The Effect of Nut Oil Cakes on Selected Properties of Enriched Wheat Bread and Their Changes During Storage

The aim of this study was to evaluate the content of selected minerals and total phenolic and flavonoid content of wheat bread and bread enriched with varying amounts of carrot powder (CP) and pumpkin powder (PP). In addition, the coverage of daily requirements of selected minerals was evaluated after the consumption of 100 g of each type of bread. The research included seven types of bread: wheat bread (WB) and bread enriched with 10%, 20%, and 30% CP and PP. The vegetable powders were obtained by freeze-drying. The concentrations of minerals—sodium (Na), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe), zinc (Zn), copper (Cu), and manganese (Mn)—were determined by atomic absorption spectroscopy (AAS) method. Coverage of daily requirements after consumption of a serving of bread was determined based on Recommended Daily Allowance (RDA) and Adequate Intake (AI) ratios for minerals, according to the nutritional standards for the Polish population. The addition of 10% PP led to a greater increase in Na, K, Mg, and Cu in the bread compared to CP, while for Ca, Fe, Zn, and Mn a greater increase was observed with the addition of 10% CP than PP. Among macronutrients, the greatest changes in content were recorded for Ca—the addition of 10 and 20% CP and PP resulted in increases of 66, 113, 51 and 59%. Among micronutrients, the addition of CP and PP to wheat bread caused the largest changes in Cu (46–150% increase) and Mn (25–99% increase) content. Additionally, there was a tenfold increase in total phenolic content (TPC) when 30% CP was added to the bread. Consuming 100 g of bread with CP and PP provided the greatest coverage of K (41–60%), Cu (8–17.5%), and Mn (6–17%). These findings suggest that fortification of bread with vegetable powders has the potential to be a useful method of enriching the mineral composition and increasing the proportion of selected minerals in the human diet.

Parsley leaves (PL) are a rich source of many bioactive compounds and show many health-promoting properties. The aim of this study is to analyze the effect of the addition of PL to wheat flour on the physical, antioxidant, and sensory properties of wheat bread. Wheat flour was partially substituted with 0, 1, 2, 3, 4, and 5% PL. Bread dough was prepared using the direct method. Bread loaves were cooled, and then their volume, texture, color, total phenolic content, and antioxidant activity were evaluated. In addition, a sensory evaluation of bread was performed. Incorporation of PL into wheat decreased the bread volume and increased the crumb moisture but had little influence on the crumb texture. The crumb of the enriched bread was darker and greener compared with the control sample. PL addition increased the redness of the crumb as well. The total color difference for the enriched bread ranged from 9.3 to 21.4. According to the sensory evaluation, the amount of wheat flour added to PL should not exceed 3%. Such a kind of bread showed about a twofold higher level of phenolic compounds and enhanced antioxidant activity compared with the control bread. This study showed that powdered PL can be a valuable nutritional supplement to wheat bread. Future research should focus on the possibilities of fortifying various types of food with this additive.

ABSTRACTThe main aim of the present study was to compare the effects of Cordyceps militaris-fermented chickpea (CFC) and non-fermented chickpea (NFC) flour addition on quality (including proximate composition, specific volume, crust and crumb colour, molecular mobility, crumb texture, sensory evaluation) and antioxidant properties of wheat bread, and also compare with these properties on the wheat-only bread. The wheat flour was partially substituted by NFC and CFC at a level of 50 g/Kg flour basis, respectively. Addition of chickpea flour (both CFC and NFC) to wheat bread showed higher protein, fat content, yellowness index values as well as enhanced the phenolics content and antioxidant activity whereas lower lightness values were observed, and CFC–wheat bread showed higher phenolics and antioxidant activity than NFC–wheat bread. Furthermore, bread incorporated with CFC exhibited higher specific volume and lower crumb hardness than the wheat-only bread but addition of NFC resulted in a negative effect on specific volume and crumb firmness. Sensory evaluations revealed that breads substituted with CFC got the highest scores in terms of appearance, texture, colour and overall acceptance. Results suggested that bread fortified with CFC improved quality (specific volume, texture, colour, sensory) and antioxidant properties, and thus was consider of great potential in the production of high consumer acceptable as well as quality and antioxidant properties improved bread.Abbreviations: NFC: non-fermented chickpeas; CFC: Cordyceps militaris-fermented chickpeas; TCD*: total colour difference; LF-NMR: low field nuclear magnetic resonance; DPPH: 2,2-diphenyl-1-picrylhydrazyl; ABTS: 2,2-azinobis (3-ethylbenzothiazoline-6-sulphonic acid) diammonium salt; TPC: total phenolics content; Vitamin C, ascorbic acid.

In creating sustainable food systems, alternative uses of food waste and by-products as a source of phenolic compounds or dietary fiber in food formulations should be evaluated to reduce food losses and waste. In this study, wheat bread was fortified with agro-industrial by-products, namely, fresh pistachio hull (FPH), pistachio hull powder (PHP), fresh grape seeds (FGS), and grape seed powder (GSP), at different levels (0.5–4%). The effects of this enrichment on moisture content, crust and crumb color, specific volume, baking loss, total phenolic content, antioxidant activity, and textural properties were evaluated and compared with control bread. Fortification with pistachio hulls and grape seeds, especially in powdered form, improved the total phenolic content and antioxidant activity of the bread compared with the control bread. With the increase in the amount of PHP from 0 to 4.0%, the total phenolic content of the bread initially increased from 0.89 to 14.66 mg GAE/g dry weight and the specific volume decreased from 3.59 cm3/g to 2.91 cm3/g. Bread containing PHP showed a significant reduction in baking loss and specific volume, while the addition of FGS and GSP at a low level (0.5%) improved the specific volume. The brightness (L*) of the crumb and crust gradually decreased with increasing levels of all additives. The crumbs of the breads with PHP and FPH were characterized by lower hardness, while GSP and especially FGS had higher hardness. All enriched breads (except those with FGS) were more elastic and easier to chew.

The study aimed to produce semolina pasta enriched with walnut or hazelnut oil cake and to investigate its nutritional and technological properties. The pasta was prepared by substituting 10% of semolina with walnut or hazelnut oil cakes. The chemical composition, antioxidant properties, and culinary characteristics of the pasta were determined. Additionally, the texture and color of uncooked and cooked pasta were examined using instrumental techniques. The enriched pastas showed higher protein, fat, ash, and dietary fiber contents compared to standard pasta (SP). Walnut oil cake pasta (WOCP) had the highest protein content, amounting to 15.8 g/100 g dry weight (d.w.), while hazelnut oil cake pasta (HOCP) had the highest dietary fiber content (6.75 g/100 g d.w.). Moreover, the enriched pastas showed significantly higher antioxidant potential and total phenolic content, both before and after cooking. The total phenolic content (TPC) of cooked pasta ranged from 88.85 mg GAE/100 g d.w. (SP) to 145.48 mg GAE/100 g d.w. (WOCP). Compared to SP, the developed pastas required cooking times of 2-3 min longer and showed higher water absorption, accompanied by increased cooking losses. They were characterized by a specific, dark color and showed reduced hardness and lower elasticity after cooking compared to SP. Pasting properties further suggested that starch swelling was restricted by the nut oil cakes. Overall, incorporating walnut and hazelnut oil cakes enhanced the nutritional profile and imparted notable health-promoting attributes to the pasta, underscoring the potential of these by-products as functional ingredients in pasta formulations.

SummaryThis study aimed to investigate the physical, nutritional, antioxidant and sensory properties, as well as the starch digestibility of wheat bread containing Dictyophora Indusiata powder (DIP) as a functional addition. Results showed that though the specific volume of wheat breads decreased with the addition of DIP, the chewiness showed an increasing trend. The wheat bread containing DIP showed significantly higher (P < 0.05) content of protein and dietary fibre compared to the control bread. On the other hand, with the addition of DIP, the total phenolic content and antioxidant properties of wheat bread significantly (P < 0.05) increased. The moisture and texture of bread during storage improved significantly (P < 0.05), and the enthalpy of bread decreased significantly (P < 0.05) in staling period. In conclusion, the wheat bread added with DIP could be a feasible baking product with improved nutritional, antioxidant properties and bread staling.

PurposeThis paper seeks to examine the production of wheatless bread from acha flour and to determine consumer acceptability of the product.Design/methodology/approachWheatless bread was baked from acha (Digitaria exilis) and Irish potato starch blends of 80:20 respectively with varying (1‐4 per cent) quantity of carboxymethylcellulose (CMC). The loaves were assessed for loaf volume (LV) and specific loaf volume (SLV) as well as consumer acceptability.FindingsThe addition of CMC gave an increase in LV of 40.0 per cent in acha bread (AB) with 1 per cent CMC to 59.5 per cent in AB with 4 per cent CMC. The SLV of the acha loaves did not differ significantly from one another. There were significant differences (p < 0.05) between AB without CMC, AB with 1‐3 per cent CMC and wheat bread in appearance, crust colour, crumb texture, crumb colour and general acceptability (p < 0.05). However, there was no significant difference between the AB with 4 per cent CMC and wheat bread in crumb texture, crumb colour and general acceptability. AB with 4 per cent CMC compared favourably with wheat bread in sensory characteristics.Research limitations/implicationsThis work was a preliminary work to determine the possibility of producing bread with acha. Further research will investigate the functional and nutritional qualities of AB with 4 per cent CMC found to be comparable with wheat bread.Practical implicationsThe study demonstrated the possibility of producing AB using CMC.Originality/valueAcha has been identified as a major food for diabetic patients in Nigeria by medical practitioners. The AB developed will be of great benefit to countless diabetic patients in Nigeria.

Six bread wheat varieties (modern wheats) widely grown in Turkey and nine different bread wheat varieties registered prior to 1970 (old wheats) were used in the present study. This study aimed to determine and compare the quality characteristics, dietary fiber contents and in vitro glycemic index of whole wheat breads produced using modern and old bread wheat varieties. The effect of xylanase on the quality, staling and dietary fiber content of whole wheat breads was also investigated. Mean sedimentation and modified sedimentation values, Farinograph development time, stability, quality number of whole wheat flours produced by modern wheats were higher than those of the old varieties. Whole wheat breads of modern varieties had higher mean volume and lower firmness values as compared to old varieties. Whole wheat breads of old wheat varieties had higher mean soluble dietary fiber content as compared to that of modern wheat varieties. Xylanase addition generally had an increasing effect on bread volume and soluble dietary fiber contents and a softening effect on firmness values. There were no significant differences between the mean (in vitro) glycemic index values of whole wheat breads produced from modern and old varieties. The results in the present study indicated that modern bread wheat varieties had better whole wheat bread making quality as compared with old bread wheat varieties. In addition, xylanase usage in whole wheat bread formula had an improving effect on whole wheat bread quality.

The current market trends in modern sedentary lifestyles drive the development of new functional products able to fulfill consumers’ demand for a healthy diet. Whole wheat bread contains more protein and fiber than white bread; however, it could be improved in terms of protein content and quality. Cricket powder, which contains high protein (55.11, wt%), could be used as an alternative source to tackle those deficiencies in such bread. Hence, the study aimed to apply cricket powder in the whole wheat bread formula to enrich protein content, indispensable amino acids and determine their physico-chemical properties, consumers’ acceptance, and shelf-life storage. The results showed that all enriched bread presented high protein (18.97–25.94, wt%), fat (10.91–15.07, wt%), and ash (2.09–2.33, wt%) with the increment of the cricket powder than those of the control bread. Enriched breads’ crust colors were not significantly different (p > 0.05), while crumb colors were darker (L* = 55.64–64.48) compared to the control (L* = 69.98). Enriched bread had a hard texture and required a lot of chewing force compared to the control. Furthermore, all samples yielded a shelf-life of 5 days when monitoring the mold growth. From the results, the bread enriched with 20% cricket powder yielded the best consumers’ acceptance score of 77%. It was predominantly high in indispensable amino acids such as leucine, phenylalanine, lysine, and arginine. Therefore, cricket powder could be a novel alternative protein source and successfully utilized in whole wheat bread to enhance its protein content and indispensable amino acids with consumers’ acceptance responding to the current market trend.

Purpose: This study was to identify the major quality parameters of whole wheat flour suitable for making whole wheat bread. Methods: The commercial twelve whole wheat flour samples were analyzed for physicochemical characteristics and bread-baking performance. Results: The tested samples showed a wide range of ash contents, water, sodium carbonate solvent retention capacity (SRC), sodium dodecyl sulfate (SDS)-sedimentation volumes, particle sizes, and colors. The bread-making performance of the flours also showed significant variations in crumb colors, dough heights, bread heights, and bread volumes. The correlation and principal component analyses of the quality characteristics of whole wheat flour and whole wheat bread showed that the dough height and the bread height and volume correlated negatively with the ash content and water SRC but positively with the SDS sedimentation of the whole wheat flour. However, the firmness of the bread showed the opposite relationship. Conclusion: In conclusion, the ash content, water SRC, and SDS sedimentation volume of the whole wheat flour can be used as valuable indicators to predict the quality of the whole wheat bread.

In the present study, the effect of ripe mango peel powder (MPP) at 0, 1, 3, and 5 % on rheological, physical, textural, color, antioxidant and sensory properties of whole wheat bread were evaluated. Rheological data of wheat flour incorporated with MPP showed an increase in viscoelastic property. However, the loaf height, weight loss percentage and specific volume were decreased with amount of incorporation. Bread density along with crumb moisture was increased after addition of MPP. The brownness index of bread samples were significantly different and whiteness index were also decremented. For textural analysis hardness, cohesiveness and springiness were also increased with level of addition of MPP. Breads incorporated with MPP exhibited an improvement in antioxidant properties as total phenolic content increased from (220.33 ± 8.5 to 757.8 ± 13.5) mg GAE/100 gm along with the highest value of 2,2-diphenyl-1-picrylhydrazyl (DPPH) inhibition and ferric reducing antioxidant power of 65.74 ± 0.51 % DPPH inhibition and 1436.25 ± 88 µM FeSO4,7H2O/100 g respectively. The MPP levels elevated the fruity aroma, crumb colour, fruity taste, after taste and score for oral texture descriptors in quantitative descriptive analysis. However, at 5 % level porosity and traditional bread aroma decreased significantly. Thus, at optimised level without affecting the sensory and physical properties 3 % MPP addition in whole wheat bread was regarded as best.

SummaryThe effects of the addition of chickpea (Cicer arietinum), emulsifier and altered amount of water on the functional properties (bread volume, colour of crust, crumb texture and crumb porosity) of white and whole wheat bread were investigated applying a screening three factorial design. Addition of chickpea increased crumb firmness and slightly decreased bread volume in both bread types. Addition of emulsifier increased bread volume and decreased bread firmness. Altering the amount of water addition had no significant effects on white bread, but decreased crumb firmness and increased bread volume in whole wheat bread. None of the investigated parameter had an effect of whole wheat bread colour, while in white bread chickpea addition increased darkness and yellowness of the bread. Optimum addition for breads of highest quality would be 56.9–58% water, 1.0% emulsifier and 10.0–16.0% chickpea in white bread and 58% water, 1.0% emulsifier and 11.8% chickpea in whole wheat bread.

This study aims to determine the effects of Jerusalem artichoke powder (JAP) utilization on the physical quality and nutritional characteristics of sourdough bread. JAP was applied to both sourdough fermentation medium and bread formulation. The increasing rates of JAP had deteriorated effects on the physical properties (specific volume, color, and texture profile) of bread. JAP decreased significantly in vitro starch digestion rate in sourdough bread. The glycemic index value of 20% JAP-containing sourdough bread was detected to be 75.12. Additionally, total dietary fiber content increased from 2.62 to 5.30/100 g, by JAP incorporation. The total phenolic content and antioxidant activity of control were determined as 43.72 mg GA/100 g and 48.78 µmol TE/100 g, respectively. In comparison, these values were 80.60 mg GA/100 g and 130.77 µmol TE/100 g in samples supplemented with 20% JAP. According to the sensory analysis, utilization of JAP, over 10% resulted in quite low points. Practical applications Inulin is generally used to increase dietary fiber content and decrease the glycemic index of foods. On the other hand, the utilization of foods with inulin-rich JAP not only increases the dietary fiber content but also enriches it with bioactive components and phytochemicals. However, the high addition levels of JAP can deteriorative effects on the sensory features of foods. In this study, due to the specific aroma and sour taste of sourdough bread, JAP was used above the levels stated in the literature without creating a negative effect on the sensory.

Dry sheet food products or nori-like products can be produced from the mixture of Gelidium sp. and Ulva lactuca seaweeds, which is called geluring. Making geluring involves heat application that may influence the chemical composition of the product. The goal of this study was to evaluate the chemical characteristics of geluring by measuring proximate composition; dietary fiber, total phenolic, and flavonoid contents; and antioxidant activity(by DPPH analysis)of geluring and compare the values to those of the raw materials. Three types of geluring were prepared following commercial nori preparation procedures with some modifications: P1 (unseasoned), P2 (seasoned), and P3 (seasoned and roasted).The proximate composition of geluring products and raw materials differed significantly(P<0.05). Geluring fiber contents were not significantly different (P>0.05) among P1 (29.19±0.26%), P2 (29.42±0.66%), and P3 (29.83±0.11%), but these values differed significantly (P<0.05) from those of the raw materials. The total phenolic content, flavonoid content, and DPPH activity of P2geluringwere 1.38 mg GAE/g, 1.11 mg QE/g, and 61.23%, respectively, which were significantly (P<0.05) higher than those of P1 and P3 but lower than those of the raw materials. These results suggest that geluring processing might negatively impact the chemical composition of the products, but they still have high antioxidant activity and dietary fiber content and thus have potential for utilization as a functional food product.

The aim of this study was to compare textural (firmness) and sensory properties (surface colour, crumb colour, crumb texture, appearance, appearance and colour preferences) between whole breads made from conventional wheat (Triticum aestivum, L.) and whole breads made from unconventional wheat (Triticum aestivum, L., winter variety Skorpion, grains with blue aleuron). Wholemeal breads (control samples with marks C1, C2 and C3) were prepared of 100, 90 and 80 % amount of conventional wholemeal wheat flour to 0, 10 and 20% amount of smooth white flour made from conventional wheat using baker's experiment. Wholemeal breads (experimental samples with marks S1, S2 and S3) were prepared of unconventional wholemeal wheat flour to smooth white wheat flour in same ratio as control samples of breads. Our results showed, that negative evaluation of some sensory attributes of breads made from unconventional wheat correlated with increasing addition of wholemeal flour of this wheat. It was found that breads made from conventional wheat (100, 90 and 80% amount of conventional wholemeal flour) were more acceptable in surface colour, colour and appearance preferences than these sensory attributes of breads made from unconventional wheat (same amount of wholemeal flour). Appearance and crumb colour of breads made from conventional wheat (100 and 90% amount of wholemeal flour) were evaluated better than these attributes of breads made from blue coloured wheat (same amount of wholemeal flour). Appearance and crumb colour of both groups of whole wheat breads (80:20) was similarly evaluated. Crumb texture of breads made from conventional wheat (90% and 80% amount of wholemeal flour) was worse than crumb texture of breads produced of same ratio of flour, but made from unconventional wheat. Breads with addition of 80% of wholemeal flour milled of blue coloured wheat were most acceptable in all of sensory attributes for evaluators. Significant difference (p <0.05) of crumb fimness of breads were demonstrated between samples of breads (80:20) made from conventional or unconventional wheat. Crumbs of breads (100:0 and 80:20) made from blue coloured wheat had higher firmness than crumbs of breads (100:0 and 80:20) made from conventional wheat. But crumbs of breads (90:10) made from conventional wheat were firmer than crumbs of breads (90:10) made from unconventional wheat. Breads produced of blue coloured wheat were also more friable than breads made from conventional wheat. Although evaluation of wholemeal breads made from unconventional wheat had not better scores than evaluation of wholemeal breads made from conventioval wheat, but evalution of breads produced of unconventional wheat wholemeal flour were not below average and its market position could be very high in the future, due to the content of health benefit substances, which will be the subject of further research.