ABSTRACT
ABSTRACT: This study analyzed the use of the ultrasound-assisted method as an alternative to obtain munguba oil. The extraction provided a 47.70 % yield of an oil with appropriate quality, evaluated by assessing the %FFA as oleic acid, iodine, peroxide, and saponification values, in addition to the refractive index and density. The oil presented thermal stability up to 300 °C, was constituted mainly by palmitic acid (C16:0), and presented a total phenolic content of 55.02 ± 1.872 µgEAG g-1. Results suggest that the ultrasound-assisted method has the potential to obtain vegetable oils without compromising their characteristics and quality, as well as optimize extraction time, solvent volume, and operational costs. Moreover, munguba oil presents itself as a suitable and sustainable alternative as an adjuvant in food products, pharmaceuticals, cosmetics, and biofuels.
RESUMO: O estudo analisou a aplicação do método de extração assistida por ultrassom como método alternativo para a obtenção do óleo de munguba. A extração do óleo resultou num rendimento de 47.70 % com qualidade adequada avaliada pela %AGL como índices de ácido oleico, iodo, refração, peróxido, saponificação e densidade. O óleo apresentou estabilidade térmica até 300 °C sendo constituído majoritariamente do ácido palmítico (C16:0) e expressou um teor de fenóis totais de 55.02 ± 1.872 µg/EAGg-1. Os resultados sugerem que o método de extração assistida por ultrassom apresenta potencial para obtenção de óleos vegetais sem alterar suas características e qualidade, além de possibilitar a otimização do tempo, volume de solvente e custo operacional. Ainda, o óleo de munguba mostra-se como alternativa sustentável na aplicação como adjuvante em alimentos, medicamentos, cosméticos e biocombustíveis.
ABSTRACT
Advances in nanotechnology, combined with the use of natural products, represent a promissing research field. Brazil is a country of a rich biodiversity, especially in the Amazon forest. Fruits commonly used by local communities, such as bacaba (Oenocarpus bacaba), are potentially important for prospection of industrial applications of natural products. In nanotechnology, microemulsions stand out for providing a modified release to conveyed substances. This work aimed to develop microemulsionated formulations of bacaba oil, characterize them and evaluate their stability. We determined the HLB (hydrophile-lipophilic balance) of bacaba oil for formulation development. Six formulations were selected from pseudoternary diagrams, which indicated the proportions of surfactants, aqueous phase and bacaba oil. The viability of these formulations was evaluated through stability tests. We provided the rheological characterization of the formulations, evaluated their potential antioxidant activity through the DPPH (2,2-diphenyl-1-picrylhydrazyl) radical scavenging method, and determined the hydrodynamic diameter of the droplets. The microemulsions were stable throughout the test period. Droplet diameter was below 200 nm, and the microemulsions were characterized as newtonian fluids, presenting an increase in antioxidant activity when compared with the diluted oil. Our results confirm the potential of bacaba oil in microemulsionated formulation as a suitable carrier for active compounds. (AU)