RESUMO
The frying process changes can be desirable and undesirable, involving the physicochemical, nutritional, and sensory aspects, depending on the food and oil properties and the frying process. In this context, alternative flours emerge as a strategy for adding value to the food since they are rich in fiber, vitamins, and minerals, contributing to the variability of ingredients and the full use of food, including residues such as seeds and husks. This narrative review aims to gather current scientific data addressing the alternative flour coatings on breaded meat, mainly chicken, products to evaluate the effects on fried products' nutritional value, physicochemical parameters, and sensory attributes. Scopus, Science Direct, Springer, and Web of Science search bases were used. This review showed that alternative flours (from cereals, legumes, fruits, and vegetables) used as coatings increase water retention and reduce oil absorption during frying, increase fibers and micronutrient content, which are not present in sufficient quantities in commonly used flours due to the refining process. These flours also reduce gluten consumption by sensitive individuals in addition to favoring the development of desirable sensory characteristics to attract consumers. Therefore, frying processes in oil promote a reduction in humidity, an increase in oil absorption and energy content, and a decrease in vitamin content. In this context, coatings based on alternative flours can reduce these adverse effects of the frying process.
RESUMO
Consumption of fried foods is associated with a higher risk of cardiovascular and other diseases; therefore, consumers are looking to reduce fat intake. We evaluated the effect of high-protein breaders and fiber on oil absorption and quality attributes in chicken nuggets, using flour blends (wheat, chickpea, coconut, oil-quinoa-chia), soy protein concentrate, and brewers' spent grain. We evaluated the chemical composition, water and oil retention capacity (ORC), viscosity profile, and flour particle size distribution, along with the developed breaders (Formulation 1 and 2) and a commercial breader (CB), in addition to texture, color, fat, and moisture contents of the fried chicken nuggets prepared with the developed breaders and the CB. The total dietary fiber content (TDF) of the nuggets breaded with only Formulation-1 and CB was determined. Nuggets breaded with Formulation-1 showed lower (p ≤ 0.05) ORC, better moisture retention (67.6%), and more TDF (4.5% vs. 2.3%, p ≤ 0.05) compared to CB-breaded nuggets. Nuggets with Formulation-1 showed the expected texture and color characteristics for fried products. Formulation-1 has the potential to be used as a breader due to its moisture, reduced ORC, and the texture and color it imparts to the fried nuggets, providing higher amounts of nutrients and possible health benefits.
RESUMO
Una alternativa para resolver el problema del déficit global de proteínas ha sido la utilización de tortas desgrasadas generadas por la extracción de aceite de fuentes vegetales tales como raps, soya, lupino, etc, proceso que al mismo tiempo incrementa el contenido proteico, siendo factible que sea usada para enriquecer algunos tipos de alimentos. Tal es el caso de la avellana chilena (Gevuina avellana, Mol), especie monotípica caracterizada por su elevado porcentaje de aceite (50%) y cuya torta desgrasada podría utilizarse para obtener un aislado proteico. Con este fin se optimizaron las condiciones de extracción de proteína utilizando para ello la metodología superficie de respuesta (MSR) seleccionando el diseño central compuesto, tres variables independientes: tiempo de contacto de la torta con el solvente, relación muestra/solvente y pH, con 5 niveles de trabajo cada uno y tres replicaciones en el punto central. Los datos fueron sometidos a un análisis de regresión y después de ANOVA. El primero para determinar la ecuación polinómica y el segundo para seleccionar los factores de control con efecto significativo sobre el rendimiento de la proteína. La mejor combinación de los factores resultó ser tiempo entre 30 y 40 minutos, pH entre 9 y 9,5 y la relación muestra/ solvente entre 1/15 a 1/16, con un rendimiento final de 76%. En cuanto a las características físicas esta fueron: densidad aparente 0,504 g/cm3, compactación 43,34% y color amarillo claro. El análisis proximal mostró una concentración de proteínas de 76%, hidratos de carbono 13%, fibra cruda 0,68% y aceite 1,29%. En cuanto a las propiedades funcionales destacó absorción de agua (320 g/100 g), absorción de aceite (410 g/100g) y capacidad espumante (221, 05 %).
Establishment of optimun conditions in order to obtain a protein isolate from Chilean Hazelnut. An alternative to solve the problem of the overall deficit of proteins has been the use of defatted cakes generated by the extraction of oil from vegetable sources such as rapeseed, soybean, lupin, etc. This process at the same time increases the protein content, making this feasible to be used to enrich some types of food. This is the case of the chilean hazelnut (Gevuina avellana, Mol), monotypic species characterized by their high percentage of oil (50%) and whose defatted cake isolated protein could be used to obtain an isolated protein. For this purpose optimized conditions of extraction of protein were carried out using the surface response methodology (SRM) and a central composite design with three independent variables: time of contact of the cake with the solvent, sample /solvent ratio and pH was used. All variables were controlled at five different levels. The data were subjected to an analysis of regression and ANOVA, the first to determine the polynomial equation and the second to select the control factors with significant effect on the extraction of the protein. The best combination of factors turned out to be: time between 30 and 40 minutes, pH between 9 and 9.5 and a relationship sample / solvent between 1/15 to 1/16 with a final yield of 76%. The physical characteristics were: density 0,504 g/cm3, compaction 43, 34 % apparent and pale yellow. Proximal analysis showed a concentration of protein of 76%, 13%, raw fiber carbohydrate 0.68% and oil 1.29%. With regard to the functional properties emphasized water absorption (320 g / 100 g), absorption of oil (410 g / 100 g) and foaming capacity (221 %).
Assuntos
Corylus/química , Manipulação de Alimentos/métodos , Proteínas de Plantas/isolamento & purificação , Chile , Valor Nutritivo , Proteínas de Plantas/químicaRESUMO
Nowadays, there is considerable concern about the consumption of high fat and low fiber foods. The objective was to develop instant noodles (IN) with functional properties by adding 10 percent green banana flour (GBF), and determine the effect of this on the dough rheological properties. Noodles were obtained through sheeting, steaming and frying process. The IN were characterized for their moisture, fat, resistant starch (RS), texture and color. The proximate composition showed that GBF was rich in ash (3.16 percent), fiber (8.88 percent) and RS (45.70 percent), being an attractive raw material for the production of functional IN. When 10 percent GBF was added, rheological properties of dough changed because of dilution of gluten, making it weaker, but with enough extensibility and elasticity for functional IN production. The addition of 10 percent GBF significantly reduced the oil content in all the frying times, when compared to the control noodles, increasing also RS content. Ban10 noodles showed a lower L* value (78.12), indicating a darker color than the control noodles (92.36). In analyzing the firmness of Ban10 noodles, a decrease was observed due to dilution of gluten. However, Ban10 noodles showed a better nutritional profile due to the increase in ash and dietary fiber contents. In conclusion it can be affirmed that Ban10 noodles can be considered as functional IN, due to the presence of fiber (5.79 percent) and RS (3.98 percent) contents in the final product.
Atualmente, existe uma preocupação com relação ao consumo de alimentos com alto teor de gordura e baixo em fibras. Neste trabalho, objetivou-se desenvolver macarrão instantâneo com propriedades funcionais através da adição de 10 por cento de farinha de banana verde (FBV) e determinar os efeitos nas propriedades reológicas da massa. Os macarrões instantâneos foram obtidos por processos de laminação, cozimento a vapor e fritura. Os macarrões foram caracterizados quanto à umidade, gordura, amido resistente, textura e cor. A composição centesimal mostrou que a FBV contém alto teor de cinzas (3,16 por cento), fibras (8,88 por cento) e amido resistente (45,70 por cento), sendo uma matéria-prima interessante na produção de macarrão instantâneo funcional. Quando adicionado 10 por cento de FBV à farinha de trigo as propriedades reológicas da massa foram alteradas, em razão da diluição do glúten, tornando-o mais fraco, mas com extensibilidade e elasticidade suficiente para a produção de macarrão instantâneo funcional. A adição de FBV reduziu significativamente o teor de gordura em todos os tempos de fritura e aumentou o teor de amido resistente, quando comparado ao macarrão instantâneo controle. Os macarrões Ban10 apresentaram um menor valor no parâmetro L* (78,12), indicando uma coloração mais escura do que o controle (92,36). A adição de FBV diminuiu a firmeza dos macarrões, em decorrência da diluição do glúten. No entanto, os macarrões Ban10 apresentaram um melhor perfil nutricional, pelo aumento no teor de cinzas e fibra alimentar total. Em conclusão, pode ser afirmado que os macarrões Ban10 podem ser considerados funcionais, em razão do teor alto de fibra (5,79 por cento) e de amido resistente (3,98 por cento).