Effects of gamma and electron beam irradiation in the antioxidante potential of methanolic extracts and infusions of Arenaria Montana L

Irradiation is a methodology qualified for dry ingredients preservation or decontamination and can be performed using various radiation sources and energy levels in accordance with the objectives to be achieved [1]. Electron beam irradiation is used mainly for food products with low density, while gamma irradiation is mainly used for large volumes [2]. Arenaria Montana L. has a high antioxidant potential and richness in bioactive phytochemicals. It is used in Portuguese traditional medicine, acting therapeutically as an anti-inflammatory and diuretic plant [3]. The aim of this work was to evaluate the effects of gamma and electron beam irradiation at different doses (I and 10 kGy) in the antioxidant activity of A. montana. Free radicals scavenging activity, reducing power and lipid peroxidation inhibition properties of its methanolic extracts and infusions were evaluated. Through a global analysis, it was concluded that the antioxidant activity proved to be higher in methanolic extracts in comparison with the infusions, where it decreased with increasing irradiation dose regardless of the technology used (gamma or electron beam). For methanolic extracts, electron beam resulted in increased antioxidant activity while gamma irradiation caused a decrease in these extracts. Thus, the antioxidant potential is variable depending not only on the type of radiation and the dose applied, but also on the solvent used in the preparation of the extracts (methanol or water).

Antiangiogenic potential of yogurts added with extracts rich in apigenin derivatives

Angiogenesis is a biological process through which there is the formation of new blood vessels from preexisting ones [I]. However, in pathological cases, the abnormal growth of new blood vessels promotes the development of various diseases including cancer [2) through the production of atypically large amounts of angiogenesis factors, e.g. the vascular endothelial growth factor (VEGF) [3]. The plant secondary metabolites have been the subject of several studies to evaluate their benefits to human health. In particular, the phenolic compounds have high potential for use in the food industry, including the development of functional foods. Among these, apigenin has been associated with chemopreventive effects related to cancer [4]. In fact, chemoprevention is a present-day concept and contemplates the use of medicines, biological compounds or nutrients as an intervention strategy of cancer prevention. In this work, an Arenaria montana L hydroethanolic extract was prepared and after characterization by HPLC-DAD-ESI/MS showed to be rich in apigenin derivatives. Furthermore, it exhibited ability to inhibit the phosphorylation of VEGFR-2 (vascular endothelium growth factor receptor) through an enzymatic assay. However, for the major protection of bioactive compounds, the extract was microencapsulated by an atomization/coagulation technique with alginate as the matrix material. Posteriorly, the hydroethanolic extract, in free and microencapsulated forms, was incorporated in yogurts in order to develop a novel chemopreventer food in relation to the angiogenesis process. The functionalized yogurts with A. montana extracts (free and microencapsulated) showed a nutritional value similar to the used control (yogurt without extract); however, the samples enriched with extracts revealed added-value regarding the VEGFR-2 phosphorylation inhibition ability. This effect was more effectively preserved over time in the samples functionalized with the protected extract. Overall, this work contributes to the valorization of plants rich in flavonoids, exploring its antiangiogenic potential with VEGFR-2 as target. Moreover, the atomization/coagulation technique allowed the production of viable microspheres enriched with the plant extract. The microspheres were effectively incorporated into yogurts, protecting the extract thus envisaging the development of novel functional foods with chemopreventive effects.

Avaliação dos efeitos da irradiação na composição química e bioatividade de plantas usadas na indústria farmacêutica e/ou alimentar

Algumas plantas são uma fonte natural de compostos bioativos, tais como polifenóis, vitaminas, carotenóides e ácidos gordos insaturados. Esta diversidade de biomoléculas permite a sua utilização em diversas áreas, especialmente como aditivos alimentares e ingredientes naturais para promoção da saúde. Estes fitoquímicos têm sido utilizados na industria farmacêutica, bem como na formulação de suplementos dietéticos, alimentos funcionais e nutracêuticos. No entanto, a utilização de matérias-primas de boa qualidade microbiológica é um dos requisitos essenciais na indútria, uma vez que os microrganismos podem contaminar o produto final, levando à sua deterioração. Assim, a irradiação é creditada para que a sua aplicação seja permitida em ingredientes secos, sendo cada vez mais reconhecida mundialmente, devido à eficiência na redução das perdas causadas por processos fisiológicos naturais (brotamento, maturação e envelhecimento), para eliminar ou reduzir microorganismos, parasitas e pragas, sem que ocorra qualquer alteração (química ou organoléptica) no alimento, tornando-o mais seguro para o consumidor [1-3]. O objetivo deste estudo foi avaliar os efeitos da aplicação de diferentes doses de radiação gama e feixe de eletrões na composição química e bioatividade de várias plantas (Ginkgo biloba L., Melissa officinalis L., Melittis melissophyllum L., Mentha piperita L., Aloysia citrodora Palàu, Arenaria montana L. e Thymus vulgaris L.).