RHEOLOGICAL AND PHYSICAL PROPERTIES OF LOW FAT CAKES PRODUCED BY ADDITION OF CEREAL Β-Glucan CONCENTRATES

Kalinga, Danusha N.; Mishra, Vijay Kumar

doi:10.1111/j.1745-4549.2008.00260.x

Cited by 68 publications

(67 citation statements)

References 29 publications

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“…Nonetheless, the greater air incorporation and the distribution of this air in the form of fine bubbles generated by the emulsifier may also affect the rheological measurements of the batters. In fact, it has been found that the viscoelastic properties are also dependent on the concentration of air trapped during mixing (Kalinga and Mishra 2009). In this research, G′ and G″ moduli were correlated (p<0.01) to the mean area and the number of bubbles; thus, the smaller the area and the higher the number of the bubbles, the higher the elastic and viscous properties of the batters.…”

Section: Resultsmentioning

confidence: 53%

“…Most attempts to reduce the fat content of cakes and muffins have focused on their substitution by several carbohydrate fat replacers such as inulin (Rodríguez-García et al 2012Zahn et al 2010), β-glucan (Kalinga and Mishra 2009;Lee et al 2005), cocoa fibre (Martínez-Cervera et al 2011), modified corn starch (Chung et al 2010), and potato maltodextrins, polidextrose or crystalline cellulose (Kamel and Rasper 1988;Khalil 1998). The use of protein fat replacers (Conforti 1998;Psimouli and Oreopoulou 2013) and chia gel (Borneo et al 2010) has also been proposed.…”

Section: Introductionmentioning

confidence: 99%

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Effect of extruded wheat flour as a fat replacer on batter characteristics and cake quality

et al. 2015

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The effects of three levels of fat replacement (1/3, 2/3, and 3/3) by extruded flour paste and the effects of the presence of emulsifier on layer cake batter characteristics and final cake quality were studied. Replacement of oil by extruded flour paste modified the batter density and microscopy, reducing the number of air bubbles and increasing their size, while emulsifier incorporation facilitated air entrapment in batter. Emulsifier addition also increased the elastic and viscous moduli of the batter, while oil reduction resulted in a less structured batter. Emulsifier incorporation leads to good quality cakes, minimizing the negative effect of oil reduction, maintaining the volume and reducing the hardness of cakes. Furthermore, consumer acceptability of the reduced fat cakes was improved by the addition of emulsifier. Thus, the results confirmed the positive effect of partial oil substitution (up to 2/3) by extruded flour paste on the quality of reduced fat cakes when emulsifier was incorporated.

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Section: Resultsmentioning

confidence: 53%

Section: Introductionmentioning

confidence: 99%

Effect of extruded wheat flour as a fat replacer on batter characteristics and cake quality

et al. 2015

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“…It could be inferred that due to more absorption of water, hardness of dough increases. Kalinga and Mishra (2009) found that batter viscosity for low fat cake increased when shortening was replaced with oat or barley β-glucan concentrates. …”

Section: Resultsmentioning

confidence: 99%

Effect of inulin on textural and sensory characteristics of sorghum based high fibre biscuits using response surface methodology

2012

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Five blends of sorghum (Sorghum bicolor) flour (25.0-45.0 %) and whole wheat flour were used to make biscuits using inulin (5.0-10.0 %) and guar gum (1.0-2.0 %). An experimental investigation was carried out with the aim of evaluating the effect of fat replacer (inulin) and sorghum flour on the quality of high fibre and low calorie biscuits. For this purpose, the biscuit dough and the biscuit samples were analyzed. The analysis was based on hardness of the dough, hardness of the biscuit, fracturability and overall acceptability (OAA) scores. Results showed that increasing the amount of sorghum flour in biscuit increased the dough hardness and biscuit hardness, whereas, biscuit fracturability decreased and OAA scores increased up to the level at which sorghum flour ranged from 35.0 to 40.0 % after which it decreased. An increase in the amount of inulin was followed by an increase in biscuit hardness, while, fracturability and OAA scores decreased and there was little effect on the dough hardness. Optimum conditions generated from the analysis was 40.8 % sorghum flour, 6.5 % inulin and 1.0 % guar gum. The predicted response in terms of dough hardness, fracturability, biscuit hardness and OAA were 212.4 g, 36.4 mm, 4.8 kg and 7.06, respectively. The desirability of the optimum condition was 0.827.

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“…Lee and Inglett (2007) reported that oat β-glucan reduces oil uptake of batters during frying, since high water holding capacity and viscosity development have a great effect on the reduction of oil uptake. Kalinga and Mishra (2009) also used β-glucan concentrate as fat replacer for the development of low fat cakes. Therefore, the presented study envisages to incorporate fiber in poories; to reduce the oil uptake while frying, and to study and optimize level of fiber incorporation in accordance with acceptability of the product.…”

Section: Introductionmentioning

confidence: 99%

Fibres as an additive for oil reduction in deep fat fried poori

Yadav

Rajan

2011

J Food Sci Technol

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Models capable of predicting the moisture and oil content as well as overall acceptability (OAA) of poori, prepared from wheat flour incorporated with wheat bran and oat bran were developed using response surface methodology. Central composite rotatable design with two independent variables (wheat bran and oat bran) at five levels (wheat bran, 3-9 g/100 g wheat flour and oat bran 6-12 g/100 g wheat flour) was used to optimize the bran level. Results showed that oat bran had significant (p≤0.05) positive effect on moisture retention and negative effect on oil absorption, while wheat bran had reverse effect. Based on compromise optimization, it was recommended to incorporate 3.0 g wheat bran and 11.0 g oat bran (per 100 g wheat flour) for making fibre rich (4.2% total dietary fibre, 1.3% soluble dietary fibre) poori with lower oil content (20% less as control) and optimum acceptability (88.6).

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RHEOLOGICAL AND PHYSICAL PROPERTIES OF LOW FAT CAKES PRODUCED BY ADDITION OF CEREAL Β-Glucan CONCENTRATES

Cited by 68 publications

References 29 publications

Effect of extruded wheat flour as a fat replacer on batter characteristics and cake quality

Effect of extruded wheat flour as a fat replacer on batter characteristics and cake quality

Effect of inulin on textural and sensory characteristics of sorghum based high fibre biscuits using response surface methodology

Fibres as an additive for oil reduction in deep fat fried poori

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