Assessing compatibility of excipients selected for a sustained release formulation of bilberry leaf extract

Abstract The study is aimed to assess the compatibility of bilberry leaf powder extract (BLPE) with six excipients selected for sustained-release (SR) tablet formulation. The BLPE was obtained with the addition of L-arginine and Myo-inositol as the carriers. Thermogravimetric (TG-DTG) analysis and Fourier-transform infrared spectroscopy (FTIR), supported by Pearson correlation analysis, were applied to detect possible interactions in the binary mixtures (1:1) of the BLPE with each excipient. The TG-DTG showed some deviations in the thermal behavior of the BLPE / excipient mixtures. However, only the thermal behavior of magnesium stearate in the mixture significantly differed from individual samples, which suggested chemical interaction for this excipient. The FTIR analysis confirmed that the BLPE is compatible with Eudragit L100, Methocel K4M, Methocel K100LV, Avicel PH-101, and Plasdone S-630. Whereas it undergoes solid-state chemical interaction in the binary mixture with magnesium stearate. According to the FTIR-spectra, it is suggested that this interaction results in the formation of stearic acid and alkalization of the medium. These findings evidence for the possibility of using TG-DTG analysis as an independent thermal technique for compatibility studies and also confirm the earlier reported interaction of basic lubricants, e.g., stearic salts, with active ingredients containing amino groups.

Fotoprotetores bioativos contendo extrato de mirtilo (Vaccinium myrtillus L. ): caracterização físico-química e funcional / Bioactive sunscreens containing blueberry (Vaccinium myrtillus L. ): physicochemical and funcional characterization

Os efeitos deletérios causados pela radiação ultravioleta (UV) e o aumento significativo no diagnóstico de câncer de pele, confirmam a necessidade de um progresso significativo na pesquisa de produtos fotoprotetores eficazes e seguros, para proteção eficaz da pele. As formulações atuais associam filtros UV, orgânicos e inorgânicos, com eficácia limitada e que podem acarretar reações cutâneas adversas. O extrato de Vaccinium myrtillus L. (EVM) apresenta em sua composição compostos fenólicos, como as antocianinas, que possuem atividade antioxidante. O objetivo deste estudo foi avaliar formulações fotoprotetoras contendo extrato de Vaccinium myrtillus L. com amplo espectro de ação e concentrações reduzidas de filtros UV. As emulsões contendo ou não EVM e filtros orgânicos (octocrileno e metileno bis-benzotriazolil tetrametilbutilfenol) e inorgânico (dióxido de titânio) foram avaliadas e consideradas estáveis perante parâmetros pré-definidos. O perfil de segurança foi determinado pelo método in vitro Hen´s Egg Test - Chorioallantoic Membrane (HET-CAM) e o potencial antirradicalar do EVM foi confirmado pelo teste de DPPH• A formulação fotoprotetora acrescida de 5,0% de EVM foi avaliada quanto à eficácia fotoprotetora in vivo e in vitro e não demonstrou aumento significativo no FPS quando comparada à formulação que continha somente os filtros solares e, no ensaio referente à hidratação da pele, não houve alteração nos dados, segundo teste de eficácia clínica. Os resultados obtidos sugeriram que mesmo não apresentando aumento no valor de FPS in vivo, a formulação fotoprotetora contendo o extrato, poderia atuar como agente antioxidante evitando os danos provocados pela radiação UV

The deleterious effects caused by ultraviolet radiation (UV) and the significant increase in the diagnosis of skin cancer confirm the need for significant progress in researching effective and safe sunscreen products for effective skin protection. Current formulations associate UV, organic and inorganic filters with limited efficacy that can lead to adverse skin reactions. Vaccinium myrtillus extract (EVM) contains in its composition polyphenols compounds, such as anthocyanins, which have been antioxidant activity. The objective of this study was to evaluate sunscreens containing EVM with broad action spectrum and reduced concentrations of UV filters. Emulsions containing or not EVM and organic (octocrylene and methylene bis-benzotriazolyl tetramethylbutylphenol) and inorganic (titanium dioxide) filters were evaluated and considered stable under pre-defined parameters. The safety of the emulsion was assessed was determined by the in vitro Hen´s Egg Test - Chorioallantoic Membrane method (HET-CAM) and the antiradical potential of EVM was confirmed by the DPPH• test. The sunscreen formulation containing EVM 5.0% was photoprotective efficacy evaluated in vivo and in vitro and did not show a significant increase in SPF when compared the formulation only with UV filters and no improves skin hydration, according to clinical efficacy assay. The results of the study suggest that even without increase SPF in vivo, the sunscreen formulation containing the extract may show antioxidant activity avoiding damage caused by UV