América Chávez‐Martínez scite author profile

The aim of this study was to evaluate the influence of different concentrations of inulin and pectin as fat substitutes on the chemical composition, texture, and sensory acceptance of frankfurter sausages. Six treatments were evaluated to test fat replacement: control (T0); low fat control (T1); low fat with 15% inulin (T2); low fat with 30% inulin (T3); low fat with 7.5% inulin and 7.5% pectin (T4); and low fat with 15% inulin and 15% pectin (T5). The addition of fibers increased the yield (T3 and T5; 98.96%), and the color parameters were slightly reduced (T3). Moisture (61.14%) and ashes (6.96%) of sausages with inulin and pectin were higher (T5), while shear force, hardness, fracturability, gumminess, and chewiness (T3 and T5) were slightly lower than those of the control. The addition of inulin (T2) increased the sensory acceptance of the sausages (5.75). Fat can be replaced with inulin and pectin in frankfurter sausages to produce healthy and functional products.

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Rumen microorganisms and fermentation

Castillo-González

et al. 2014

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RESUMENEl rumen es un ecosistema complejo donde los nutrientes consumidos por los rumiantes son digeridos mediante un proceso de fermentación realizado por los microorganismos ruminales (bacterias, protozoos y hongos). Dichos microorganismos están en simbiosis, debido a su capacidad de adaptación e interacción, y mientras el rumiante proporciona el ambiente necesario para su establecimiento estos proporcionan energía al animal, la que proviene de los productos finales de la fermentación. Dentro del rumen, los microorganismos coexisten en un entorno reducido y a un pH cercano a la neutralidad. Estos microorganismos fermentan los sustratos presentes en la dieta del rumiante (azúcares, proteínas y lípidos). Sin embargo, el proceso de fermentación no es 100% eficaz, ya que durante la fermentación existen pérdidas de energía, principalmente en forma de gas metano (CH 4 ), el que representa un problema medioambiental, ya que es un gas de efecto invernadero. Por consiguiente, para mejorar la eficiencia de los sistemas de producción de rumiantes se han establecido estrategias nutricionales que tienen como objetivo manipular la fermentación ruminal mediante el uso de aditivos en la dieta, como monensina, sebo, tampones, compuestos de nitrógeno, probióticos, etc. Estos aditivos permiten cambiar el proceso de fermentación y mejorar la eficiencia animal, además disminuyen la pérdida de energía. El objetivo de este trabajo es revisar los procesos fermentativos que tienen lugar en el rumen y aplicar los fundamentos de estos en el desarrollo de nuevas estrategias nutricionales que pudieran ayudar a mejorar los procesos de digestión, de manera que se alcance una máxima producción.Palabras clave: aditivos, microorganismos ruminales, simbiosis. SUMMARYThe rumen consists of a complex ecosystem where nutrients consumed by ruminants are digested by fermentation process, which is executed by diverse microorganisms such as bacteria, protozoa, and fungi. A symbiotic relationship is found among different groups of microorganisms due to the diverse nature of these microbial species and their adaptability and interactions also coexist. The ruminant provides the necessary environment for the establishment of such microorganisms, while the microorganisms obtain energy from the host animal from microbial fermentation end products. Within the ruminal ecosystem, the microorganisms coexist in a reduced environment and pH remains close to neutral. Rumen microorganisms are involved in the fermentation of substrates contained in thedietof the animals (carbohydrates, proteins and lipids). However, the fermentation process is not 100% effective because there are energy losses mainly in the form of methane gas (CH 4 ), which is a problem for the environment since it is a greenhouse gas. In order to improve the efficiency of ruminant production systems, nutritional strategies that aim to manipulate ruminal fermentation using additives in the diet such as monensin, tallow, buffers, nitrogen compounds, probiotics, and others have been used. These additi...

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Food Choices, Food Sufficiency Practices, and Nutrition Education Needs of Hispanic Migrant Workers in Pennsylvania

Cason

Nieto-Montenegro

Chávez‐Martínez

2006

Topics in Clinical Nutrition

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Characterization of Beet Root Extract (Beta vulgaris) Encapsulated with Maltodextrin and Inulin

et al. 2020

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Betalains are powerful antioxidants contained in beets. These are divided into betacyanins (red-violet) and betaxanthins (yellow-orange), and they can be used as natural colorants in the food industry. The effects of freeze-drying pure beet juice (B) and the encapsulation of beet juice with a dextrose equivalent (DE) 10 maltodextrin (M) and agave inulin (I) as carrier agents were evaluated. The powders showed significant differences (p < 0.05) in all the variables analyzed: water absorption index (WAI), water solubility index (WSI), glass transition temperature (Tg), total betalains (TB), betacyanins (BC), betaxanthins (BX), total polyphenols (TP), antioxidant activity (AA, via 2,2’-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid)) (ABTS), and 2,2-diphenyl-1-picrylhydrazyl (DPPH)) and total protein concentration (TPC). The highest values of antioxidant activity were found in the non-encapsulated beet powder, followed by the powder encapsulated with maltodextrin and, to a lesser extent, the powder encapsulated with inulin. The glass transition temperature was 61.63 °C for M and 27.59 °C for I. However, for B it was less than 18.34 °C, which makes handling difficult. Encapsulation of beet extract with maltodextrin and inulin by lyophilization turned out to be an efficient method to increase solubility and diminish hygroscopicity.

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