The interaction between three phenolic compounds (catechin, caffeic acid and ferulic acid) onto two dietary fibres (cellulose and xylan) has been evaluated to inquire possible interferences on the biodisponibility of phenolic compounds. The adsorption kinetics were performed using solutions containing 100 mg/L of phenolic compounds during a contact time ranging between 10 and 120 minutes at pH 2.0, 4.5, and 7.0. After the kinetics, isotherms were obtained using phenolic compounds concentration ranging between 10 and 80 mg/L during 60 minutes, at pH 2.0 and 7.0 and temperature of 36 °C. Results indicate that adsorbed quantities mainly changed in function of pH, however the maximum adsorption was only of 0.978 mg of caffeic acid/g of xylan at pH 2 and after 60 min. Redlich-Peterson model were able to predict the adsorption isotherms of all phenolic compounds onto cellulose, except for caffeic acid at pH 7.0. The low adsorption capacities observed suggest that both dietary fibres are unable to compromise the biodisponibility of phenolic compounds, especially in the small intestine, where they are partially absorbed.
Tucupi, a fermented product obtained from cassava (Manihot esculenta Crantz) is widely employed in the cuisine of the Northern region of Brazil, however, its industrial application is incipient. This study used tucupi to prepare a creamy paste, which underwent sensory and rheological evaluation. Paste formulations with 5 to 20% concentrated tucupi were obtained. An acceptance test was used to assess the product's acceptability regarding the attributes of color, aroma, flavor, texture, and overall impression. A purchase intention test of the product was also applied. The product's rheology was studied at 25, 40, and 60 °C and the activation energy (E a ) was estimated. The internal preference mapping indicated that the paste formulation with 5% and 10% tucupi were the most accepted by the judge, but only the 10% tucupi paste was characterized. Proportions greater than 15% tucupi influenced negatively in the flavor and texture of the product. Purchase intention test showed that 99% of the judges demonstrated interest in purchasing the product. The product presented 72.7% moisture, 10.4% lipids, 0.5% proteins, 2.1% ashes, 14.3% carbohydrates, and 7.4 μg/g β-carotene. According to the rheological assays, the paste presented characteristics of a pseudoplastic fluid. The Herschel-Bulkley model proved efficient to predict the flow curves for the product in the temperature range tested, for which E a was estimated at 7.49 kJ/mol.
Tucupi is a fermented liquid obtained from cassava (Manihot esculenta Crantz), very much appreciated by the traditional cuisine of Northern Brazil. However, there are no scientific reports on its use in the formulation of products. Thus, the present study aimed to elaborate a powdered condiment with tucupi, as well as to assess the product's sensory acceptability and its hygroscopic behavior. The powdered tucupi used in the formulation of the condiment was obtained by drying in a spray dryer. The product underwent sensory evaluation for its acceptability regarding the attributes of color, aroma, flavor, and overall impression and a purchase intention test was applied by hedonic scale. The acceptability index was 80% for overall impression and the purchase intention test indicated that 94% of the judges would be willing to buy the product. The product's moisture sorption isotherms presented type-II behavior for adsorption and type-III for desorption, at 25 °C. The hygroscopic behavior indicated that the product is more susceptible to spoilage changes when stored in an environment with relative humidity above 60% and the Peleg model showed an excellent performance on predicting the product's moisture sorption isotherms.
The aim of this work was to elaborate a tucupi-added mayonnaise and to assess the physicochemical characteristics, as well the rheological behavior at temperatures from 20°C to 70°C of the product with greater sensorial acceptance. For this purpose, three mayonnaise formulations (10%, 12.5% and 15% of the concentrated tucupi) were developed and submitted to sensorial acceptance and purchase intention tests. Based on the results of acceptance test by Tukey's test (p ≤ 0.05) and internal preference mapping by principal component analysis (PCA), the formulation with 10% of the tucupi was chosen. The purchase intention test showed that 95% of the judges would buy this product, which presented 41.52% moisture, 2.06% ashes, 43.95% lipids, 4.56% proteins, 3.12% total sugars, 1.51% starch, 1.29% chlorides, 9.40 µg/g β-carotene and energy value of 432 kcal/100 g. According to rheological analysis, the mayonnaise with 10% of the tucupi presented pseudoplastic fluid-like behavior and evidenced hysteresis (showing thixotropic characteristic) between the up-ramp and downramp flow curves from 60°C. The Herschel-Bulkley model was efficient in predicting product flow curve and an Arrhenius-like equation estimated activation energy value for the product (8.29 kJ/mol). Thus, the tucupi-added mayonnaise can be considered an excellent and promising alternative for the food industry.Mayonesa adicionada con tucupí: caracterización, evaluación sensorial y comportamiento reológico RESUMEN El presente estudio se propuso elaborar una mayonesa adicionada con tucupí y evaluar las características fisicoquímicas y el comportamiento reológico a temperaturas de 20 a 70°C del producto que obtuviera mayor aceptación sensorial. Con este propósito se elaboraron tres formulaciones de mayonesa (conteniendo 10%, 12.5% y 15% de concentrado de tucupí) y se las sometió a pruebas de aceptación sensorial e intención de compra. A partir de los resultados de la prueba de aceptación, que se llevó a cabo mediante la prueba de Tukey (p ≤ 0.05) y el mapeo de preferencias interno efectuado por análisis de componentes principales (PCA), se eligió la formulación elaborada con 10% de tucupí. La prueba de intención de compra mostró que 95% de los jueces compraría este producto, en el que se identificaron las siguientes características: 41.52% de humedad, 2.06% de cenizas, 43.95% de lípidos, 4.56% de proteínas, 3.12% de azúcares totales, 1.51% de almidón, 1.29% de cloruros, 9.40 µg/G β-caroteno y un valor energético de 432 kcal/100 g. A través del análisis reológico se constató que la mayonesa que contenía 10% de tucupí presentó un comportamiento similar al de un líquido seudoplástico, además de una histéresis evidente (que muestra la característica tixotrópica) entre las curvas de flujo de la rampa ascendente y la rampa descendente de 60°C. El modelo de Herschel-Bulkley resultó eficiente para predecir la curva de flujo del producto, estimándose el valor de la energía de activación para el producto (8.29 kJ/mol) mediante una ecuación similar a la de Arrhenius. Por lo ...
Tucupi, which is widely enjoyed in the North region of Brazil, is a fermented liquid derived from cassava (Manihot esculenta Crantz) and has been taken abroad for its exotic characteristics. This study aimed to assess the rheological behavior of tucupi with 30, 35, and 40% solids and concentrated at 50, 70, and 90 °C. The rheological data were obtained at 25, 40, 60, and 80 °C with increasing and decreasing shear rates. Rheology at 25 °C indicated that the partial gelification of starch during concentration causes a decrease in the product's viscosity and, if the concentration is carried out at a temperature that favors total starch gelification, the product's viscosity increases. Concentrated tucupi behaved as a pseudoplastic fluid, but at 60 and 80 °C with increasing shear rates, the product behaved as a dilatant fluid. Hysteresis were observed in flow curves starting at 40 °C, which characterizes concentrated tucupi as a rheopectic fluid. The Dstwald-de Waele model predicted the product's flow curves and an Arrhenius-like equation described the dependence of temperature on apparent viscosity for the rheological data obtained with increasing shear rates. The product's activation energy (E a ) values ranged from 16.86 to 25.23 kJ/mol as a function of concentration.
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