This study aimed to produce microcapsules using ‘jabuticaba’ byproduct through lyophilization, and evaluate the stability of the powder, intended for use in gelatin. Three formulations were prepared, including the pure lyophilized extract (E), capsule with maltodextrin (CapM), and capsule with maltodextrin and xanthan gum (CapMG). The storage stability was evaluated at 4 and 25 ºC, and in the presence and absence of light, regarding color parameters, phenolic compounds and monomeric anthocyanins. The microencapsulated powders were applied in gelatin and analyzed for sensorial acceptance. Following an investigation of the storage stability of the three powders at 4 °C for 60 days, the sample that presented the best result was then analyzed at 25 ºC in the presence/absence of light. Microcapsules, independent of the encapsulant agent, exhibited lower values of degradation (2.82% phenolic compounds and 14.5% monomeric anthocyanins) than extract E when exposed to light and at 25 °C. Regarding color stability, CapMG showed smaller variations in the total color difference (ΔE) than the other samples. The lowest ΔE value corresponded to the gelatin sample with CapM, stored in the absence of light. It is possible to conclude that microencapsulation is an alternative for the preservation of ‘jabuticaba’ byproduct extracts, facilitating their use, retaining some compounds and protecting them against adverse conditions.
Blackberry is highly appreciated for the enjoyable color and flavor. About 20 % of the pomace is generated in its processing and often unused, presenting potential use by the food industry. Thus, the present study aimed to microencapsulate extracts of the blackberry pomace applying spray dryer process. Pure extracts (aqueous and hydroalcoholic solution) and the encapsulating agent (maltodextrin DE 10), in a ratio of 1:1 (w/w), were spray dried and analyzed for total anthocyanins, antioxidant activity, phenolics, HPLC-DAD chromatography, instrumental color and scanning electron microscopy. Hydroalcoholic extraction was more efficient (1.5 times) for anthocyanins encapsulation than aqueous extraction. However, for phenolic compounds the highest efficiency (1.2 times) was in the aqueous solution. The majority bioactive compounds were gallic acid and cyanidin. Considering that water is a low cost and ecofriendly solvent, it is indicated this type of extraction to obtain microcapsules of blackberry pomace mainly for future applications by food industry.
The recovery of bioactive compounds from agro-industrial residues with green solvents in ultrasound-assisted extraction (UAE) processes represents an interesting alternative from environmental and economical perspectives. Here we investigated optimal conditions to improve the extraction of anthocyanins from blackberry pomace. The experimental data were fitted to the second-order polynomial model to obtain the regression coefficients, and three-dimensional (3-D) response surface plots were considered to represent the relationships between each variable on the response of total monomeric anthocyanin (TMA) content. The ultrasound-assisted process at an ultrasound amplitude of 40% for 10 min and a concentration of 25 mg/L resulted in the maximum TMA concentration of 1.39 ± 0.02 mg Cy3GlE /g. At these extraction conditions, the extract presented total polyphenol and flavonoid contents of 44.12 ± 0.17 mg GAE /g and 63.25 ± 0.53 mg QE /g, respectively. A total of 31 individual compounds, including anthocyanins, flavonols, and phenolic acids, were identified in the extract. Concentrations of cyanidin-3-glucoside and caffeic, gallic, and ellagic acids were 2.38 ± 0.09, 0.47 ± 0.01, 0.55 ± 0.01, and 0.48 ± 0.01 mg/g, respectively. Compared to the conventional extraction, the UAE represented an increase of 20.87% in total anthocyanins. Thus, the UAE at suitable conditions is suggested to recover bioactive compounds from blackberry pomace. Practical ApplicationsThe use of blackberry pomace to extract bioactive compounds is promising because it uses a by-product from the fruit processing industry. This study presents an innovative proposal of optimal process conditions to recover anthocyanins from blackberry pomace under ultrasound irradiation. The use of green solvents, as water, in ultrasound-assisted extraction (UAE) processes, represents an interesting alternative from environmental and economical perspectives, UAE process is a favorable, fast, efficient, and environmentally friendly method. The obtained blackberry pomace powder is an interesting ingredient to food and pharmaceutical industries, mainly due to the elevated concentration of added-value compounds. Besides the high amount
Purpose The purpose of this study is to extract psyllium mucilage and evaluate its antioxidant compounds (in the best extraction condition) and its application in a chocolate drink. Design/methodology/approach First, the extraction by ultrasonic bath was evaluated, followed by water bath extraction, and as there was no difference between the methods, a water bath experimental design was carried out to evaluate the best extraction conditions for psyllium mucilage, having response variables, yield and emulsion stability. A chocolate drink with psyllium mucilage was produced and evaluated in the best extraction condition to compare with xanthan gum. Findings The best extraction conditions for psyllium mucilage were 60°C for 2 h and 1:80 ratio (seed:water). It can be verified that psyllium is rich in antioxidant compounds (0.71 mg GAE/g and 6.67 Mmol ET/g by 2,2′-azinobis (3-ethylbenzthiazoline sulfonic acid-6), and 9.65 Mmol ET/g for ferric reducing antioxidant power), which can greatly contribute to its application in food products. The use of mucilage in chocolate drink is feasible, as among its several attributes there was no significant difference between samples, highlighting texture attributes in which mucilage samples did not differ from the control containing xanthan gum (being the grades approximated 6.84). Originality/value Psyllium presented several antioxidant compounds that are very desirable in food products. In the chocolate drink, psyllium mucilage showed potential use as a thickener, so it is important for further studies to improve the product’s development, but it is currently feasible to be produced in an industrial scale.
The objective was to evaluate the extract stability of hibiscus in different conditions and the food application. Anthocyanins (TA), phenolic compounds (TP) and color, at: 4 and 25 °C, presence or absence of light, pH stability and FTIR were evaluated. Gelatin developed with hibiscus extract was submitted to sensory analysis. Light and temperature factors affected the stability of TP and TA throughout the storage. Higher stability was observed at 4 ºC and absence of light (in relation to TA and TP respectively, 3% and 26% losses were observed in this condition against 43% and 39% at 25 °C with light). Regarding pH, it was observed that pH change affected the absorbance and color in the hibiscus extract. Finally, the hibiscus extract, when added at the highest concentration into gelatin, was the most accepted by tastes, and scored 7 (like moderately) for color and global acceptance.
The study aimed to microencapsulate jaboticaba byproduct extract by lyophilization, followed by the characterization, pH stability and food application of the prepared microcapsules. The products were visualized by scanning electron microscopy and the yield, encapsulation efficiency (EE%), and bioactive compounds (high‐performance liquid chromatography) were determined. The major compounds found (in all samples) were cyanidin‐3‐glucoside, acids ellagic and gallic, and quercetin. The EE% was 80.0% and yield 67.2%. The capsules presented smooth surfaces and varied morphologies, such as broken glass of irregular sizes. The extracts revealed brighter and lighter‐colored solutions in low pH buffers, while microencapsulation protected the monomeric anthocyanins and phenolic compounds, particularly at pH 6.5. At 4 °C, maria‐mole desserts produced with the extract, showed a higher color variation (ΔE) than the product prepared with the microcapsules. Thus, microencapsulation may be an alternative to maintain the stability of the jaboticaba extract, as a way to reuse the agroindustrial byproduct. Practical applications The nutritional and functional properties of a vast biodiversity of plants (and their byproducts) have not yet been fully studied. Jaboticaba byproduct has great potential for economic exploitation and could be a valuable source of natural antioxidants, however, more studies of this byproduct, are required. Moreover, protecting the antioxidants during the fruit extraction process and storage, can improve the utilization and application of bioactives in food products. In this study, the extraction and microencapsulation of jaboticaba byproduct were realized. The results showed microencapsulation may be a feasible alternative to maintain the stability of the jaboticaba extract and provide a way to reuse the agroindustrial byproduct, as an ingredient in the food and, potentially, cosmetics and pharmaceutical industries.
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