Navegando por Palavras-chave "Otimização de formulações alimentícias"

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    Efeito da adição de psyllium (plantago ovata) na qualidade e na resposta glicêmica de pães sem glúten
    (Universidade Federal de São Paulo (UNIFESP), 2016-07-26) Fratelli, Camilly [UNIFESP]; Capriles, Vanessa Dias [UNIFESP]; http://lattes.cnpq.br/2781360640415360; http://lattes.cnpq.br/9223869221443353; Universidade Federal de São Paulo (UNIFESP)
    This study aims to simultaneously improve the technological, sensorial and nutritional quality of gluten-free bread (GFB) by the addition of psyllium to the formulation. A 22 full factorial design was used to investigate the main and interaction effects of psyllium - P (2.86 to 17.14% flour basis - fb) and water - W (82.14 to 117.86% fb) additions on GFB physical properties and acceptability. A total of 7 trials were carried out, comprising four for the factorial and three as central points. The fitted models (R2= 95.8-99.8%, p?0,02) showed that P and W interaction increases bread specific volume, crumb softness, and appearance, color, aroma, flavor, texture and overall acceptability scores of GFB. The model fitted for sensory acceptability scores were used to optimize GFB. Four promising formulations were defined: one from the multiple response desirability function (D= 0,99), named as formulation A prepared with 2.86% P and 82.14% W (fb) which received acceptability scores ? 8 on a 10-cm hybrid hedonic scale; and the other three, selected by the overlaid contour plot in order to achieve acceptable formulations (scores ? 7) enriched with the highest P levels, formulations B- 7.14% P e 91.10% A, C- 15.35% P e 117.86% A, and D- 17.14% P e 117.86% A (fb). The formulations C and D presented 7.8% and 9.2% of dietary fiber, respectively; which represents a three and four-fold increase of the fiber content compared to the control formulation. These formulations presented 3.9 and 4.6 g of P / 50g portion, physiologically relevant amounts of this dietary fiber with functional properties. A shelf-life study was performed for the formulations A - D, by the monitoring and evaluation the physical properties, microbiological safety and acceptability during 96h-storage, compared to the control GFB formulation and two formulations of wheat bread (WB1 and WB2). The results showed that among the GFB, the formulation D showed the lowest staling rate, and was the only one that maintains good acceptability for 72h-storage; with the same aroma, texture and flavor acceptability scores than WB1 and WB2. The glycemic response evaluation showed that the control GFB (0% P) had a high glycemic index (GI = 67) and glycemic load (GL = 14). The addition of 17.14% P (fb) in GFB formulation (formulation D) caused a significant reduction of the glycemic response, which resulted in a product with low GI (50) and low GL (9). Psyllium could be regarded as a technological and nutritional improver of GFB, which makes possible handling and molding the gluten-free dough, enhancing the structure, texture, appearance, acceptability and shelf-life of GFB, while increased the dietary fiber content and reduced the glycemic response of this food product, which can provide nutritional and functional benefits to patients with gluten related disorders.
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    Pão sem glúten enriquecido com inulina: um estudo de otimização do novo produto e de comparação das suas propriedades físicas, aceitabilidade, vida de prateleira e resposta glicêmica com as de pães convencionais
    (Universidade Federal de São Paulo (UNIFESP), 2016-07-11) Muniz, Denise Garcia [UNIFESP]; Capriles, Vanessa Dias [UNIFESP]; http://lattes.cnpq.br/2781360640415360; http://lattes.cnpq.br/6114620619643456; Universidade Federal de São Paulo (UNIFESP)
    This study aims to define the appropriate levels of inulin and water in order to add technological, nutritional and functional quality to gluten-free breads (GFB). The central composite design was used, with variations of inulin (I) levels from 0 to 30% and water (W) of 80 140% (on flour basis - fb). Results have shown that the addition of up to 30% I does not affect the physical properties and acceptability of GFB, provided that appropriate setting of the W percentage of the formulations be accomplished. Two formulations were selected: one for the simultaneous optimization of the acceptability by the overall desirability function (D = 0.96), consisting of 10.65% I and 108.5% W (fb) and the other by the overlapping of the acceptability contour graphs, consisting of 30% I and 131.6% W (fb). These formulations, as well as the control one (without I) showed acceptability scores of appearance, color, aroma, flavor, texture and overall acceptability of ? 8 in hybrid hedonic scale of 10 cm. The use of 30% I (fb) in the preparation of GFB resulted in a well-accepted product containing 7.7% of fructan in the formulation and 10.2% total dietary fiber; corresponding to a 3.6 times increase in fiber content compared to the control formulation. The results of the in vivo test for determining the glycemic response showed that this level of addition caused a significant reduction in the glycemic index from 67 to 49, and the glycemic load from 14 to 8 GFB. Results of the shelf life test have shown that the addition of 30% I (fb) did not alter the physical properties of GFB, and these showed higher crumb firmness when compared to the two formulations of bread made of wheat flour (WB1 and WB2). The lowest acceptability scores of texture and taste were the characteristics that differentiate the GFB of WB1 and WB2 bread during the 72 hours storage. It has been observed that 24 hours after production, the GFB control is no longer accepted for texture (scores between 4 and 5) and addition of I allowed the maintenance of moderate acceptance of this attribute (~ 6 scores) during 72 hours storage. The use of 30% I and 131.6% W (fb) in GFB formulation enable to obtain a nutritionally-improved product that can provide nutritional and functional benefits to people who need gluten-free diet and / or glycemic control. Considering the high nutritional and functional potential of this product, further studies leading to extend their shelf life are recommended.
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    Utilização da farinha de chia (salvia hispânica l) Na elaboração de pães sem glúten: otimização das propriedades tecnológicas e sensoriais
    (Universidade Federal de São Paulo (UNIFESP), 2014-03-26) Sandri, Luciana Teodoro Braz [UNIFESP]; Capriles, Vanessa Dias [UNIFESP]; http://lattes.cnpq.br/2781360640415360; http://lattes.cnpq.br/4258935175070745; Universidade Federal de São Paulo (UNIFESP)
    The objective of this study was to develop and optimize the technological and sensory properties of gluten-free breads formulations (GFB) containing chia flour (Salvia hispanica L.). Two types of experimental designs were used to identify the proportions of chia flour and other key ingredients that would allow maximizing physical properties and acceptability of GFB. The experimental design for mixing three components was used to evaluate the effects of rice flour (RF), potato starch (PS) and whole chia flour (WCF), as well as their interactions, in the physical properties of GFB. The proportions of components varied from 0 to 100% (flour basis - fb). The rotational central composite design for two factors (DCCR 22) was used to evaluate the effects of the defatted chia flour dosages (DCF) (range from 0 to 28% fb) and water (range from 100 to 200% fb) as well as their interactions, in the physical properties and acceptability of GFB. Data were analyzed using response surface methodology. The experimental mixture design results showed that the WCF has interactions with the RF, resulting in increased loaf volume and decreased crumb firmness [R2(adj)=72-94%, p=0.00]. This suggests that formulations prepared from the mixture of RF with WCF have good physical properties. Three GFB formulations were optimized for physical properties (1: 95% RF + 5% WCF, 2: 90% RF + 10% WCF, 3: 86% RF + 14% WCF), and were accepted regarding appearance, color, flavor, texture, taste and overall appearance, with an acceptability average from 7.3 to 8.7, in a hybrid hedonic scale of 10 cm. However, the water content (100% fb) and the other ingredients were fixed for all formulations, which may have limited the amount of WCF in the formulation. Therefore, in continuity, the DCCR 22 was used. The models showed that the higher the concentration of DCF and water, the lower the acceptability of GFB [R2(aj)=69-95%, p<0,01]. And no significant effects were observed from the interactions between these factors on the GFB characteristics. However, increasing the water content of the DCF formulations improved physical properties and acceptability of GFB. Three optimum formulations were obtained (1 ? 0% DCF, 135,5% water; 2 ? 9,8% DCF, 135,5% water; 3 ? 17,2% DCF and 139,7% water) showing acceptability scores ranging from 7.0 to 9.0 for all measured attributes. The results of this study show that it is possible to incorporate up to 17.2% of chia flour in GFB formulation. This research cooperates with the technology of gluten-free baking, indicating the use of a new raw material in products with a high acceptability and may contribute to the development and diversification of this market, increasing the offer of good quality of GFB, regarding technological, sensory and nutritional characteristics, making them more accessible to people with celiac disease, which will help these people regarding adherence and diversification in the gluten-free diet.