Studies on cake quality made of wheat–chickpea flour blends

Legume flours, due to their amino acid composition and fibre content are ideal ingredients for improving the nutritional value of bread and bakery products. In this study, the influence of the total or partial replacement of wheat flour by chickpea flour on the quality characteristics of two kinds of cake was analyzed. The effects of the chickpea variety and the kind of flour used (white or whole) were also considered. Volume, symmetry, chroma, and crust and crumb L^* diminished when increasing the amount of chickpea flour. The replacement of wheat flour by chickpea flour also induced an increase in the initial firmness but cohesiveness and resilience diminished, increasing the tendency to hardening. Among the studied varieties, Pedrosillano and Sinaloa produced cakes with the highest volume. Those varieties also gave layer cakes with the lowest firmness, gumminess and chewiness. White flours produced sponge cakes with higher volume and symmetry than whole flours. No significant differences, however, were observed in layer cakes between white and whole flours. In both layer and sponge cakes, white flour produced cakes with lower firmness, gumminess and chewiness than whole flours.     

Influence of Flour Particle Size on Quality of Gluten-Free Rice Cakes

There is a growing interest in developing gluten-free bakery products in recent time. In cake making, gluten network formation is not essential, but hardly any information exists about the influence of the gluten-free flour characteristics affecting the final cake product. This study analyses the influence of two different rice cultivars (short and long) with different flour particle size in batter characteristics (specific volume, viscosity and internal structure) and in sponge and layer cake formulas (volume, shape, texture and colour). During starch gelatinization, the finest flours (median particle size finer than 100 μm) increased their viscosity and reached the peak viscosity (RVA) later than the coarsest flours. Moreover, the finest flours gave batters with lower specific volumes but with an air distribution in smaller and uniform bubbles in both formulas. These flours also produced higher volume and lower firmness in sponge cakes and greater symmetry index both in sponge and layer cakes. The rice type also influenced batter and cakes characteristics but in a lesser extent. The different results obtained depending on the rice flour particle size, type flour and cake formulation indicate the need to define them both in industrial specifications and in research studies.     

Wasted bread flour as a novel ingredient in cake making

Bread is one of the most wasted products in both industry and retail. This study analysed the use of bread flour of various particle sizes (1000 μm, 500 μm and 200 μm) in different percentages for sponge formulations (10% and 20%) and layer cakes (10%, 20% and 30%). Viscosity, microstructure and density of batters, as well as specific volume, texture and colour of cakes were evaluated. The inclusion of bread flour change batter microstructure. Viscosity does not affect the sponge batters but it tends to increase in the layers, mostly in the case of finer flours. The specific volume is reduced in sponge cakes while hardness is generally increased, even with the lowest percentages of bread flour. In layers, this reduction in volume is only visible at the highest doses of flours below 500 microns with no changes in hardness.     

Studies of the quality of cakes made with wheat-lentil composite flours

Legume flours, due to their amino acid balance and their demonstrated nutritional benefits, are ideal ingredients to improve the nutritional characteristics of bakery products. We have studied the inclusion of lentil flour on layer and sponge cakes, and its effect on the characteristics of the batter and of the final product. The addition of lentil flours reduced the density of layer-cake batter but increased the density of sponge-cake batter. This effect was greater with the smaller flour-particle size. Adding lentil flour to the formula reduced layer-cake volume, symmetry index, cohesiveness and springiness and increased hardness. In sponge cakes, no clear tendencies were observed in volume or symmetry index, but the total substitution of wheat flour by lentil flour gave rise to harder and less cohesive cakes. The use of lentil flour with a fine particle size increased cake volume but reduced hardness, particularly in sponge cakes.     

Effects of adding chickpea and chestnut flours to layer cakes

Chestnut and chickpea flours have interesting nutritional characteristics and can be incorporated into layer cake formulations. This study aims to evaluate the effect of incorporating mixtures of these flours with wheat flour in the elaboration of layer cakes. With this aim, layer cakes were elaborated with the three different flours. Mixes of 50% of these flours and a mixture of the three flours in the same proportion were analysed. Batter density, microstructure and viscosity, as well as the specific volume, texture and acceptability of layer cakes were evaluated. Chickpea flour reduced the batter density and increased viscosity compared to wheat flour, while chestnut flour reduced viscosity and did not clearly affect density. Although both flours produced layer cakes with lower specific volume, as well as less cohesive and springiness, the effect on specific volume was clearer in chestnut flour. With 50% of chickpea flour, it was possible to obtain layer cakes with the same specific volume and hardness as those made with wheat flour. Layer cake acceptability decreased with the reduction in wheat flour, regardless of the type of flour incorporated. No improved acceptability has been found when combining chickpea and chestnut flours.     

Optimisation of wheat flour‐based sponge cake formulation containing tapioca starch and xanthan gum

The optimum formulation for wheat flour (WF)‐based sponge cakes containing tapioca starch (TS) and xanthan gum (Xan) was determined using the central composite design with two factors and response surface methodology (RSM). Effects of partial substitution of TS (5–15%) for WF in a 20% total flour blend and Xan (0.1–0.3%) on specific volume, parameters of texture profile analysis and sensory liking scores of baked sponge cakes were investigated. A second‐order polynomial response surface was used to explain the influence of TS and Xan on the dependent variables. Coefficients of determination (R² ≥ 0.75) of the response variables and significant regression models were used for RSM optimisation. Based on the RSM contour plots, the cake formulation containing 16% butter with desired physical properties (maximum specific volume; minimum hardness, gumminess and chewiness) and sensory quality (maximum overall liking) was found to be 11.09–11.88% TS and 0.10–0.11% Xan.     

Functionality of Commercially Produced Wheat Flour Solubles in Cakes, Cookies, and Wieners

The performance of wheat flour solubles (WFS) obtained by ultrafiltration and spray drying of a gluten-wheat starch plant effluent was evaluated in cakes, cookies, and wieners. Batter density, cake volume, and quality of high ratio white layer cake decreased with increase in the level of WFS when it was used either as a wheat flour substitute (0–20%) or an egg white substitute (0–50%). Volume and textural characteristics of a yellow layer cake with and without substitution by WFS of 50% whole egg was not significantly different. Increasing WFS substitution levels (0–25%) of a sugar-snap cookie formulation reduced the spread factor and increased the crispness of the cookies without significantly affecting other textural characteristics. Firmness and cook stability of wieners with (6% level) and without WFS were not significantly different.     

Effect of tigernut (Cyperus esculentus) flour addition on the quality of wheat‐based cake

The effect of substituting tigernut flour for wheat flour on the proximate, mineral and pasting properties of the resultant blends and cake quality were studied. The proximate composition of flour blends increased with increasing level of tigernut. Protein increased from 22.30 to 26.93% and fat from 4.17 to 7.21% resulting in an increase in energy value from 342.09 to 390.93 kcal. The pasting properties of the flour blends were affected significantly (P ≤ 0.05) by tigernut substitution. Pasting peak time and temperature decreased with increasing level of tigernut. Mineral elements such as iron and calcium increased from 3.13 to 4.19 and 54.01 to 56.41 (mg 100 g^?1) respectively, with tigernut substitution. The weight and volume of cakes increased with tigernut level while batter density and volume index decreased. Acceptable cakes can be made with up to 30% tigernut flour substitution. Such composite cakes may help in reducing protein energy and micronutrient deficiencies.     

Navy Bean Flour Particle Size and Protein Content Affect Cake Baking and Batter Quality1

Whole navy bean flour and its fine and coarse particle size fractions were used to completely replace wheat flour in cakes. Replacement of wheat flour with whole bean flour significantly increased the protein content. The protein content was adjusted to 3 levels with navy bean starch. The effect of navy bean flour and its fractions at 3 levels of protein on cake batter rheology and cake quality was studied and compared with wheat flour samples. Batters prepared from navy bean flour and its fractions had higher viscosity than the cake flour. Reducing the protein content by addition of starch significantly lowered the viscosity of cake batters. The whole navy bean flour and coarse bean fraction cakes were softer than cakes made with wheat flour but had reduced springiness. Principal component analysis showed a clear discrimination of cakes according to protein. It also showed that low protein navy bean flour cakes were similar to wheat flour cakes. Navy bean flour with protein content adjusted to the level of cake (wheat) flour has potential as a healthy alternative in gluten‐free cakes.     

Adequacy of wholegrain non-wheat flours for layer cake elaboration

Flours (white and wholegrain flours) from wheat, rye, triticale, barley and tritordeum were used to elaborate layer cakes. The pasting properties (RVA) and the water-absorption (doughLab) of flours were analyzed. The batter characteristics (density, G′, G″, tan δ, consistency and flow index), and the cake characteristics (cake volume, crumb and crust colour and texture after 1 and 7 days) were studied. A sensorial evaluation of the cakes was also performed. Wholegrain flours showed higher pasting temperature and water-absorption, but lower peak time and viscosity than white flours. Its batters showed lower density and consistency and higher G′, G″, tan δ and n values. Wholegrain cakes showed lower specific volume, symmetry, colour characteristics, and staling rate but higher initial firmness. Considering the different cereals, barley showed the most different behaviour in flour, batter and cake characteristics. DoughLab analysis was very interesting to understand the adequacy of flours to cake elaboration, since significant correlations were found between water-absorption and specific volume, symmetry and firmness. Little differences in the consumer test were obtained between wheat and non-wheat cakes. Wholegrain non-wheat cakes could be a good alternative to white flour wheat cakes, due to their adequate technological properties and their nutritional advantages.     

Incorporation of chia seed flour into gluten-free rice layer cake: Effects on nutritional quality and physicochemical properties

The purpose of this research was to incorporate 0% to 30% chia seed flour into rice flour gluten-free layer cake and evaluate its effect on nutritional qualities and physicochemical properties. The supplement of chia seed flour resulted in higher batter viscosity, hardness of gluten free layer cake, crude protein, fat, ash, α-linolenic acid (increase up to 10.2% of total fatty acid), total phenolics content, and reducing power but the lower crust, crumb white index, cohesiveness, and resilience of gluten-free layer cake was found. Substitution of rice flour with 10% prehydrated chia seed flour can achieve a higher center height and volume index of gluten-free layer cakes. Higher carosine and angiotension I-converting enzyme (ACE) inhibitory activity was observed in the supplement of 10% chia seed flour when compared to a rice flour layer cake. Gluten-free layer cake with 10% prehydrated chia seeds flour had similar overall acceptability, texture, flavor, and odor scores except for lower appearance score to those of gluten-free layer cake made with 100% rice flour and layer cake made with 100% wheat flour. Incorporation of 10% prehydrated chia seed flour results in more desirable volume index of gluten-free layer cake and it is feasible for gluten-free layer cake application. Gluten-free layer cakes with improved quality characteristics and high nutritional value can be manufactured by the incorporation of chia seed flour.     

Use of wheat,triticale and rye flours in layer cake production

In this study, the capacity of obtaining high quality layer cakes from rye and triticale lines was analysed and compared to wheat lines. The samples were characterised considering grain hardness, flour composition and quality parameters as protein, pentosan, damaged starch, pasting viscosity and functional predictive test – solvent retention capacity test. Cakes were analysed in weight, symmetry, volume, volume index (VI) by measuring the height in different points of the cake, crust and crumb colour, crumb structure and texture. Wheat and triticale cakes showed similar characteristics. Rye cakes showed higher volume and lower weight than those with crumbs darker in colour, higher adhesiveness, springiness and resilience. The multiple regression analysis was used to develop an equation for cake volume index prediction. The best‐fit linear regression model was: VI = 14.75 – 0.14 × protein + 0.93 × water soluble pentosan – 0.27 × total pentosan. Despite the differences, high quality cakes can be elaborated with rye, triticale and soft wheat cultivars.     

The effects of extruded black rice flour on rheological and structural properties of wheat-based dough and bread quality

Addition of raw black rice flour leads to deficient processability on bread making quality. One of the effective methods to modify the functional properties of black rice flour (BRF) composite dough is to extrude black rice flour (EBRF) before incorporation. This study investigated and compared the effect of BRF and EBRF addition level of 10%–50% on the rheology, microstructure of dough and bread quality. The rheological properties of composite dough were recorded by Mixolab, stress relaxation and tensile test. The substitution of EBRF presented higher water absorption but lower development time, protein weakening, starch gelatinization, starch gel stability and starch retrogradation than wheat flour dough. Both the BRF and EBRF dough presented solid-like behaviour, while the EBRF dough showed more viscous, higher resistance and extensibility than BRF dough. The dough microstructure of dough was observed by SEM, and a more compact structure of EBRF dough could be seen than BRF dough. The incorporation of EBRF in bread quality presented higher specific volume, lower bake loss and firmness than BRF bread. These findings indicated the potential utilisation value of extruded black rice flour in bread making.     

Comparative study of texture of normal and energy reduced sponge cakes

The complete sucrose elimination and its replacement by microencapsulated aspartame (Nutra Sweet) and bulking agents (sorbitol, wheat starch and wheat germ) on the physical and textural sensory characteristics of two diabetic sponge cakes against a control sponge cake was studied. Mathematical and statistical methods were used and regression models worked out, describing the physical and textural characteristics of the three sponge cakes and their values were optimized. The effect on the porosity, springiness, volume and shrinkage of sponge takes was substantial and depended on the amount of the added ingredients. The diabetic sponge cake containing wheat germ showed the least physical and sensory deviations against the control sponge cake. The energy value of the diabetic sponge cakes against the control one was reduced with 25% for the ordinary sponge cake without sucrose and with 29% for sponge cake without sucrose containing wheat germ.     

Steeping of Starch at Various Temperatures-Effects on Functional Properties

Functionality of wheat starches steeped at various time and temperature conditions was studied in bread, cake and pie filling systems. Treatment at 50°C reduced the bread volume. Crumb softness in breads increased with duration and temperature of the treatment. Addition of 3–10% (flour basis) treated starch (40°C for 3 days) reduced firmness of breads. Cakes with starches treated at 25°C and 40°C up to 3 days were acceptable; starch treatment at 50°C caused collapse of cakes. The consistencies of pie fillings are increased by starch treatment at 25°C. Starches treatment at higher temperatures (40–50°C) caused high initial consistencies of fillings which were reduced during storage.     

Potential of teff (Eragrostis tef) flour as an ingredient in gluten-free cakes: chemical,technological and sensory quality

This article aimed to evaluate the chemical, technological and sensory characteristics of gluten-free cakes made with teff (Eragrostis tef). Four cakes were evaluated: T1, 100% teff flour; T2, 75% teff flour, 12.5% rice flour, 12.5% cassava starch; T3, 50% teff flour, 25% rice flour, 25% cassava starch and T4, 25% teff flour, 37.5% rice flour, 37.5% cassava starch. Higher percentages of teff increased total ash. For apparent and specific volumes, T4 was the one with the highest mean. In sensory analysis, the attributes of appearance, colour and odour did not have significant difference among treatments. T1 received the lowest overall average for flavour (5.03). Regarding the purchase intention, the cakes did not show significant difference between T3 and T2 (3.25 and 3.08). T2, T3 and T4 obtained acceptance index higher than 70%. The use of teff flour in cakes can be promising in gluten free diet.     

板栗淀粉、蛋白质及全粉的特性及在面包中应用研究

基于淀粉和蛋白质对面包品质至关重要,分析板栗粉、板栗淀粉及板栗蛋白的特性,并探索对面包品质的影响。板栗粉中淀粉（52.87%）、蛋白质（6.58%）均低于高筋小麦粉。与小麦淀粉相比,板栗淀粉更易溶胀、糊化,但热稳定性较差。与小麦蛋白相比,板栗蛋白的α-螺旋含量(10.6%)较低,无规卷曲（34.4%）较高。这些特性正好反映了,随着板栗粉的添加量提高,板栗粉-小麦粉混合粉粉质品质和面包比容均呈下降趋势。当板栗粉添加量为10%时,面包体积最大、气孔细密、评分最佳。     

The role of xanthan gum in the quality of gluten free cakes: improved bakery products for coeliac patients

The aim of this study was to compare the characteristics of gluten free cakes prepared with rice and corn flours and with different concentrations of xanthan gum. Three formulae were created, F1, F2, and F3, with xanthan 0.2%, 0.3% and 0.4%, respectively. Two controls were used, both without xanthan: C1 and C2 (with wheat flour instead of rice flour). The cakes were characterised with chemical, physical, and sensory analysis. The sensory attributes of preference only of the gluten free F2 and F3 cakes were tested. Cakes formulated with xanthan gum displayed improved quality characteristics such as increased specific volume, enhanced texture in terms of decreased firmness, and delayed staling. The F2 and F3 formulated cakes presented desirable quality characteristics that resembled the physical, chemical, and sensory attributes of traditional cakes formulated with wheat flour.     

Microstructure and nutrient composition of hairless canary seed and its potential as a blending flour for food use

Canary seed is a true cereal with unique composition. The current study employed light and fluorescence microscopy to visualise starch, protein, phenolics and phytate in hairless canary seed (CDC Maria), a cultivar developed potentially for food use. Macronutrients, minerals and vitamins were evaluated in the developed cultivar and compared with a commercial hairy canary seed, cv. Keet. A control common wheat, cv. Katepwa, was grown adjacent to the canary seed varieties. The compositions of the two canary seed varieties were found to be similar with an average of 55.8 g/100 g of starch, 23.7% g/100 g of protein, 7.9% of crude fat, 7.3 g/100 g of total dietary fibre, 1.8 g/100 g of soluble sugar and 2.3 g/100 g of total ash in the whole grain. Regardless of the milling fraction (whole grain flour, white flour or bran), canary seed had more protein and crude fat and less starch, total dietary fibre and soluble sugar than had wheat. It also had higher concentrations of several minerals and vitamins than did wheat. The structure of the canary seed grain exhibited compound starch granules and protein bodies embedded in a protein matrix similar to that of the oat kernel. Baking tests showed that bread made with 100% hairless canary seed flour was significantly lower in loaf volume and crust and crumb colour than was wheat bread. However, bread with loaf volume, specific volume and crust colour comparable to those of the bread control was achieved by using up to 25% of hairless canary seed or 15% of roasted canary seed flour, thus demonstrating its potential for food applications.     

Effect of drumstick leaves powder on the rheological,micro-structural and physico-functional properties of sponge cake and batter

Drumstick leaves powder (DLP) sponge cakes were prepared by replacing 0, 2, 5 and 10% of wheat flour with DLP to evaluate its effect on rheological, micro-structural and physico-functional properties of sponge cake. Batter viscosity and specific gravity increased with increase in DLP. Depending upon the replacement level, water absorption, dough development time and mixing tolerance index increased whereas, dough stability decreased. No significant difference was observed in moisture, fat and carbohydrate content, sponge weight and water activity of the sponge cake, but, significant decrease was observed in volume with increasing DLP. Also, there was significant increase in protein, crude fiber, ash, calcium, iron and β-carotene content with increase in replacement level. The hardness of sponge cake increased with increasing the replacement level. DLP incorporation significantly affected color of crust and crumb. SEM image analysis revealed that uniformity in structure was disrupted with increase in replacement level. DLP sponge cake with 2% replacement level had highest overall acceptability.