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Electrospinning and bioactive compounds: the use of nanotechnology to tailor food ingredients

Abstract

Anna Rafaela Cavalcante Braga

Brazilian biodiversity has been received great notoriety in many types of research, mainly due to the wide variety of native fruits little explored. These fruits usually are sources of bioactive compounds, molecules capable of promoting a range of health benefits when consumed regularly by the diet. However, these properties are considerably reduced due to the exposition of the bioactive compounds to variations in factors intrinsic to production processes, such as temperature and light, and to the food digestion process itself, such as pH and oxygen, thus causing changes in the molecular structure of those compounds leading to loss of stability. The incorporation of these bioactive compounds in nanostructures has been shown to be efficient in maintaining stability and consequent potentiation of biological activity, and, this way, leading to advances in ingredient engineering. Besides, nanostructures possess the advantage of having a larger surface area, which increases solubility and also allows more precise targeting of molecules in the body.Electrospinning is a procedure that use the understanding of nanotechnology, materials development engineering, and physic properties to produce nanostructures with unique utilities and assets. In those electrodynamic methods, the polymeric solution is ejected over the use of the high electrical potential at mild conditions in terms of pressure and temperature. Additionally, there are two main configurations to use the equipment: uniaxial (polymer and bioactive compound in solution previously homogenized it is ejected) or coaxial (setup in which mixture of polymer and target compound happened only on the moment of the jet ejection). Several authors have already highlighted the efficient use of these methods in the application process of bioactive compounds in nanostructured systems and no matter the physical properties of the bioactive compound used, a protective effect it was always shown as long as nanotechnology was applying.

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