Search Results (193)

While traditional flours, such as roller-milled refined flour (RRF) and stone-milled whole-wheat flour (SWF), are subject to a trade-off between nutritional value and sensory quality, stone-milled refined flour (SRF) offers a balanced composition. Nevertheless, the functionality and baking performance of dough depend on complex macromolecular interactions beyond composition alone. Using three hard red spring (HRS) wheat varieties, this study compares the protein and starch functionality, dough rheology, and bread quality associated with SRF compared to RRF, SWF, and roller-milled whole-wheat flour (RWF). Stronger gluten formation in SRF compared to RRF was evident from its higher maximum torque (62.83 GPU) and gluten aggregation energy (1681.7 GPU) in the Glutopeak analysis. Using a Rapid Visco Analyser (RVA), lower peak viscosity (1725.25 RVU) and higher pasting temperature (89.4 °C) were observed for SRF. It also exhibited higher water absorption (68.93%) than RRF (65.98%), although their dough stability and mixing tolerance were similar. While RRF produced the highest specific bread volume (6.74 cc/g) and softest crumb (2147.13 mN), SRF achieved an intermediate volume (5.51 cc/g) with a 26.4% improvement over SWF. The correlation analysis results indicated that specific volume is positively associated with gluten aggregation parameters and negatively correlated with crumb firmness, confirming that bread quality is primarily governed by gluten structure. Overall, the use of SRF resulted in balanced dough properties and bread quality, making it a viable, nutritionally enriched alternative for both artisanal and commercial baking. Full article

Quinoa fibre-rich fraction (QFi), obtained through wet milling, represents an innovative approach to improving the nutritional and functional quality of cereal-based products. Unlike conventional whole quinoa flour (WhQF), wet milling induces phytate losses during steeping, generating ingredients with enhanced mineral bioavailability. This study evaluated the incorporation of QFi into wheat pasta, assessing dietary fibre contribution, mineral bioavailability, cooking behaviour, and colour. Six fortified formulations were prepared by partially replacing wheat flour with WQF (white, red, or black) or QFi from the same varieties, with inclusion levels adjusted to provide equivalent dietary fibre across formulations. All quinoa-enriched pastas raised dietary fibre contribution compared with the control. Mineral contents also incremented, with the greatest values observed in formulations containing black quinoa ingredients. Fe and Zn contents were greatest in pastas with black WhQF, while Ca concentration was richer in formulations containing black QFi. Mineral absorption may be partially inhibited in pastas with WhQF, particularly in those containing the red quinoa. In contrast, QFi showed reduced phytate levels, highlighting the nutritional advantage of wet milling. Technologically, quinoa ingredients increased water absorption during pasta cooking. Overall, wet milled QFi provides a novel alternative to WhQF, combining improved mineral bioavailability with suitable technological properties for pasta processing. Full article

This study investigated the effects of incorporating colored wheat flours (red, blue, purple, and black) and replacing sucrose with xylitol on the technological, functional, and nutritional properties of cookies. Cookies were produced using 50:50 blends of colored whole wheat flours and refined cookie flour, and their physical, color, textural, phenolic, antioxidant, and in vitro glycemic index (GI) properties were evaluated. It has been determined that the addition of colored wheat flours significantly alters the textural properties. The incorporation of colored wheat flours significantly decreased width and increased thickness compared with the control cookies. The spread ratio of sucrose-containing cookies was higher (5.07 to 5.82) compared to xylitol-containing ones (4.91 to 5.41). Substitution of sucrose with xylitol generally reduced dough hardness. The colored wheat flour cookies had lower lightness values (52.31 to 63.18) compared to control samples (68.38 and 69.07 for sucrose and xylitol), while xylitol-based formulations produced slightly lighter cookies due to their lower browning potential. The cookies containing colored whole wheat flours exhibited higher hardness and brittleness than control cookies, likely due to their higher dietary fiber content, whereas xylitol resulted in softer cookies than sucrose. Cookies prepared with colored wheats showed significantly higher total phenolic content (367.41 and 424.87 mg GAE/100 g) and antioxidant capacity than the control samples (312.42 and 306.28 mg GAE/100 g for sucrose and xylitol), with purple wheat cookies exhibiting the highest values (424.69 and 424.87 mg GAE/100 g for sucrose and xylitol). Furthermore, colored wheat cookies demonstrated lower estimated GI values compared with control cookies (73.74 and 67.12), particularly those produced with blue wheat (66.68 and 60.94). Overall, the results indicate that colored wheat flours combined with alternative sweeteners such as xylitol can be used to develop cookies with improved antioxidant properties and moderated glycemic response while maintaining acceptable technological quality. Full article

Background/Objectives: Whole grains are increasingly recognized as protective components of dietary patterns linked to healthy aging and reduced risk of chronic disease. Nevertheless, relatively limited research has explored the relationship between whole wheat flour consumption and cognitive health in South Asian populations, where wheat-based foods represent a major dietary staple. This study investigated the association between habitual whole wheat flour intake and cognitive status in a Pakistani population. Methods: A two-phase cross-sectional study was conducted using interviewer-administered dietary questionnaires. In the first phase, dietary habits related to wheat product consumption were assessed in a population sample of 144 adults. In the second phase, dietary profiles were compared between two matched groups: cognitively healthy individuals (HLT, n = 30) and patients with clinically diagnosed dementia (PwD, n = 30). Categorical variables were analyzed using Pearson’s chi-square and Fisher’s exact tests. Results: Whole wheat flour was the predominant flour type used among respondents. Compared with PwD, HLT reported significantly higher consumption of whole wheat flour and greater adherence to dietary practices associated with whole grain intake. HLT also reported higher consumption of several foods commonly associated with brain-supportive dietary patterns. Conclusions: Although causal relationships cannot be inferred due to the cross-sectional design, the findings suggest that whole wheat flour consumption may be associated with broader dietary patterns linked to cognitive health. Given the central role of wheat-based foods in the Pakistan diet, promoting whole wheat flour as a staple food choice may represent a culturally feasible strategy within dietary approaches aimed at supporting healthy brain aging. Full article

(1) Background: Starch-based breads can closely mimic wheat bread in texture and appearance; however, their nutritional value must be improved while maintaining their inherent bread-like characteristics. The objective of this study was to incorporate whole-grain pearl millet flour (PMF) into a starch-based bread formulation to enhance its dietary fiber and protein content. (2) Methods: The PMF was obtained using a combination of laboratory rollers and hammer mills, as well as appropriate sieves to obtain a particle size ≤ 250 µm. The incorporation of PMF affected the properties of the base flour (BF), dough, and gluten-free bread (GFB). (3) Results: In the BF, setback viscosity was significantly reduced from 6379 to 1354 mPa·s. Similarly, in the freshly kneaded dough, both the elastic and viscous moduli decreased, from 168.3 to 17.8 kPa and from 36.3 to 4.3 kPa, respectively. During fermentation, dough-specific volume increased from 0.76 to 1.73 cm³/g. In the GFB, the moisture content decreased from 47.9 to 42.2%, bread specific volume varied from 2.13 to 2.68 cm³/g, and crumb hardness increased from 12.8 to 25.3 N. PMF incorporation segmented bread consumers into two preference-based clusters, characterized by lower (1) and higher (2) PMF levels. (4) Conclusions: Incorporating 30% PMF increased the fiber and protein contents of the starch-based bread by 4.9% and 2.2%, respectively, without compromising specific volume (2.56 g/cm³) or overall acceptance, which remained comparable to that of a commercial gluten-free bread (7.30 and 6.32 for clusters (1) and (2), respectively). Full article

Whole grains, due to their intact structure, retain more nutrients and offer significant health benefits. Thermal modification is commonly applied to modify cereal grains. This study aimed to investigate the effects of thermal treatments (microwaving (abbreviation MW-BW), roasting (RST-BW), and an emerging technology, heat fluidization (HFL-BW)) on whole-grain black wheat flour. The results showed minimal loss in proximate composition and increased anthocyanin content (from 38.78 mg/kg (BW) to 39.57 (HFL-BW) and 46.06 mg/kg (MW-BW)) relative to the control. Analysis of physical properties and microstructure revealed that all thermal treatments caused kernel swelling, darkened the flour color, decreased the kernel hardness, and disrupted the starch microstructure. All thermal treatments disrupted starch short-range order and reduced crystallinity (from 26.75% (BW) to 2.56 (HFL-BW) and 15.74% (RST-BW)), resulting in a transformation to a V-type structure. The protein secondary structure (mainly for α-helix) was disrupted, and gluten was denatured and aggregated in all thermal-treatment groups. Thermal treatments decreased gelatinization enthalpy (from 4.76 J/g (BW) to 0.59 (HFL-BW) and 4.44 J/g (RST-BW)) and altered pasting viscosity. The viscoelasticity of pastes made from thermal treatments was improved. In vitro digestibility results showed that thermal treatments decreased starch digestibility, decreased the protein bioavailability, and increased resistant starch content (from 20.1% (BW) to 30.9 (MW-BW) and 39.6% (RST-BW)). Altogether, heat fluidization had the most pronounced effect among the treatments. Thermal modifications—particularly heat fluidization—are promising technologies for enhancing the quality of whole-grain black wheat flour and developing functional foods. Full article

The microbiological safety of whole wheat flour remains a critical issue due to its susceptibility to contamination by spore-forming thermophilic bacteria. In this study, two thermophilic species, Bacillus subtilis and Bacillus mesentericus, were isolated from locally produced wheat grains and used as target microorganisms to evaluate the antibacterial potential of freshly pressed cabbage juices. Juices obtained from five cabbage varieties—red cabbage, white cabbage, napa (Chinese) cabbage, broccoli, and cauliflower—were comparatively assessed using the broth dilution method to determine their minimum inhibitory and bactericidal effects (n = 3). The results revealed pronounced differences in antibacterial efficacy among the tested samples. White cabbage juice exhibited selective inhibitory activity against B. subtilis at a dilution of 1:4, whereas napa cabbage and broccoli juices demonstrated the highest antibacterial activity against both Bacillus species at a dilution of 1:3. Importantly, napa cabbage juice showed no inhibitory effect on Saccharomyces cerevisiae, indicating its compatibility with dough fermentation processes. Spectroscopic analysis of the bioactive fraction obtained from napa cabbage juice revealed characteristic absorption bands at 3422 cm⁻¹ (O–H stretching), 2907–2840 cm⁻¹ (aliphatic C–H stretching), 1740 cm⁻¹ (ester carbonyl group), and 1641 cm⁻¹ (C=C stretching). The predominance of lipophilic compounds, including fatty acid esters, terpenes, and sulfur-containing compounds (734 cm⁻¹), suggests a molecular basis for the observed antibacterial activity against Bacillus spp. Overall, these findings identify napa cabbage as a promising source of selective natural antimicrobial agents capable of enhancing the microbiological safety of whole wheat flour-based bakery products without compromising yeast activity. Full article

Wheat and rice are major sources of human nutrition worldwide. Solid-state fermentation (SSF) with lignocellulolytic mushrooms can enhance their nutritional value and increase their functional properties. However, this technology is not yet widely applied. In this work, whole wheat and brown rice hydrated to 60% were used as substrates for the edible mushroom Pleurotus ostreatus and the medicinal Ganoderma sessile, which were incubated for 14 days at 25 °C in the dark. The fermented substrate biomass was incorporated into standard sugar-snap cookie recipes, substituting 20% of the wheat flour. We evaluated the technological and nutritional properties of alternative fermented flours and cookies. Both the fermented flours and cookies exhibited increased soluble and total protein content, antioxidant power, and phenol content, indicating overall functional improvement. Fermented G. sessile flour also showed increased triterpenoid content. The physical quality of cookies remained within expected ranges, demonstrating the feasibility of the application. These results highlight the potential of SSF as a method for nutritional and functional enrichment of grains and extend the health benefits of mushrooms to populations relying on low-cost, grain-derived carbohydrates. Further studies on digestibility and in vivo activity of metabolites are needed to confirm the potential health benefits of fermented flours. Full article

Bread typically exhibits a high glycemic index (GI), motivating interest in plant-based ingredients that can modulate starch digestibility while enhancing nutritional value. This study evaluated the technological, compositional, and digestibility effects of incorporating leaf flours from Cnidoscolus aconitifolius and Crotalaria longirostrata into wheat bread. Both flours increased protein, dietary fiber, and phenolic content, while modifying dough performance and crumb structure. C. longirostrata produced the strongest reduction in predicted glycemic index (pGI), decreasing values by 5.2% on Day 0 and up to 17.8% by Day 5, associated with the highest accumulation of resistant starch. However, this nutritional advantage was accompanied by marked technological drawbacks, including reduced loaf volume and denser crumb. In contrast, C. aconitifolius exhibited better technological compatibility, generating breads with higher volume and more cohesive crumb structure, while still achieving meaningful pGI reductions (6.1% on Day 0 and 9.6% by Day 5). Firmness evolution during storage reflected staling-related structural changes but did not involve direct measurement of starch retrogradation. Overall, this work highlights the functional potential of whole leaf flours to enhance the nutritional profile and glycemic behavior of bread, while underscoring the formulation-dependent trade-offs that influence technological quality. These findings provide a foundation for developing optimized, lower-glycemic baked products using underutilized botanical ingredients. Full article

To promote domestic wheat production in South Korea, four functional colored wheat varieties with varying amylose contents: Ariheuk (AH), Arijinheuk (AJ), Ariheukchal (AC), and Sintong (ST), were developed. This study examined their bread-making performance using whole wheat flour (WWF) milled under different conditions with an ultra-centrifugal mill (sieve openings: 0.5 and 1.0 mm; rotation speeds: 6000 and 14,000 rpm). Four flour samples per variety (FL, FH, CL, CH) were prepared. The median particle size (d50) varied among varieties, with harder kernels (AC, AH) producing larger particles than softer ones (AJ, ST). Smaller sieve openings increased the water and sodium carbonate solvent retention capacity, whereas higher rotation speeds reduced them, indicating less damaged starch. Sodium dodecyl sulfate sedimentation volume was higher in AC and AH, suggesting stronger gluten. Bread made from the group F WWF had higher volume and lower firmness, with AH-FH producing the best bread quality. Total phenolic and anthocyanin content and antioxidant activity were slightly higher in the group F, but markedly lower in the ST. Bread crusts showed increased phenolic and antioxidant activity but decreased anthocyanin content due to heat. Overall, kernel hardness, milling conditions, and amylose content strongly influenced purple WWF quality and bread performance, highlighting the need to optimize milling and formulation strategies. Full article

Plants are sources of compounds with important effects on health, but plant-based food industry generates substantial waste amounts, especially in oil production. This study aimed to characterize flours derived from oilseed by-products, pumpkin, sunflower, and apricot seed residues, and compare them with conventional grain flours (white and whole wheat). Nutritional composition was analyzed with emphasis on amino acid profiles performed by ion chromatography. Mineral profiles were determined by ICP-MS. Total phenolics and antioxidant activity were assessed using in vitro colorimetric microassays. Oil press cake flours showed significantly higher levels of protein and fiber compared to wheat flours (p < 0.05), while the latter contained more carbohydrates. Among the examined flours, pumpkin and apricot seed flours stood out with the highest potassium, while sunflower seed flour led in calcium content. Despite higher polyphenol content in wheat flours, apricot seed flour exhibited the greatest antioxidant activity, likely due to its diverse profile of hydrophilic and lipophilic bioactive compounds. These findings highlight oil press cakes as nutritionally valuable ingredients for protein-enriched and other innovative food products, aligning with circular economy principles and promoting resource efficiency in the agri-food sector. Full article

Brown rice is a nutritious, gluten-free whole grain, the edible potential of which is limited by inferior palatability and storage stability. In this study, brown rice (20% w/w) was subjected to heat moisture treatment (HMT) at 110 °C for 2 h, followed by ultrafine grinding, to prepare gluten-free biscuits, which were compared with those made from wheat flour, white rice, and brown rice. The results showed that the content of dietary fiber (2.67–3.62%), total phenolic (0.053–0.154%), and vitamin E (0.574–1.483 mg/100 g) in brown rice biscuits after combined treatment was enhanced compared with wheat flour biscuits. The spread ratio (4.06–8.89), hardness (700.82–1085.91 g), and brittleness (1068.89–2067.18 g/sec) of the biscuits were significantly improved (p < 0.05). Scanning electron microscopy revealed that the biscuits treated with combined treatment had fewer cavities and a more compact texture. The biscuits made from HMT brown rice demonstrated a reduced peroxide value, with a slower increase in acid value (0.19–0.21 mg/g) compared to untreated samples (0.24–0.38 mg/g) during storage. The innovative combined treatment of HMT and ultrafine grinding improved qualities of brown rice biscuits. This approach expands the utilization potential of brown rice, while also offering a viable strategy for grain conservation and loss reduction. Full article

Due to increased interest in new functional food products, 20 accessions of chufa tubers from the collection of the N.I. Vavilov Institute of Plant Industry, grown in the Kuban–Azov Plain in 2022, as well as bread samples made from mixed flour (70% whole-grain wheat flour, 30% chufa tuber flour) were studied. Biochemical, farinographic, and baking evaluations were carried out. Differences between the properties of dough with the addition of flour from various accessions of chufa tubers were recorded. According to the results of comparative, dispersion, and principal component analysis, all biochemical indicators (oil, fiber, sum of phenolic substances, antioxidant activity) of chufa tuber flour and bread with added chufa flour surpassed control samples (whole-grain wheat flour and wheat bread), with the exception of protein and starch content. Viscoamylographic, farinographic sedimentation, and baking quality evaluations indicated that the dough made from mixed flour was stronger than the control (dough from whole-grain wheat flour), more resistant to kneading, and had a lower degree of liquefaction. In terms of organoleptic properties, differences were also identified, and the accessions that enhance the taste of mixed bread were selected. Therefore, a preliminary conclusion can be drawn that chufa tubers grown in the conditions of the Kuban–Azov Plain with high rheological properties and high sedimentation values of the mixed dough can be recommended for improving the baking properties not only of wheat but also of other bread cereals. Chufa is also a promising crop in the manufacture of functional food products in the Krasnodar region and for the food industry in general as a potential thickener. Full article

The growing consumer demand for plant-based, protein- and fiber-enriched foods has encouraged the incorporation of novel functional ingredients into bakery products. Hemp flour (HF), obtained from cold-pressed hemp seeds, represents a sustainable ingredient rich in proteins, dietary fibers, lipids, and bioactive compounds, making it suitable for nutritional fortification. This study investigated the impact of HF addition (5–40%) on the quality of muffins prepared with wheat flour (WF) and whole wheat flour (WWF). An initial hedonic sensory evaluation identified 5–20% HF as the most acceptable substitution range, which was then subjected to detailed physicochemical, sensory, textural, colorimetric, and microbiological analyses. Incorporation of HF significantly increased protein (up to +44%), fiber (up to +172%), and ash (up to +76%) contents, while decreasing moisture (−39%). Both WF and WWF muffins darkened with HF incorporation, with a greater lightness reduction in WF. Texture changes (increased firmness and gumminess) were more pronounced in WF muffins. Sensory analysis revealed that WF muffins were best accepted at 10–15% HF, whereas WWF muffins maintained good acceptability up to 20% HF, indicating better integration of HF in the whole grain matrix. All samples complied with microbiological safety requirements. Overall, the optimal substitution level was 10–15% HF in WF muffins and 20% HF in WWF muffins, demonstrating that HF can enhance the nutritional profile of muffins while maintaining acceptable technological and sensory properties in a matrix-dependent manner. Full article

Large-fruited cranberry (Vaccinium macrocarpon Ait.) is a rich source of polyphenolic compounds, including anthocyanins, flavonols, and unique A-type proanthocyanidins, which exhibit strong antioxidant and health-promoting properties. Cranberry pomace, a by-product generated during juice and concentrate production, remains underutilized despite being abundant in dietary fiber and non-extractable polyphenols (NEPPs). In this study, cranberry pomace was characterized phytochemically and applied as a functional ingredient in biscuits at levels of 5%, 10%, and 15% substitution of wheat flour. Total polyphenol content (TPC) and antioxidant activity (ABTS^•+, DPPH^•) were significantly higher in pomace compared to whole fruit values reported in the literature, which can be attributed to the concentration of polymeric proanthocyanidins and flavonols in skins and seeds. Biscuits enriched with pomace exhibited a dose-dependent increase in TPC and antioxidant capacity, with the 15% variant showing up to 6-fold higher polyphenol content and over 30-fold higher ABTS^•+ activity after in vitro digestion compared to control. Digestion also released NEPP bound to the fiber matrix, improving bioaccessibility. Moreover, extracts from digested biscuits reduced oxidative stress in Saccharomyces cerevisiae and inhibited COX-1, COX-2, and AChE activities, suggesting potential anti-inflammatory and neuroprotective effects. These findings highlight cranberry pomace as a sustainable, high-value ingredient for functional foods, aligning with circular economy strategies. Full article