Phenolic profile and antimicrobial activity of dietary supplements based on Cochlospermum angolensis Welw.

Cochlospermum angolensis Welw. (borututu) is a widespread tree in Angola that belongs to the Cochlospermaceae family. Its bark infusion is used in the traditional medicine of Angola for the treatment of jaundice, hepatic diseases and for the prophylaxis of malaria [1]. In the present work, three formulations based on this plant (infusion, pills, and syrup) were characterized by HPLC-DAD-ESI/MS regarding phenolic composition, and evaluated by their in vitro antimicrobial activity against isolates of multiresistant bacteria (Escherichia coli, Escherichia coli spectrum extended producer of β-lactamases (ESBL), Proteus mirabilis, methicillin-resistant Staphylococcus aureus (MRSA) and Pseudomonas aeruginosa). The infusion and pills revealed the highest variety of phenolic compounds, with eleven compounds identified. Protocatechuic acid was only present in infusions, being the most abundant compound, while (epi)gallocatechin-O-gallate and eucaglobulin/globulusin were the main molecules identified in pills and syrup, respectively. Methyl ellagic acids, eucaglobulin/globulusin B (Fig. 1) and (epi)gallocatechin-O-gallate were found in all the formulations. The infusion revealed antimicrobial activity against all the studied bacteria with the exception of P. mirabilis whereas the pills revealed activity in E. coli ESBL and MRSA. No significant antimicrobial activity was detected in the syrup, in agreement with its low concentrations of phenolic compounds. None of the tested formulations inhibited P. mirabilis. Considering the obtained results, C. angolensis infusion can be considered a good source of phenolic compounds as well as a good antimicrobial agent.

Analysis of phenolic compounds in Cynara scolymus L. and Silybum marianum (L.) Gaertn. by HPLC-DAD-ESI/MS

Cynara scolymus L. (artichoke) and Silybum marianum (L.) Gaertn. (milk thistle) are medicinal plants native to the Mediterranean Basin that belong to the Asteraceae family. The flowers and leaves of milk thistle are used in the treatment of liver, spleen and gallbladder disorders [1] and artichoke leaves are used for their cholagogue, choleretic and choliokinetic actions, and also for treatment of dyspepsia and as antidiabetics [2]. The beneficial properties of medicinal plants can be related to their large diversity of phytochemicals, among which phenolic compounds are outstanding. Thereby, the aim of the present work was to obtain and compare the phenolic profiles of artichoke and milk thistle aqueous (prepared by infusion) and hydromethanolic (maceration in methanol: water 80:20, v/v) extracts, using HPLC-DAD-ESI/MS. The aqueous extract of artichoke presented higher concentration in total phenolic compounds (15.29 mg/g extract) than the hydromethanolic extract (4.37 mg/g) with slight differences between the respective profiles; the major flavonoid found in the aqueous and hydromethanolic extract was luteolin-7-O-glucuronide (5.64 and 0.70 mg/g, respectively), followed by luteolin-7-O-glucoside (2.88 and 0.49 mg/g, respectively). Monocaffeoylquinic acid derivatives were only present in the hydromethanolic extract, being 5-O-caffeoylquinic acid (0.49 mg/g) the most abundant one, while dicaffeoylquinic acid derivatives were mostly identified in the aqueous extract; 1,3-O-dicaffeoylquinic acid was the most abundant one in both extracts (0.90 and 0.37 mg/g in the aqueous and hydromethanolic extract, respectively). Regarding to milk thistle preparations, similar phenolic profiles were observed, with only quantitative differences between them. The aqueous extract revealed a higher phenolic compounds concentration (5.57 mg/g) than the hydromethanolic extract (3.56 mg/g), with apigenin-7-O-glucuronide as the major compound in both preparations (3.14 mg/g in the aqueous extract, and 0.58 mg/g in the hydromethanolic extract). Total flavonoids were higher in the aqueous extract (4.66 mg/g), with apigenin-7-Oglucuronide, luteolin-7-O-glucuronide (1.17 mg/g), and apigenin-O-deoxyhexosylglucuronide (0.36 mg/g) as the main constituents. The phenolic acids found in the hydromethanolic extract (total content 1.65 mg/g), included 5-O-caffeolyquinic and protocatechuic acids (0.56 and 0.44 mg/g, respectively). Besides these phenolic acids, the hydromethanolic extract also revealed high levels of luteolin-7-O-glucuronide (0.58 mg/g). Overall, aqueous extracts presented higher phenolic contents than their hydromethanolic extracts in both species, which could be related with the heat treatment to which infusions were subjected.

Chromatographic methods to obtain the biomolecules profile of some aromatic plants irradiated with electron beam

Irradiation is being progressively considered as a versatile and effective conservation technique [1]. Based on this premise, our research group has been investigating the effects of different irradiation conditions in several food matrices. Aromatic plants are among the food products that require suitable conservation technologies to expand their use [2]. The effects of irradiation on the four species (Aloysia citrodora, Melissa officinalis, Melittis melissophyllum and Mentha piperita) studied herein were previously evaluated. In the present study, the same species were treated with different doses of electron-beam irradiation (0, 1 and 10 kGy) and several parameters were evaluated. The individual sugars profile was determined by HPLCRI, fatty acids by GC-FID, organic acids by HPLC-PDA and tocopherols by HPLCfluorescence. In general, the evaluated parameters remained practically unchanged, regardless of plant species or the irradiation dose. Regarding the profile of sugars, the major change was a decrease in the content of disaccharides. The most notable variations in organic acids were observed in plant species with the highest content in these molecules, especially the decrease observed in the samples of M. officinalis and M. melissophyllum. Among the tocopherols, the α and β isoforms were more susceptible to radiation, while the application of 1 kGy tended to increase the levels of tocopherols in Aloysia citrodora, while 10 kGy had the same effect on M. melissophyllum. M. piperita sample showed the highest levels of tocopherols, regardless of the dose applied. Finally, with regard to the fatty acids content, the irradiated samples showed higher percentages of monounsaturated fatty acids than the control samples. In general, analyzing the results taking into account the effects described, it can be concluded that the application of irradiation with electron beam at doses 1 and 10 kGy is an effective way to retain biomolecules profile of the studied species.

Aplicação de radiação gama a Ginkgo biloba L. e avaliação da sua composição química através de técnicas cromatográficas

A irradiação é uma técnica de conservação acreditada para ingredientes secos e representa quase 50% do mercado mundial relativamente à desinfestação póscolheita (~186 000 ton). Para além da sua aplicabilidade para conservação apresentase também, como uma solução adequada para o tratamento pós-colheita de plantas medicinais, a fim de garantir a sua descontaminação [1,2]. Neste estudo, foram avaliados os efeitos da radiação gama (1 e 10 kGy) na composição química de amostras de Ginkgo biloba L. desidratadas. Foram analisadas moléculas lipofílicas e hidrofílicas utilizando técnicas cromatográficas acopladas a diferentes detetores. Os açúcares livres foram analisados por HPLC-RI, os ácidos gordos por GC-FID, os ácidos orgânicos por HPLC-PDA e os tocoferois por HPLC-fluorescência. De acordo com os resultados obtidos foi evidente a preservação dos ácidos gordos, dos vitâmeros γ- e δ-tocoferol, da frutose, trealose e dos ácidos quínico e shikímico. Em particular, a dose de 1 kGy manteve o teor em α-tocoferol e em ácidos oxálico e málico, enquanto que a dose de 10 kGy diminuiu a concentração de α-tocoferol, glucose, sacarose e ácidos oxálico e málico. Deste modo e numa avaliação geral, 1 kGy seria a dose recomendada para manter o perfil químico relativo a estas moléculas no Gingko biloba L.

Chromatographic techniques to obtain the biomolecules profile of wild Suillus granulates

In recent years the interest in naturally occurring compounds has been increasing worldwide. Indeed, many of the bioactive compounds currently used as medicines have been synthesized based on the structure of natural compounds [1]. In order to obtain bioactive fractions and subsequently isolated compounds derived from natural matrices, several procedures have been carried out. One of these is to separate and assess the concentration of the active compound(s) present in the samples, a step in which the chromatographic techniques stand out [2]. In the present work the mushroom Sui/Ius granulatus (L.) Roussel was chemically characterized by chromatographic techniques coupled to different detectors, in order to evaluate the presence of nutritional and/or bioactive molecules. Some hydrophilic compounds, namely free sugars, were identified by high performance liquid chromatography coupled to a refraction index detector (HPLC-RI), and organic and phenolic acids were assessed by HPLC coupled to a photodiode array detector (HPLC-PDA). Regarding lipophilic compounds, fatty acids weredetermined by gas chromatography with a flame ionization detector (GC-FID) and tocopherols by HPLC-fluorescence detection. Mannitol and trehalose were the main free sugars detected. Different organic acids were also identified (i.e. oxalic, quinic and fumaric acids), as well as phenolic acids (i.e. gallic and p-hydroxybenzoic acids) and the related compound cinnamic acid. Mono- and polyunsaturated fatty acids were the prevailing fatty acids and a-, ~- and ~-tocopherol were the isoforms of vitamin E detected in the samples. Since this species proved to be a source of biologically active compounds, the antioxidant and antimicrobial properties were evaluated. The antioxidant activity was measured through the reducing power, free radical's scavenging activity and lipid peroxidation inhibition of its methanolic extract, and the antimicrobial activity was also tested in Gram positive and Gram negative bacteria and iri different fungi. S. granulatus presented antioxidant properties in all the performed assays, and proved to inhibit the growth of different bacterial and fungal strains. This study is a first step for classifying S. granulatus as a functional food, highlighting the potential of mushrooms as a source of nutraceutical and biologically active compounds.

Bioactivity and chromatographic analysis of nutrients and non-nutrients of two Leccinum species

Nowadays the rising cost of health care and pharmaceutical products, the increase in life expectancy as well as the demand for an improved quality of life, has led to an increased concern about food intake and an emergence of new concepts of nutrition [1]. Mushrooms have been pointed out as an excellent option to include in a healthy diet, due to their nutritional value [2] associated with their bioactive properties [3]. The current study presents the chemical profile of two edible species, Leccinum molle (Ban) Ban and Leccinum vulpinum Watling, harvested in the outskirts of Bragan9a (Northeastern Portugal), regarding their content in nutrients and nonnutrients. Individual profiles of sugars and fatty acids were obtained by HPLC-RI and GC-FID, respectively. Tocopherols were analysed by HPLC-fluorescence, and the non-nutrients (i.e., phenolic and other organic acids) by HPLC-PDA. The antioxidant activity of the methanolic extracts obtained from both species was assessed with different assays (e.g. reducing power, radical scavenging activity and lipid peroxidation inhibition) and their hepatotoxicity was evaluated in primary cell cultures obtained from porcine liver, PLP2. Generally, both Leccinum species revealed similar nutrient profiles, with low fat levels, fructose, mannitol and trehalose as the foremost free sugars, and higher percentages of mono- and polyunsaturated fatty acids in comparison with saturated fatty acids. The presence of bioactive compounds was also detected, namely phenolic (e.g., gallic, protocatechuic and p-hydroxybenzoic acids) and organic acids (e.g., citric and fumaric acids). Both species presented antioxidant properties, being L. vulpinum the species which showed the most promising results (higher contents of total phenolic acids and lower ECso values in all the performed assays). Neither of the extracts presented toxicity against the liver primary cells PLP2, up to maximal concentration tested (Giso > 400 μg/ml).

Phenolic compounds in Coleostephus myconis (L.) Rchb.f.: characterization by HPLC-DAD-ESI/MS and phenology effects

The Asteraceae family is spread worldwide. In Portugal, there are more than 300 species, standing out as one of the botanical families with largest representation in the Portuguese flora. Coleostephus myconis (L.) Rchb.f. is a scarcely studied Asteraceae species, characterized as having ruderal growth and persistence in abandoned soils (an expanding problem due to the desertification phenomena in rural areas). In this work, the flowers of C. myconis were collected in three different flowering stages (i: flower bud; ii: flower in anthesis; iii: senescent flower) from the Northwestern area of the Portuguese territory. Powdered samples (1 g) were extracted twice with ethanol:water 50:50 (v/v). After removing solvents, the combined extracts were re-dissolved, filtered through 0.22-μm disposable LC filter disks and analyzed by high performance liquid chromatography coupled to a diode array detector and electrospray ionization-mass spectrometry (HPLC-DAD/ESI-MS). The phenolic compounds were characterized according to their UV and mass spectra, and retention times. For the quantitative analysis, calibration curves of standard compounds were used. According to the UV spectra (λmax = 314-330 nm) and pseudomolecular ions ([M-H]-) at m/z 353 and 515, all producing an m/z 191 ion, four compounds derived from quinic acid were detected: 3-O-caffeoylquinic acid (Figure 1A), 5-O-caffeoylquinic acid (Figure 1B), 3,5-O-dicaffeoylquinic acid (Figure 1C) and 4,5-O-dicaffeoylquinic acid (Figure 1D), as also supported by the literature [1,2]. A fifth phenolic acid was identified as protocatechuic acid. The detected flavonoid were quercetin-O-glucuronide, quercetin-3-Oglucoside, myricetin-O-methyl-hexoside and a second glycosylated myricetin (not possible to identify completely). Some statistically significant changes were detected among the different assayed flowering stages; nevertheless, 3,5-O-dicaffeoylquinic acid was the major compound, independently of the phenologic stage. According to the previous results, C. myconis might be considered as a potential natural source of these valuable bioactive compounds, especially considering the high botanical representativeness of this plant and its inexpensiveness.

Effects of gamma and electron-beam irradiation on the individual phenolics of Viola tricolor L. edible flowers.

Edible flowers are being used in culinary preparations to improve the sensorial and nutritional qualities of food, besides improving human health due to the profusion in bioactive compounds [1]. Nevertheless, edible flowers are highly perishable and must be free of insects, which is difficult because they are usually cultivated without using pesticides [2]. Food irradiation is an economically viable technology to extend shelf life of foods, improving their hygiene and quality, while disinfesting insects [3]. The efficiency and safety of radiation processing (using Co-60 or electronaccelerators) have been approved by legal authorities (FDA, USDA, WHO, FAO), as also by the scientific community, based on extensive research [4]. Viola tricolor L. (heartseases), from Violaceae family, is one of the most popular edible flowers. Apart from being used as food, it has also been applied for its medicinal properties, mainly due to their biological activity and phenolic composition [5]. Herein, the phenolic compounds were analyzed by HPLC-DAD-ESI/MS and linear discriminant analysis (LDA) was performed to compare the results from flowers submitted to different irradiation doses and technologies (Co-60 and electron-beam). Quercetin-3-O-(6-O-rhamnosylglucoside)-7-O-rhamnoside (Figure 1) was the most abundant compound, followed by quercetin-3-O-rutinoside and acetyl-quercetin-3-O (6-O-rhamnosylglucoside)-7-O-rhamnoside. In general, irradiated samples (mostly with 1 kGy) showed the highest phenolic compounds content. The LDA outcomes indicated that differences among phenolic compounds effectively discriminate the assayed doses and technologies, defining which variables contributed mostly to that separation. This information might be useful to define which dose and/or technology optimizes the content in a specific phenolic compound. Overall, irradiation did not negatively affect the levels of phenolic compounds, providing the possibility of its application to expand the shelf life of V. tricolor and highlighting new commercial solutions for this functional food.

Postharvest changes in profiles of sugars, organic acids and tocopherols in leafy vegetables monitored by chromatographic techniques

After harvest, plants remain living organisms with the capacity to carry out metabolic processes. Thus, from the moment they are detached from the source of nutrients, they become entirely dependent on their own organic reserves [1]. Postharvest changes cannot be stopped, but they can be slowed within certain limits. Therefore, this study was conducted to evaluate the effects induced by storage in the profiles of sugars, organic acids and tocopherols of two leafy vegetables. Wild samples of watercress (Nasturtium officinale R. Br.) and buckler sorrel (Rumex induratus Boiss. & Reut.), from the Northeastern region of Portugal, were analyzed after harvest (control) and after storage in sterilized packages (using the passive modification mode) at 4ºC for 7 or 12 days, respectively. Analyses were performed by high-performance liquid chromatography (HPLC) using different detectors, i.e., a refraction index detector (RID) for free sugars, a photodiode array detector (PDA) for organic acids, and a fluorescence (FP) detector for tocopherols. The storage time decreased the levels of fructose, glucose and total sugars in both leafy vegetables and increased the total organic acids content. The decrease of these sugars can be related to its use by the plant to produce the required energy. Ascorbic acid was detected in buckler sorrel and decreased with storage; while the amount of malic acid increased in both species. Curiously, all the tocopherol isoforms increased in watercress, while buckler sorrel just present higher values of γ- and δ- tocopherols. In fact, the de novo synthesis of these bioactives compounds can be a plant strategy to fight against the reactive species that are produced during storage. The knowledge of the behavior of these compounds during storage that was achieved with this study [2] may contribute to the development of more effective preservation strategies for leafy vegetables.

HPLC-DAD-ESI/MS analysis of phenolic compounds in four tomato varieties and evaluation of the antioxidant capacity

Tomato (Lycopersicon esculentum L.) is the second most important vegetable crop worldwide and a key component in the so-called “Mediterranean diet”. In the Northeastern region of Portugal, local populations still prefer to consume traditional tomato varieties which they find very tasty and healthy, as they are grown using extensive farming techniques. A previous study of our research team described the nutritional value of the round (batateiro), long (comprido), heart (coração) and yellow (amarelo) tomato varieties [1], but the phenolic profile was unknown until now. Thus, the objective of this study was to characterize the phenolic profiles of these four tomato farmers’ varieties by using HPLC-DAD-ESI/MS and evaluate its antioxidant capacity through four in vitro assays based on different reaction mechanisms. A cis p-coumaric acid derivative was the most abundant compound in yellow and round tomato varieties, while 4-O-caffeolyquinic acid was the most abundant in long and heart varieties. The most abundant flavonoid was quercetin pentosylrutinoside in the four tomato varieties. Yellow tomato presented the highest levels of phenolic compounds, including phenolic acids and flavonoids, but the lowest antioxidant activity. In turn, the round tomato gave the best results in all the antioxidant activity assays. This study demonstrated that these tomato farmers’ varieties are a source of phenolic compounds, mainly phenolic acid derivatives [2], and possess high antioxidant capacity [1]; being thus key elements in the diet to prevent chronic degenerative diseases associated to oxidative stress, such as cancer and coronary artery disease.

Perfil fenólico individual e potencial antioxidante de partes vegetativas de Fragaria vesca L..

O morangueiro silvestre (Fragaria vesca L., Rosaceae) está disseminado por toda a Península Ibérica, podendo também ser encontrado na Coreia, América do Norte e Canadá [1]. Apesar dos frutos serem mais consumidos, as partes vegetativas têm sido tradicionalmente usadas devido às suas propriedades tónicas e diuréticas e, em particular as suas decocções são recomendadas no tratamento da hipertensão [2,3]. As propriedades bioativas dos frutos F. vesca têm sido correlacionadas com a presença de compostos fenólicos, nomeadamente ácidos elágicos, procianidinas e flavonóis [4]. No entanto, o perfil fenólico das partes vegetativas é ainda desconhecido. Assim, no presente trabalho foi analisada a composição fenólica de extratos hidrometanólicos e aquosos obtidos a partir de partes vegetativas de amostras comerciais e silvestres de F. Vesca, tendo sido também avaliada a sua atividade antioxidante. Os perfis fenólicos, obtidos por HPLC-DAD-ESI/MS, das amostras comercial e silvestre foram bastante distintos, no entanto, em termos de derivados de ácido elágico, ambas apresentaram o isómero sanguiin h10 como composto maioritário, bem como trímeros de procianidinas e ramnósido de quercetina na amostra comercial e silvestre, respetivamente. A infusão da amostra silvestre apresentou maior atividade captadora de radicais DPPH (EC50= 86.17 μg/mL) e compostos fenólicos (CF = 134.65 mg/g) comparativamente à amostra comercial. A infusão da amostra silvestre mostrou também maior poder redutor, inibição da descoloração do β- caroteno e inibição da formação de TBARS (EC50= 62.23, 12.34 e 3.12 μg/mL, respetivamente); o poder redutor mostrou maior correlação com F e F3O, enquanto o ensaio TBARS se correlacionou mais com DAE e F. A atividade antioxidante da amostra comercial (especialmente o poder redutor e a inibição da descoloração do β- caroteno) revelou uma elevada correlação com a presença de derivados de ácido elágico (DAE), flavonóis (F), flavan-3-óis (F3O) e CF. Os resultados obtidos demonstram o elevado potencial antioxidante das partes vegetativas do morangueiro silvestre, podendo constituir uma nova fonte de compostos bioativos para aplicação na área alimentar e farmacêutica.

Caracterização cromatográfica de moléculas bioativas em frutos silvestres de Fragaria vesca L.

Fragaria vesca L., morango silvestre, pertence à família das Rosaceae e é comumente encontrada nas bermas e taludes [1]. Os seus frutos pequenos e de sabor doce podem ser consumidos em fresco como uma fonte de vitamina C, ou em infusões muito utilizadas no tratamento de vários transtornos intestinais [2]. No presente trabalho, os frutos de F. vesca silvestre foram caracterizados em termos de valor nutricional (hidratos de carbono, proteínas, gordura, cinzas e valor energético), teor em fibra alimentar e perfil em ácidos gordos. Para além disso, os frutos e respetivas infusões foram também caracterizados pelo seu conteúdo em açúcares solúveis, ácidos orgânicos, folatos e tocoferóis por técnicas de HPLC acoplada a detectores de índice de refração, fotodíodos e fluorescência, respetivamente, e também pela sua composição mineral avaliada por espectroscopia de absorção atómica. Os hidratos de carbono foram os macronutrientes maioritários nos frutos, seguidos pela gordura total, cinzas e proteínas. Também demonstraram teores elevados em fibra alimentar, maioritariamente fibra solúvel. Os ácidos linolénico (C18:3n3) e γ-linolénico (C18:3n6) foram os ácidos gordos maioritários, havendo uma prevalência de ácidos gordos polinsaturados. Os frutos e as respetivas infusões apresentaram sacarose, seguida da frutose, como sendo os açúcares maioritários. O ácido cítrico foi o ácido orgânico mais abundante em ambas as amostras, enquanto os ácidos oxálico e ascórbico foram detetados nas infusões em concentrações vestigiais. Em termos de microelementos, o manganês foi o mais abundante em ambas as amostras; o potássio e o cálcio foram os macroelementos maioritários encontrados nos frutos e nas suas infusões, respetivamente. Em termos de vitaminas, ambas as amostras apresentaram folatos (vitamina B9) e tocoferóis (vitamina E), sendo o γ-tocoferol a isoforma mais abundante, seguido de α-tocoferol. É de referir que nas infusões foi somente encontrada a isoforma de α-tocoferol. Apesar dos frutos de F. vesca silvestre serem normalmente consumidos em fresco, este estudo prova a potencialidade das suas infusões como uma fonte de moléculas bioativas.

Influência da radiação por feixe de eletrões no perfil cromatográfico de Bauhinia variegata var candida: flor comestível proveniente do brasil

As flores de Bauhinia variegata var candida apresentam coloração branca e são vulgarmente conhecidas como “patas de vaca branca”, sendo muito utilizadas na cozinha gourmet como forma de aumentar a qualidade sensorial e nutricional dos alimentos [1,2]. No presente estudo, as flores foram submetidas a radiação por feixe de eletrões em diferentes doses (0,5 e 0,8 kGy) como forma de descontaminação, e seguidamente analisadas em termos de parâmetros nutricionais (humidade, proteínas, gordura, hidratos de carbono e cinzas) e perfis em açúcares livres (HPLCRI), ácidos gordos (GC-FID), tocoferóis (HPLC-Fluorescência) e ácidos orgânicos (HPLC-DAD). As amostras não irradiadas e irradiadas mostraram um perfil nutricional semelhante, sendo os hidratos de carbono os nutrientes mais abundantes, seguidos das proteínas, gorduras e cinzas. Os perfis em açúcares foram também similares, estando presente a frutose em maior quantidade, seguida da glucose e da sacarose. Os ácidos mirístico (C14:0), palmítico (C16:0), esteárico (C18:0) e oleico (C18:1n9), foram os ácidos gordos mais abundantes. Os ácidos gordos saturados (SFA) foram os mais abundantes, seguidos dos mono (MUFA) e polinsaturados (PUFA). Neste caso, com maior dose de radiação verificou-se que a percentagem de SFA e MUFA diminui ligeiramente (principalmente pelo aumento dos ácidos esteárico e oleico, respetivamente), aumentando a percentagem de PUFA (principalmente pelo aumento dos ácidos linoleico e α-linolénico). No que respeita aos tocoferóis, só a isoforma α foi encontrada, apresentando aproximadamente o mesmo conteúdo nas amostras irradiadas e não irradiadas (1,75±0,06 mg/mL). O ácido cítrico foi o ácido orgânico mais abundante nas amostras, seguido dos ácidos: málico, ascórbico, oxálico e fumárico. Também neste caso os valores mantiveram-se, com exceção do ácido cítrico que aumentou ligeiramente com as doses de irradiação (55,94, 61,70 e 67,64 mg/mL, respetivamente). Em síntese, verificou-se que as doses de irradiação aplicadas não alteraram significativamente a composição química das amostras em estudo, e pode ser considerada uma técnica de descontaminação e preservação de flores comestíveis.

Foeniculum vulgare Mill. as a natural ingredient to improve cottage cheese antioxidant properties

Food industry is focused on the development of novel functional foods containing health promoting natural ingredients. Natural antioxidants present important health benefits like the prevention of several diseases related to oxidative stress [1,2]. Foeniculum vulgare Mill. (fennel) is a source of those compounds with proved antioxidant potential [3]. Herein, after evaluation of 2,2-diphenyl-1-picrylhydrazyl (DPPH) scavenging activity and reducing power of fennel (provided by Américo Duarte Paixão Lda.) decoction, we propose its incorporation into cottage cheese (produced by Queijos Casa Matias Lda.). Three groups of cottage cheese samples were prepared: control; samples with fennel decoction (incorporated at EC25 value=0.35 mg/mL, previously determined by DPPH assay); and samples with fennel powder (incorporated at 1.75 mg/mL, considering the decoction yield=20%). The samples were submitted to an evaluation of DPPH scavenging activity and reducing power immediately after the incorporations, and after 7 and 14 days of storage, at 4 ºC. The incorporation of fennel improved the antioxidant activity of cottage cheese. Samples incorporated with plant powder revealed higher antioxidant properties than samples incorporated with decoction, either in 0 or 7 days of storage. After 14 days, cottage cheese incorporated with fennel decoction gave the highest DPPH scavenging activity (46.72±0.09 mg/mL). A decrease in the antioxidant potential of the cottage cheese with fennel was observed along the shelf life. Nevertheless, it is important to highlight that the samples still display antioxidant properties. Studies regarding the effects of the incorporation of these natural ingredients on nutritional and chemical composition of cottage cheese are in course

Utilização de extrato de alecrim livre e microencapsulado como ingrediente bioativo para o desenvolvimento de alimentos funcionais

Atualmente tem-se acentuado a procura de alimentos com características funcionais para além das suas propriedades nutricionais, permitindo a obtenção de benefícios para a saúde incluindo a prevenção de doenças. Neste contexto, o alecrim (Rosmarinus officinalis L.) utilizado desde tempos ancestrais como erva aromática e medicinal, é uma importante e diversificada fonte de compostos bioativos responsáveis por diferentes propriedades, tais como antioxidantes, antimicrobianas e anti-inflamatórias[1]. Assim, o alecrim apresenta grande potencial como fonte de ingredientes bioativos para alimentos conferindo outras bioatividades ao produto final. No entanto, o uso de extratos de plantas em bases alimentares pode apresentar limitações devido à sua instabilidade mediante diversos fatores como pH, humidade, condições de processamento e armazenamento do alimento, que conduz a uma diminuição das suas propriedades biológicas[2]. A microencapsulação surge como uma alternativa para ultrapassar esta problemática.