Sensory Characteristics Of Bread Research Articles

Rheological and Textural Characteristics of Functional Breads Fortified with Different Eggshell Powders

This study explores the rheologic, textural, and sensory characteristics of bread that has been fortified with eggshell powder (ESP) obtained from various dietary and growing conditions (industrial, organic, free range, and village). The fortification of ESP led to a reduction in water absorbtion capacity, stability, softening degree, maximum resistance, energy, and resistance to extension, while the value of extensibility increased. The highest water absorption value was observed in bread flour with a percentage of 61.9, whereas among breads with ESP fortification, the highest water absorption value was 61.2% in S1 (23.5 g) and S2 (30 g) village ESP-added flours. Only the extensibility value increased when ESP was added, but the effects on water absorption, stability, softening degree, maximum resistance, energy, and resistance to extension declined. The addition of ESP results in significant changes in chewiness, springiness, resilience, and cohesiveness (p≤0.05), but the gumminess value is found to be insignificant (p≥0.05). Through sensory evaluation, all bread samples received scores of 3.77–4.46 on a 5-point scale. The rheological, textural and sensory analyses results obtained from the control and fortified bread samples demonstrated that the inclusion of calcium from egg shell powder improved the structural properties of the flour. In addition, the utilization of eggshell powder at its maximum concentration (30 g) did not yield any detrimental consequences for the dough or the bread production process. Based on a comprehensive analysis, it is concluded that including ESP in bread is an appropriate strategy for dealing with calcium deficiency and is in line with consumer acceptability and bread production technology.

Nutritional composition, in vitro carbohydrates digestibility, textural and sensory characteristics of bread as affected by ancient wheat flour type and sourdough fermentation time

This study aimed to investigate the effect of ancient wheat flour type and sourdough fermentation time on the nutritional, textural and sensorial properties of fiber-rich sourdough bread. The proximate composition, minerals, carbohydrates, organic acids, volatiles, total phenolic content, simulated gastrointestinal digestion, textural and sensorial characteristics were investigated. Bread's minerals, total phenolics, cellulose contents and radical scavenging activity variations clearly indicates an increasing trend with sourdoughs fermentation time. Compared to maltose and glucose, fructose was predominant in all bread samples. Sourdough fermentation time and wheat type had non-significant influence on fructose content from digested fraction. Excepting emmer bread, fermentation time increased in vitro digestibility values for tested samples. The crumb textural parameters (hardness, gumminess, chewiness, cohesiveness and springiness index) were positively influenced by fermentation time. The specific clustering of the analysed characteristics distinguished emmer bread from other samples in terms of volatile compounds, textural and overall acceptability, being preferred by panellists.

Effect of inulin-type fructoligosaccharides (FOS) from yacon on the physicochemical and sensory characteristics of bread

The current food industry drives interest in foods that not only satisfy basic needs, but also promote health. In this context, yacon, with its fructooligosaccharides (FOS)-rich syrup, emerges as a valuable plant source for improving the properties of bread. This study evaluated the effects of FOS addition from yacon on the physicochemical and sensory characteristics of bread. A traditional methodology involving bread making with different concentrations of the syrup was employed. The results revealed that the treatments with 0.5% and 1.5% yacon syrup excelled in bulk density, crumb cell shape and crumb appearance. In the sensory evaluation, the 0% and 0.5% treatments scored best in crust colour, texture and flavour. In conclusion, the addition of FOS to bread was shown to significantly improve its physicochemical and sensory characteristics: the addition of 1.5% and 0.5% improved bread density and appearance, while the 0% and 0.5% treatments obtained better sensory ratings.

The Effect of Beneng Taro Flour (Xanthosoma undipes K. Koch) and Rice Bran (Oryza sativa L.) Substitution on the Physical and Sensory Characteristics of Bread

Beneng taro is an indigenous tuber from Banten which is rich of functional components such as dietary fiber and carotenoid pigments. So far, processing of beneng taro has not been developed. One of method to process it is to make into flour. Another material that is not utilized is rice bran. Rice bran is a by-product of rice milling which has only been used as animal feed, but the majority of functional components in rice accumulate in rice bran such as dietary fiber, oryzanol, and phytosterol compounds. The application of beneng taro flour and rice bran for food products can increase food diversification, beside of that it can reduce the use of wheat flour. The purpose of this study was to evaluate the effect of adding beneng taro flour and rice bran to bread on the physical and sensory characteristics. This study used a completely randomized design (CRD) with one factor, namely the ratio of wheat flour: beneng taro flour: rice bran (control, 65:30:5; 65:25:10; 65:20:15). This research was carried out in two repetitions. The result of this research were the increase of rice bran and the decrease of beneng taro flour substitution in bread decrease the expansion ratio, lightness (L*) of the crust and crumb, a* chromaticity of the crust, b* chromaticity of the crust and crumb, hue (oh) of the crust and crumb, and sensory acceptance. However, the increase of rice bran and decrease of beneng taro flour substitution increased density of dough, density of bread, and a* chromaticity of the crumb. Based on the results of sensory analysis, the bread with 65:30:5 formula was the best formula because it was close to the control.

Characteristics of Bread with The Substitution of Fermented Purple Yam Flour (Dioscorea alata)

Fermented purple yam flour is known to have high swelling power, which is capable of improving its ability as a substitute for wheat flour in bread production. Therefore, this study aimed to determine the effect of the substitution of wheat flour with fermented purple yam flour (FF), at 0%, 10%, 15%, 20%, 25%, and 30% concentrations on the physical, chemical, and sensory characteristics of bread. The result showed that FF concentration has no significant effect on the moisture content, specific loaf volume, hedonic aroma, and taste but significantly affected porosity, anthocyanin content, antioxidant activity, hedonic color, texture, and overall acceptance of the bread. Furthermore, the best treatment obtained was at the 25% substitution level, which produced bread with 29.30% moisture content, 27.18% porosity, 3.06 cm 3 /g specific loaf volume, and 5.30 mg/g anthocyanin. It also produced 61.03% antioxidant activity, color 3.88, texture 4.00, taste 3.92, and overall acceptance 4.00 (Likes). The maximum substitution rate of fermented purple yam flour was 25%.

Use of response surface methodology to investigate the effect of sodium chloride substitution with Salicornia ramosissima powder in common wheat dough and bread

Sodium chloride is known to influence several technological and sensory characteristics of bread. The high dietary daily intake of sodium, however, raises concern because of serious health implications. In this study, response surface methodology was used to optimize the extent of sodium chloride reduction (0.6–1.2–1.8%) and its replacement with Salicornia ramosissima powder (0–50-100%) to achieve the best low-sodium wheat bread, while meeting dough quality standards. Mixing, viscoelastic, extensional, and fermentation properties of doughs, as well as specific volume, textural, and color features of breads were evaluated as response variables. After applying optimization criteria via desirability function, results evidenced that using 1.8% salt with a substitution ratio of 65.24% is the best combination to obtain both doughs with longer development times, high stability, better viscoelastic properties and similar fermentation capacity, and breads with higher specific volumes, softer and less chewy crumbs, but higher green tones, than those containing only sodium chloride.

Physicochemical parameters, volatile compounds and organoleptic properties of bread prepared with substituted sucrose with rare sugar D‐allulose

SummaryD‐Allulose (Alu), a very low‐calorie monosaccharide with several disease‐preventing effects, is expected to be used as a substitute for sucrose (Suc) in bakery products. This study assessed the physical, chemical and sensory characteristics of bread in which 25%, 50%, 75% and 100% of Suc was replaced by Alu. The replacement of up to 75% of Suc by Alu did not affect bread appearance: loaf height, volume and colour texture properties. Bread in which up to 75% of Suc was replaced by Alu had similar hardness values to 100% Suc bread. GC–MS analyses of the head space of the bread identified 25 volatile compounds (7 alcohols, 8 ketones, 8 aldehydes and 2 other compounds) in the Alu‐substituted bread. Bread with the higher ratio of Alu substitution had stronger roasted and caramel‐like odours and lighter fermented and alcoholic odours. Hedonic sensory results suggested that 100% Alu‐substituted bread had a lower score in a preference test, while up to 75% Alu‐substituted bread was equivalent to bread using traditional sugar, Suc.

Effects of molecular characteristics and microstructure of amaranth particle sizes on dough rheology and wheat bread characteristics

The aim of this research is to investigate the molecular features and microstructure of amaranth flour (AF) fractions and their partial replacement effect of wheat flour (WF) on the chemical composition, dough dynamic rheology, technological and sensory characteristics of bread. The microstructure and molecular characteristics of AF were depending on their particle size (PS). When WF replacement increased and PS decreased the composite flour was richest in protein, lipids, and ash, while the moisture and carbohydrates of these flours decreased. Dynamic rheological behavior revealed significant variations depending on PS and replacement level. Bread volume and firmness increased when more than 15% AF from large PS replaced WF, while medium and small PS at 5–15% replacements was increased the loaf porosity. Chroma values decreased and samples became darker when the replacement level increased. Moreover, replacement of WF with various AF fractions impacted bread sensory characteristics, obtaining better acceptance for large and medium PS up to 10%.

Effect of adding Theobroma grandiflorum and Hylocereus polyrhizus pulps on the nutritional value and sensory characteristics of bread

This research aimed to evaluate the influence of adding cupuassu (Theobroma grandiflorum) and pitaya (Hylocereus polyrhizus) pulps on the physicochemical and sensory properties of milk bread. We prepared four formulations: control (no fruit added), and three formulations where milk was partially replaced for different proportions of pulps. The following percentages were used: cupuassu pulp (32.37 to 41.61%), pitaya pulp (4.62 to 13.87%), and milk (5.60 to 31.52%). The nutritional composition, instrumental color analysis, and acceptability of the bread were assessed. The addition of fruit pulp into the bread reduced up to 41.44% the lipid content, 40.20% of proteins, and 10.27% of caloric value. The colorimetric analysis showed that the increase in pitaya pulp and decrease in cupuassu pulp reduced the lightness (L*) and the coordinate b*, and increased the coordinate a*. The principal components analysis showed that the most accepted bread formulations were those with 18.14% and 20.74% cupuassu pulp, and 7.78% and 5.18% pitaya pulp. Thus, cupuassu and pitaya pulp can be added into bread formulations as alternative to add nutritional value and contribute to the innovation of bakery products.

Rheological, Baking and Sensory Characteristics of Bread from Wheat-Cassava Composite Dough

Uganda produces cassava, which has potential as a raw material for agro-industry. In this study, wheat flour was blended with high quality cassava flour in the ratios 100:0, 90:10; 80:20; 70:30; 60:40; 50:50 and 40:60 and the composite dough used to prepare bread. The doughs were subjected to rheological analysis using mixolab, consistograph and alveograph. Bread physical properties were measured and sensory qualities evaluated to correlate rheological characteristics of flour/dough with bread quality. Inclusion of cassava flour in the composite dough negatively affected the quality of the composite bread compared to the control. Bread volume (631.0 to 516.7 cm3) decreased, specific volume (2.065 to 1.574 cm3/g) decreased, bread density (0.49 to 0.63 g/cm3) increased. Mean scores for sensory quality parameters reduced: crust colour (6.88 to 4.63), taste (7.13 to 4.25), crumb texture (6.5 to 4.63) and overall acceptability (8.13 to 4.5). Bread quality was positively correlated with mixolab parameters protein weakening (C2), dough stability and dough development time (DDT); alveograph parameters tenacity (P) and deformation energy (W); and consistograph parameter maximum pressure (PrMax). Results showed that bread of acceptable quality can be processed using wheat composite containing 20 % cassava flour. Rheological properties can be used to assess suitability of flour for bread making.

Process Standardization for Bread Preparation using Composite Blend of Wheat and Pearl Millet: Nutritional, Antioxidant and Sensory Approach

In present study, the effect of incorporation of pearl millet (PM) flour (10, 20, 30, 40%) on quality and sensory characteristics of bread were studied. Ash, fat, fiber and carbohydrate content were increased with the incorporation of PM flour. For wheat flour (WF) the values of water absorption capacity (WAC) and oil absorption capacity (OAC) were observed 1.90 g/g and 1.54 g/g, while flour blends varied from 1.78-1.87g/g and 1.48-1.52g/g, respectively. After the incorporation of PM flour peak (PV), trough TV, setback (SV) and final viscosity (FV) were decreased as compared to WF. Antioxidant properties of WF and PM flour were observed 20.3% and 15.1%, and varied from 18.10% to 19.23%, respectively for flour blends. Antioxidant characteristics of breads increased as compare to their flours. Physical parameter i.e. loaf weight increases after addition of PM flour while reverse was observed for loaf volume. Bread prepared up to 30% addition of PM flour into WF showed a satisfactory sensorial score for bread further addition of PM flour, breads were not acceptable quality. Results of present study provide a better understanding of functional properties of WF, PM flour and their blends for their possible applications in preparation of gluten free products.

Nutritional, physical and sensory characteristics of bread with the inclusion of germinated basul (Erythrina edulis) flour.

The goal was to assess the effect of different substitution levels (SL) of wheat flour with germinated basul flour (GBF) on nutritional, physical, and sensory characteristics of bread. The previously soaked basul fruits were germinated, dried, and transformed into flour. This product substituted wheat flour in the following SL: 0 (control), 5, 10, 15, and 20% of GBF, respectively, for the processing of loaves of bread. Nutritional values were determined by AOAC method. The physical characteristics assessed were weight, volume, porosity, and colour. The Flash Profile technique was used for the sensory assessment. A significant increase in the content of protein and crude fibre (3.86 and 50.49%, respectively) and a decrease in the content of carbohydrates (2.57%) were observed in all loaves with SL of 20%. With this same SL, it was observed that the physical characteristics did not differ significantly, except for height. In the sensory characteristics, loaves made with 20% SL also had a sweet flavour and a spongy appearance, except for the colour (change to opaque colour), which gradually decreased with the increased SL. The inclusion of GBF in bread improved nutritional and sensory quality, without affecting physical quality, which is why it can be considered healthy food.

Macromineral enrichment of white bread reduces postprandial glycaemia without altering sensory properties: a crossover study

Metabolism of refined carbohydrates, which are associated with detrimental health effects, is known to be affected by macrominerals including P, Mg and K. To assess the impact of their addition to flour on the sensory properties of white pita bread and postprandial glycaemia of healthy individuals. The study was conducted at the American University of Beirut (between February and October 2014). Plain, restored and fortified wheat flour, with macrominerals were used to prepare 3 types of bread: white pita bread (WP), restored white pita bread (WP-R) (premilling levels) and fortified white pita bread (WP-F) (double the premilling levels). Sensory characteristics of bread were assessed and postprandial glycaemia was determined using a single-blinded crossover design whereby participants consumed 1 of the 3 different types of pita bread in random order. No significant difference (P > 0.05) between the different types of bread was detected using the triangle and acceptability tests, except for texture (P < 0.05). Macromineral enrichment of bread (WP-R and WP-F) significantly reduced postprandial glucose (P = 0.013) and triglyceride (P = 0.001) levels. Macromineral enrichment of refined carbohydrates may have a promising role in lowering postprandial glucose and triglycerides, and thus decrease their negative health consequences.

Optimization xanthan gum, Roselle seed and egg white powders levels based on textural and sensory properties of gluten-free rice bread.

A response surface methodology based on Box-Behnken design was deployed to optimize gluten-free bread formulation based on rice flour. Roselle seed powder (15, 25 and 35%), egg white powder (10, 20 and 30%) and xanthan gum (0.5, 0.75 and 1%) were selected as independent variables. The purpose of the optimization was to achieve maximum porosity and sensory properties as well as minimum hardness of bread samples. The results showed that the Roselle seed and egg white powders had a significant effect (p ≤ 0.05) on hardness, porosity and sensory characteristics of bread. However, xanthan gum did not show a significant effect (p > 0.05) on sensory properties. The design revealed the optimum formulation for gluten-free rice bread with low crumb firmness and improved porosity and sensory values by using0.73, 30 and 25% of xanthan gum, Roselle seed and egg white powders, respectively. In addition, the optimized gluten-free bread showed higher nutritional properties in terms of total protein, ash, oil and fiber contents as well as lower staling rate compared to the control.

Influence of Flour Substitution and Sugar Replacement on the Physical, Proximate and Sensory Characteristics of Bread from Whole Wheat, Acha and Pigeon Pea Flour

Whole wheat was cleaned and milled into flour (WWF), acha was sorted, washed and milled into acha flour (AF), pigeon pea was soaked, dehulled, dried and milled into flour (PPF), date palm fruit was cleaned, deseeded, cut, dried and milled into flour (DPFS). The flours were combined in different ratios to obtain composite flours namely WAPC (100% WWF), WAPE (90% WWF and 10% AF), WAPG (80% WWF and 20% AF), WAPH (70% WWF and 30% AF), WAPJ (80% WWF, 10% AF and 10% PPF), WAPK (70% WWF, 10% AF and 10% PPF), WAPL (70% WWF, 15% AF and 15% PPF), WAPM (60% WWF, 20% AF and 20% PPF). The flours were used to bake bread, partial and total sugar replacement was carried out at 50% (WSDC, WSDE, WSDG, WSDH, WSDJ, WSDK, WSDL and WSDM) and 100% (WDPC, WDPE, WDPG, WDPH, WDPJ, WDPK, WDPL and WDPM). WAPC (100% sugar) was used as control. Physical, nutritional and consumer acceptability evaluation were carried out on the formulated bread samples using standard methods. The physical properties of the formulated bread from WWF and AF were comparable to WAPC in terms of the weight and volume. Loaf height, volume and specific volume of WAPC were higher (6.63cm, 1111.67cm3 and 1.82cm3/g respectively) than breads with 50% and 100% sugar substitution. However, the protein content of wheat-acha-pigeon pea composite bread increased significantly from 10.83% to 14.10% WDPH, WSDH were not significantly different from the WAPC in terms of its fibre, ash and fat content. The sensory characteristics of the formulated breads compared favourably with WAPC. Thus, substitution of WWF with AF and PPF may serve as potential raw material for bread production thereby reducing overdependence on wheat, increasing the utilization and cultivation of our local cereal (acha) and increasing nutrient composition of bread. Also, sugar replacement with date palm may increase the utilization of date palm and improve the nutritional value of the breads.

Effect of Convective Drying Method of Chokeberry (Aronia melanocarpa L.) on Drying Kinetics, Bioactive Components and Sensory Characteristics of Bread with Chokeberry Powder

The effects of three dehydration temperatures at 50, 60 and 70 °C of convective drying method on fresh fruits of black chokeberries (Aronia melanocarpa L.) were evaluated. The drying temperatures were found to have significantly different effects on the characteristics of dried fruits and powders, made by the dried fruits. The maximum drying rate at a temperature of 50 °C was 59 g/h, at 60 °C 102 g/h, and at 70 °C 115 g/h, and thus the drying time was 37 hours, 27 hours and 23 hours respectively. The drying temperature at 50 °C caused the least damage to the cell structure of the fresh chokeberries, bioactive components (anthocyanins, flavonoids, phenols) and total antioxidativity. The dehydrated chokeberries at the temperature of 50 °C had the highest ratio of total anthocyanins (376.89 ± 5.73 mg cyn-3-glu / 100 g dm), total flavonoids (1037.19 ± 3.83 mg CE / 100 g dm), phenols (1918.79 ± 3.26 mg GAE / 100 g dm) and antioxidant activity (37.11 ± 0.28 mg TE / 100 g dm). The drying process at a temperature of 50 °C required longer drying period, higher energy need and produced the chokeberry powder, which gave the bread with the best sensory characteristics, compared to a drying process at a temperature of 60 °C and 70 °C.

Impact of iodized table salt on the sensory characteristics of bread, sausage and pickle

The impact of iodized table salt on the sensory quality of wheat bread, bologna sausage and pickled cucumber was studied. Table salt (NaCl) content of the products was 1.7, 1.2 and 1.7 g/100 g, respectively. Iodine, added as potassium iodide (KI), was incorporated at levels 0, 25, 50 and 100 mg per kg table salt. Odor, flavor, appearance, and texture were evaluated using deviation from reference descriptive analysis (12 panelists, 4 replicates). Each sample was rated against the non-iodized reference sample (0 mg iodine). The retention of iodine during processing and storage was determined chemically. The iodine level 25 mg/kg, corresponding to current recommendations, did not cause sensory changes in tested products. In sausage, 50 and 100 mg/kg levels were associated with minor changes in texture and color. The maximum retention of iodine was 83% for bread, 98% for sausage, and 51% for cucumber. We did not find any sensory obstacle to using iodized table salt in industrial food production. Due to loss in manufacturing and inadequate intakes, iodine additions higher than currently recommended should be considered.

Taguchi-generalized regression neural network micro-screening for physical and sensory characteristics of bread

Generalized regression neural networks (GRNN) may act as crowdsourcing cognitive agents to screen small, dense and complex datasets. The concurrent screening and optimization of several complex physical and sensory traits of bread is developed using a structured Taguchi-type micro-mining technique. A novel product outlook is offered to industrial operations to cover separate aspects of smart product design, engineering and marketing. Four controlling factors were selected to be modulated directly on a modern production line: 1) the dough weight, 2) the proofing time, 3) the baking time, and 4) the oven zone temperatures. Concentrated experimental recipes were programmed using the Taguchi-type L9(34) OA-sampler to detect potentially non-linear multi-response tendencies. The fused behavior of the master-ranked bread characteristics behavior was smart sampled with GRNN-crowdsourcing and robust analysis. It was found that the combination of the oven zone temperatures to play a highly influential role in all investigated scenarios. Moreover, the oven zone temperatures and the dough weight appeared to be instrumental when attempting to synchronously adjusting all four physical characteristics. The optimal oven-zone temperature setting for concurrent screening-and-optimization was found to be 270–240 °C. The optimized (median) responses for loaf weight, moisture, height, width, color, flavor, crumb structure, softness, and elasticity are: 782 g, 34.8 %, 9.36 cm, 10.41 cm, 6.6, 7.2, 7.6, 7.3, and 7.0, respectively.

Development of newly enriched bread with quinoa flour and whey

Ecuador, Bolivia, and Peru are countries with the highest amount of quinoa production in the world due to the proximity to the Andes. Further, Ecuador has a high production of dairy products, particularly fresh cheese of which production gives a high volume of whey, without further use, with the consequent loss of their nutritional value. The present study was performed to develop a new fortified bread through the incorporation of quinoa flour and whey at three different concentrations. The use of quinoa and whey improved the texture, shelf life and sensory characteristics of bread, compared to those prepared with wheat flour. This study shows the potential of quinoa flour and whey as ingredients in the development of baked products.

Effect of Taro (Colocasia esculenta) Starch-Hydrocolloids Mixture on the Physical and Sensory Characteristics of Leavened Bread

During this study, different blends of taro starch-hydrocolloid were incorporated in yeast leavened bread and their effects were investigated. The specific volume, moisture content and slice shape of the bread were found to be improved by the addition of taro starch-guar gum blend. Taro starch-xanthan gum mixture was also found to be a good additive to improve specific volume, slice shape, crumb softness as well as sensory characteristics of bread. The study reveals taro starch-hydrocolloid blend can be utilized as a novel ingredient to improve the physical and sensory characteristics of leavened bread.