Cold plasma as a pre-treatment for processing improvement in food: A review.

Thermal processes can be very damaging to the nutritional and sensory quality of foods. Non-thermal technologies have been applied to reduce the impact of heat on food, reducing processing time and increasing its efficiency. Among many non-thermal technologies, cold plasma is an emerging technology with several potential applications in food processing. This technique can be used to preserve and sanitize food products, and act as a pre-treatment for drying, extraction, cooking, curing, and hydrogenation of foods. Furthermore, the reacting plasma species formed during the plasma application can change positively the sensory and nutritional aspects of foods. The aim of this review is to analyze the main findings on the application of cold plasma as a pre-treatment technology to improve food processing. In its current maturity stage, the cold plasma technology is suitable for reducing drying time, increasing extraction efficiency, as well as curing meats. This technology can convert unsaturated into saturated fats, without forming trans isomers, which can be an alternative to healthier foods. Although many advantages come from cold plasma applications, this technology still has several challenges, such as the scaling up, especially in increasing productivity and treating foods with large formats. Optimization and control of the effects of plasma on nutritional and sensory quality are still under investigation. Further improvement of the technology will come with a higher knowledge of the effects of plasma on the different chemical groups present in foods, and with the development of bigger or more powerful plasma systems.

Encapsulation of Bromelain in Combined Sodium Alginate and Amino Acid Carriers: Experimental Design of Simplex-Centroid Mixtures for Digestibility Evaluation.

Bromelain has potential as an analgesic, an anti-inflammatory, and in cancer treatments. Despite its therapeutic effects, this protein undergoes denaturation when administered orally. Microencapsulation processes have shown potential in protein protection and as controlled release systems. Thus, this paper aimed to develop encapsulating systems using sodium alginate as a carrier material and positively charged amino acids as stabilizing agents for the controlled release of bromelain in in vitro tests. The systems were produced from the experimental design of centroid simplex mixtures. Characterizations were performed by FTIR showing that bromelain was encapsulated in all systems. XRD analyses showed that the systems are semi-crystalline solids and through SEM analysis the morphology of the formed systems followed a pattern of rough microparticles. The application of statistical analysis showed that the systems presented behavior that can be evaluated by quadratic and special cubic models, with a p-value < 0.05. The interaction between amino acids and bromelain/alginate was evaluated, and free bromelain showed a reduction of 74.0% in protein content and 23.6% in enzymatic activity at the end of gastric digestion. Furthermore, a reduction of 91.6% of protein content and 65.9% of enzymatic activity was observed at the end of intestinal digestion. The Lis system showed better interaction due to the increased stability of bromelain in terms of the amount of proteins (above 63% until the end of the intestinal phase) and the enzymatic activity of 89.3%. Thus, this study proposes the development of pH-controlled release systems aiming at increasing the stability and bioavailability of bromelain in intestinal systems.

Buriti (Mauritia flexuosa L. f.): An Amazonian fruit with potential health benefits.

The Amazon region has a significant biodiversity composed of several fruits with health benefits and distinguished potential for technological application and development of novel products. Buriti (Mauritia flexuosa) is one of the main Amazonian fruits with expressive nutraceutical properties. For this reason, this review aims to elucidate the current state of knowledge on buriti, providing information on its bioactive compounds, nutraceutical, and health potential for both technological and economic development especially in food and pharmaceutical areas. Different parts of buriti are important sources of carotenoids, fatty acids, phenolic compounds, and fibers. Antioxidant, antimicrobial, prebiotic, anti-diabetes, and anti-cancer properties have also been reported. In addition, the buriti oil presents a synergistic effect with antibiotics and it has been also an alternative to artificial dyes. However, there is a lack of information about the in vivo evaluation of the buriti's bioactive compounds providing a clearer elucidation on its biological potential, toxicity information and mechanisms of action. Proper sensory methods and the relationship between sensory quality and consumer perception are also needed to extend the possibility of developing new products. Finally, the use of non-thermal techniques is encouraged to improve the bioavailability of nutraceutical compounds and potentiate their action on human health.

Ficus spp. fruits: Bioactive compounds and chemical, biological and pharmacological properties.

The aim of this review was to compile the main reports over the last 5 years concerning the Ficus spp. fruits (Moraceae family) based on chemistry, properties, and applications as products. About 30 Ficus spp. fruits were reported focusing on their chemical composition rich in phenolic acids such as gallic, caffeic and chlorogenic acids, as well as quercetin and cyanidin derivatives. The fruits from Moraceae family presented mainly antioxidant and antimicrobial properties in addition to other functional properties to consumers health. Therefore, these fruits can be successfully considered by the food industry for the development of new products with high added value and also be considered a source of bioactive compounds.

Amazonian Bacuri (Platonia insignis Mart.) Fruit Waste Valorisation Using Response Surface Methodology.

Bacuri (Platonia insignis Mart) is a species from the Clusiaceae genus. Its fruit pulp is commonly used in South America in several food products, such as beverages, ice cream and candies. Only the pulp of the fruit is used, and the peels and seeds are considered waste from these industries. As a trioxygenated xanthone source, this species is of high interest for bioproduct development. This work evaluated the mesocarp and epicarp of bacuri fruits through different extraction methods and experimental conditions (pH, temperature and solvent) in order to determine the most effective method for converting this agro-industrial waste in a value-added bioproduct. Open-column procedures and HPLC and NMR experiments were performed to evaluate the chemical composition of the extracts, along with total phenols, total flavonoids and antioxidant activities (sequestration of the DPPH and ABTS radicals). A factorial design and response surface methodology were used. The best extraction conditions of substances with antioxidant properties were maceration at 50 °C with 100% ethanol as solvent for mesocarp extracts, and acidic sonication in 100% ethanol for epicarp extracts, with an excellent phenolic profile and antioxidant capacities. The main compounds isolated were the prenylated benzophenones garcinielliptone FC (epicarp) and 30-epi-cambogin (mesocarp). This is the first study analysing the performance of extraction methods within bacuri agro-industrial waste. Results demonstrated that shells and seeds of bacuri can be used as phenolic-rich bioproducts obtained by a simple extraction method, increasing the value chain of this fruit.

Cold plasma technique as a pretreatment for drying fruits: Evaluation of the excitation frequency on drying process and bioactive compounds.

The present work aims to evaluate the effect of different excitation frequency (200, 500 and 800 Hz) of cold plasma technique as a pretreatment for drying tucumã. SEM images showed changes on the pretreated tucumã's surface, favoring the drying rate and diffusivity of water as well as reducing the drying time. Marginal variation of color and reduced drying time were observed in the samples treated using 200 and 800 Hz. The pretreatment improved the concentration of phenolic (45.3 mg GAE g-1) and antioxidant compounds (799.8 µM ET) (p-value < 0.05). Carotenoids were more sensitive to the drying time, presenting significant degradation at 500 Hz. For this reason, the propose pretreatment based on the application of cold plasma technique for drying foods can preserve/improve their nutritional quality.

Endopleura uchi - A review about its nutritional compounds, biological activities and production market.

Endopleura uchi (Huber) Cuatrec, known as uxi, is a native plant from the Amazon region, which has been used by locals for some pathology treatments. This review aimed to find the main uxi studies carried out in scientific literature. This compilation includes the biological activities that have been proven, parts of the plant that were exploited, as well as its nutritional properties. Uxi fruit has compounds, such as vitamins A and E, minerals, bioactive phenolic and organic acids, along with anti-inflammatory, antioxidant, antibacterial, antidiabetic, and anti-cholesterol actions. Some E. uchi extract activities have been reported, such as: α-glucosidase and cyclooxygenases (COX1/COX2) inhibitions, in addition to anti-bactericidal properties. The isocoumarin compound, bergenin is responsible for many of the reported biological activities of this species. E. uchi can be used for manufacturing products in food, pharmaceutical, and cosmetic industries, demonstrating its worth, regional economic growth, along the potential to dominate the worldwide market.

Atividade antimicrobiana e antioxidante de polpa e casca do fruto de Endopleura uchi (huber) cuatrec / Antimicrobian and antioxidating activity of Endopleura uchi (huber) cuatrec. fruit pulp and shell

O objetivo desse estudo foi avaliar a atividade antimicrobiana e antioxidante de polpa e casca do fruto de uxi. As amostras foram coletadas na cidade de Parintins - AM. Ao pesquisar a atividade antimicrobiana, as concentrações estudadas não apresentaram inibição do desenvolvimento microbiano, assim como para a atividade antioxidante, onde através dos extratos em DMSO, não houve inibição satisfatória do radical livre pelos métodos DPPH, ABTS e para compostos fenólicos totais. O estudo servirá como base para refinamentos direcionados ao estudo dessa temática.

The aim of this study was to evaluate the antimicrobial and antioxidant activity of uxi fruit pulp and rind. The samples were collected in the city of Parintins - AM. When investigating the antimicrobial activity, the studied concentrations did not show inhibition of microbial development, as well as the antioxidant activity, where through DMSO extracts, there was no satisfactory inhibition of free radical by DPPH, ABTS methods and for total phenolic compounds. The study will serve as a basis for refinements directed to the study of this theme.

ATIVIDADE ANTIMICROBIANA E ANTIOXIDANTE DE POLPA E CASCA DO FRUTO DE ENDOPLEURA UCHI (HUBER) CUATREC / ANTIMICROBIAN AND ANTIOXIDATING ACTIVITY OF ENDOPLEURA UCHI (HUBER) CUATREC. FRUIT PULP AND SHELL

O objetivo desse estudo foi avaliar a atividade antimicrobiana e antioxidante de polpa e casca do fruto de uxi. As amostras foram coletadas na cidade de Parintins - AM. Ao pesquisar a atividade antimicrobiana, as concentrações estudadas não apresentaram inibição do desenvolvimento microbiano, assim como para a atividade antioxidante, onde através dos extratos em DMSO, não houve inibição satisfatória do radical livre pelos métodos DPPH, ABTS e para compostos fenólicos totais. O estudo servirá como base para refinamentos direcionados ao estudo dessa temática

The aim of this study was to evaluate the antimicrobial and antioxidant activity of uxi fruit pulp and rind. The samples were collected in the city of Parintins - AM. When investigating the antimicrobial activity, the studied concentrations did not show inhibition of microbial development, as well as the antioxidant activity, where through DMSO extracts, there was no satisfactory inhibition of free radical by DPPH, ABTS methods and for total phenolic compounds. The study will serve as a basis for refinements directed to the study of this theme

Amazon acai: chemistry and biological activities: a review.

Acai (acai or assai) is one of the Amazon's most popular functional foods and widely used in the world. There are many benefits to its alleged use in the growing market for nutraceuticals. The acai extracts have a range of polyphenolic components with antioxidant properties, some of those present in greater quantity are orientin, isoorientin and vanillic acid, as well as anthocyanins cyanidin-3-glucoside and cyanidin-3-rutinoside. The presence of these substances is linked mainly to the antioxidant, anti- inflammatory, anti-proliferative and cardioprotective activities. Importantly, there are two main species of the Euterpe genus which produce acai. There are several differences between them but they are still quite unknown, from literature to producers and consumers. In this review are highlighted the chemical composition, botanical aspects, pharmacological, marketing and nutrition of these species based on studies published in the last five years in order to unify the current knowledge and dissimilarities between them.