. It is, therefore, crucial to include additives that enable photostabilization. Tea is the second most widely consumed beverage in the world and represents a good source of bioactive compounds, particularly polyphenols, which provide antioxidant activity. In the present work formulations containing green tea or black tea, as well as the sunscreens avobenzone (UVA sunscreen) and octilmetoxinamato (UVB sunscreen), were developed and evaluated in order to develop new and effective photostable formulations providing broad spectrum photoprotection. These formulations have been developed with complete replacement of the external phase of the oil in water (O/W) emulsion by these teas. The results showed that both teas presented photostabilizing capacity, particularly for green tea in the storage conditions at room temperature and at 5 °C, and black tea for the samples stored at 40 °C. Key-words: green tea, black tea, photoprotective formulations, photostabilizing capacity, octyl methoxynnamate, avobenzone

Impact of stirring speed, glycerin and sodium chloride concentrations on photoprotective nanoemulsions: Impacto da velocidade de agitação, contração de glicerina e de cloreto de sódio em nanoemulsões fotoprotetoras

New technologies that improve the physical as the sensory properties of sunscreens can help to increase its continued use and impact on health. The use of nanoemulsions in the development of photoprotective vehicles is an advantage, since nanostructured components may have superior properties regarding their performance when compared to conventional products. The advantages of using nanobiotechnology in manufacture of cosmetic and dermatological formulations arise from the protection of compounds from chemical or enzymatic degradation, from the control of their release, and also to the prolonged retention time of cosmetic ingredients in the stratum corneum. Thus, this study aimed to evaluate the impact of stirring speed and of glycerin and sodium chloride concentrations in the development and effectiveness of a nanoemulsion containing ethylhexyl methoxycinnamate and benzophenone-3. The results of statistical analyses regarding the impact of the variables in the process of nanoemulsion development showed that these parameters affect the phase inversion temperature (PIT). However, this did not affect the particle size and the photoprotective efficacy in vitro. Key-words: Nanoemulsion; Photoprotection; Ethylhexyl methoxycinnamate; Benzophenone-3