4 research outputs found
Composición quÃmica, estabilidad oxidativa y propiedades sensoriales de las mezclas de aceites de semillas de Boerhavia elegana Choisy (alhydwan)/aceite de manÃ
This study investigated the effects of blending alhydwan seed oil and peanut oil as a way of enhancing the stability and chemical characteristics of plant seed oils and to discover more innovative foods of high nutraceutical value which can be used in other food production systems. Alhydwan seed oil and peanut oil blended at proportions of 10:90, 20:80, 30:70, 40:60 and 50:50 (v/v) were evaluated according to their physiÂcochemical properties, including refractive index, relative density, saponification value, peroxide value, iodine value, free fatty acids, oxidative stability index, and tocopherol contents using various standard and published methods. At room temperature, all of the oil blends were in the liquid state. The physicochemical profiles of the blended oils showed significant decreases (p < 0.05) in peroxide value (6.97–6.02 meq O2/kg oil), refractive index at 25 °C (1.462–1.446), free fatty acids (2.29–1.71%), and saponification value (186.44–183.77 mg KOH/g), and increases in iodine value and relative density at 25 °C (98.10–102.89 and 0.89–0.91, respectively), especially with an analhydwan seed oil to peanut oil ratio of 10:90. Among the fatty acids, oleic and linoleic acids were most abundant in the 50:50 and 10:90 alhydwan seed oil to peanut oil blends, respectively. Oxidative stability increased as the proportion of alhydwan oil increased. In terms of tocopherol contents (γ, δ, and α), γ-tocopherol had the highest values across all of the blended proportions, followed by δ-tocopherol. The overall acceptability was good for all blends. The incorporation of alhydwan seed oil into peanut oil resulted in inexpensive, high-quality blended oil that may be useful in health food products and pharmaceuticals without compromising sensory characteristics.Este estudio investigó los efectos de mezclar aceites de semillas de alhidwan y aceites de manà como una forma de mejorar la estabilidad y las caracterÃsticas quÃmicas de los aceites de semillas de plantas y descubrir alimentos más innovadores de alto valor nutracéutico que pueden usarse en otros sistemas de producción de alimentos. El aceite de semilla de Alhydwan y el aceite de manà se mezclaron en proporciones: 10:90, 20:80, 30:70, 40:60 y 50:50 (v/v), respectivamente, y se evaluaron sus propiedades fisicoquÃmicas, incluido el Ãndice de refracción, densidad, Ãndice de saponificación, Ãndice de peróxido, Ãndice de yodo, ácidos grasos libres, estabilidad oxidativa y contenido de tocoferoles, utilizando métodos estandarizados publicados. A temperatura ambiente, todas las mezclas de aceite estaban en estado lÃquido. Los perfiles fisicoquÃmicos de los aceites mezclados mostraron disminuciones significativas (p < 0.05) en el valor de peróxido (6,97–6,02 meqO2/kg de aceite), Ãndice de refracción a 25 °C (1,462–1,446), ácidos grasos libres (2,29–1,71%) e Ãndice de saponificación (186,44–183,77 mg KOH/g), y aumentos en el Ãndice de yodo y la densiÂdad relativa a 25 °C (98,10–102,89 y 0,89–0,91, respectivamente), especialmente en una relación de aceite de semilla de analhidwan a aceite de manà de 10:90. Entre los ácidos grasos, los ácidos oleico y linoleico fueron los más abundantes en las mezclas de aceite de semilla de alhydwan/aceite de manà 50:50 y 10:90, respectivamente. La estabilidad oxidativa aumentó a medida que aumentó la proporción de aceite de alhidwan. En términos de contenido de tocoferoles (γ, δ y α), el γ-tocoferol tuvo los valores más altos en todas las proporciones de las mezclas, seguido por el δ-tocoferol. La aceptabilidad general fue buena para todas las mezclas. La incorporaÂción del aceite de semilla de alhydwan al aceite de manà da como resultado mezclas económicas y de alta caliÂdad que pueden ser útiles en productos alimenticios saludables y productos farmacéuticos sin comprometer las caracterÃsticas sensoriales
Effect of Chilled Storage on Antioxidant Capacities and Volatile Flavors of Synbiotic Yogurt Made with Probiotic Yeast Saccharomyces boulardii CNCM I-745 in Combination with Inulin
Fermentation of available sugars in milk by yogurt starter culture initially and later by Saccharomyces boulardii (Probiotic yeast) improves the bioavailability of nutrients and produces bioactive substances and volatile compounds that enhance consumer acceptability. The combination of S. boulardii, a unique species of probiotic yeast, and inulin, an exopolysaccharide used as a prebiotic, showed remarkable probiotic and hydrocolloid properties in dairy products. The present study was designed to study the effect of fermentation and storage on antioxidant and volatile capacities of probiotic and synbiotic yogurt by incorporation of S. boulardii and inulin at 1%, 1.5%, and 2% (w/v), compared with the probiotic and control plain yogurt. All samples were stored at 4 °C, and during these four weeks, they were analyzed in terms of their antioxidant and volatile compounds. The synbiotic yogurt samples having inulin and S. boulardii displayed significantly higher DPPH (2,2-diphenyl-1-picrylhydrazyl) free radical activity values and more values of TPC (total phenol contents) than control plain yogurt. A total of 16 volatile compounds were identified in S5-syn2 and S4-syn1.5, while S3-syn1 and S2-P had 14, compared with the control S1-C plain yogurt samples, which had only 6. The number of volatile compounds increased with the increasing concentration of inulin throughout the storage period. Therefore, this novel synbiotic yogurt with higher antioxidant and volatile compounds, even with chilling storage conditions, will be a good choice for consumer acceptability