RESUMO
ABSTRACT In the dairy industry, fermented products are traditionally made with cow's milk, however, recently other ingredients have been used that give different qualities to the final product; among them is buffalo milk, which has distinctive characteristics and is rarely utilized industrially in Colombia, for this reason, the present study aimed to evaluate the effect of adding aloe vera (Aloe barbadensis Miller) on the physicochemical and bromatological properties and shelf-life of buffalo milk yogurt. First, an aloe vera sauce was made, which was added to buffalo milk yogurt in three percentages (5, 10, and 15 %), and one was chosen using a preference ordering test. Subsequently, the selected product was evaluated for physicochemical and bromatological parameters and mineral content. The shelf-life was also calculated using an accelerated shelf-life study at temperatures of 5, 15, 25, and 35 °C. According to the sensory panel the best yogurt was the sample with 15 % of aloe vera sauce. For the bromatological analysis, it was found that the final product had 2.57 % protein, 5.87 % fat, 0.49 % ash, and 74.9 % moisture. Shelf-life calculations yielded an average of 28.6 days. It is concluded that aloe vera positively impacted the bromatological parameters and mineral content of buffalo milk yogurt.
RESUMEN En la industria láctea, se elaboran productos fermentados, tradicionalmente, con leche de vaca; sin embargo, en los últimos tiempos, se han utilizado otros ingredientes, que dan diferentes cualidades al producto final; entre ellos, se encuentra la leche de búfala, que tiene características únicas y además es poco utilizada industrialmente en Colombia. La presente investigación tuvo por objetivo evaluar el efecto de la adición de aloe vera (Aloe barbadensis Miller), en las características fisicoquímicas, bromatológicas y vida útil de un yogurt de leche de búfala. Primeramente, se realizó una salsa de aloe vera, la que se le agregó al yogurt de leche de búfala, en tres porcentajes (5, 10 y 15 %) y se escogió uno, mediante una prueba de preferencia por ordenación. Posteriormente, al producto seleccionado, se le evaluaron los parámetros fisicoquímicos, bromatológicos y contenido de minerales. También fue calculada la vida útil del yogurt, utilizando un estudio de vida útil, acelerado a temperaturas de 5, 15, 25, y 35 °C. De acuerdo con el panel sensorial, se estableció que la mejor muestra de yogurt fue aquella que tenía 15 % de salsa de aloe vera. En cuanto al análisis bromatológico, se encontró que el producto final tuvo 2,57 % de proteína, 5,87 % de grasa, 0,49 % de cenizas y 74,9 % de humedad. Los cálculos de vida útil arrojaron 28,6 días en promedio. Se concluye que el aloe vera impactó positivamente los parámetros bromatológicos y el contenido de minerales del yogurt de leche de búfala.
RESUMO
The purpose of the food industry is to ensure the availability of safe and nutritious food ingredients for human consumption. Sweet potato is a crop with excellent industrialization possibilities for human food due to its important nutrient content. The objective of this study was to evaluate the effect of an alginate-calcium sulfate-tripolyphosphate (PPTS) gelling system on the physicochemical and sensory characteristics of restructured sweet potato products. Fifteen formulations with varied concentrations of alginate, calcium sulfate, and PPTS were elaborated and subjected to a ordered-preference test. The physicochemical composition and color parameters of the preferred samples were determined, and the consumer acceptance, intention to purchase, and acceptability index (AI) were assessed. The preferred formulations (p ≤ 0.05) were F1, F6, F10, F11, and F14, and the gel formation was efficient at retaining water and preventing the restructured products from absorbing fat during frying. The restructured products with the highest water retention and lowest fat absorption were F11 (46.75%), F10 (44.53%), and F14 (43.29%). In the acceptance test, no differences (p ≥ 0.05) were found in the attributes softness, crunchiness, and sweet potato flavor. Formulations F6 and F14 obtained the highest acceptability index (AI), equal to or higher than 70%, indicating that they could represent viable alternatives for the industrial transformation of sweet potato for its possible commercialization.