Search Results (44)

Mealworm (Tenebrio molitor, LINNAEUS, 1758) is a protein-rich edible insect. In this study, low-gluten wheat flour was formulated with mealworm protein powder at various concentrations (0%, 5%, 10%, 15%, and 20%) to investigate its influence on the pasting, farinographic, and extensographic properties of low-gluten wheat flour, as well as the changes in the overall quality of the resulting biscuits (soda crackers and cookies). The viscosity of the composite flour decreased with an increasing substitution level of mealworm protein powder, and the setback significantly decreased from 69.31 ± 0.16 RVU (M0) to 19.00 ± 0.71 RVU (M20), indicating enhanced resistance to starch retrogradation. Farinographic and extensographic analyses revealed that the addition of mealworm protein powder reduced dough water absorption, significantly prolonged dough development time and stability time, and enhanced overall dough stability. However, extensibility gradually decreased, with a further reduction observed as the proofing time increased. Concurrently, the baking expansion ratio and hardness of the biscuits decreased. Specifically, for soda crackers, the baking expansion ratio decreased from 198.96 ± 3.88% (M0) to 135.74 ± 1.28% (M20), and hardness dropped from 26.40 ± 1.53 N (M0) to 6.32 ± 0.08 N (M20). For cookies, the baking expansion ratio and hardness decreased from 93.77 ± 0.72% (M0) to 86.06 ± 1.08% (M20) and from 1.76 ± 0.06 N (M0) to 1.10 ± 0.16 N (M20), respectively. The impact of mealworm protein powder (5–20%) was relatively minor in cookies but more pronounced in soda crackers, likely due to differences in formulation and processing methods. Additionally, the crunchiness of soda crackers was 3.42 times greater than that of cookies, whereas resilience was only 0.15 times that of cookies under controlled conditions. Pearson correlation analysis and principal component analysis (PCA) further elucidated the relationships between the dough properties and final product quality. Furthermore, the substitution of mealworm protein powder affected the sensory properties of the product but significantly enhanced its nutritional value, confirming the feasibility of replacing low-gluten wheat flour with mealworm protein powder and offering a theoretical foundation for its development and application in diverse biscuit formulations. Full article

Gluten-free (GF) baked goods often lack nutritional balance due to the limited protein and fiber content of standard cereal flours like rice and maize. A mixture design methodology was used to evaluate the interaction effects between cereal and legume flours on the physical and textural properties of the biscuits, including hardness, water activity (aw), CIE color parameters (L*, a*, and b*), spread ratio, and baking loss. The results indicated that incorporating legume flour, particularly chickpea flour, significantly increased biscuit hardness (from 22.00 N to 34.66 N) and reduced water activity (from 0.23 to 0.17). All three legume flours reduced the spread ratio, with chickpea flour having the most pronounced effect (from 4.91 to 4.75). Nutritionally, the inclusion of legume flours improved the protein (from 6.46 g/100 g to 11.90 g/100 g), mineral (from 0.58 g/100 g to 1.25 g/100 g), fiber (from 15.73 g/100 g to 21.13 g/100 g), and polyphenol contents (0.34 mg GAE/g compared to 0.18 mg GAE/g for the control). Moreover, DPPH scavenging activity was significantly higher (72.72% vs. 31.49% for the control). Sensory evaluations indicated that the inclusion of legume flours positively affected the biscuits’ overall sensory attributes, especially appearance, but had a minor negative effect on texture. This study aimed at utilizing local legume flours: faba bean, chickpea, and lentil, besides the traditional standard flours: rice and maize, to develop nutritious and flavorful gluten-free biscuits. These results highlighted the use of combinations of local legume with cereal flours to produce GF biscuits with improved physical, sensory, and nutritional qualities. Full article

We have previously shown a difference between the gut microbiota composition of stunted and non-stunted children in East Nusa Tenggara, Indonesia. The current study aimed to perform an intervention with a probiotic, Lactiplantibacillus plantarum IS-10506, and its UHT-treated postbiotic compared to placebo in order to accomplish catch-up growth in the stunted children, possibly through modulation of the gut microbiota. Apart from the maltodextrin (placebo), probiotic, and postbiotic in chocolate milk, all groups also received a functional and nutritional biscuit and had access to newly constructed water wells as well as soap to improve hygiene. The results show that independent of treatment, the stunted children had a significantly higher increase in height and zlen (corrected for age) compared with their age- and gender-matched controls but a significantly lower increase in weight. Several potential pathogenic taxa declined in all groups, among which was Escherichia/Shigella (adjusted.p = 6.44 × 10⁻¹⁵), but so did some beneficial taxa, such as Bifidobacterium and Akkermansia. Faecalibacterium, which was already higher in the stunted children at baseline, increased independent of treatment. Changes in the relative abundance of several taxa of the microbiota correlated with the changes in anthropometric measures. In conclusion, although there was no difference between the interventions, understanding the dynamics and the role of the gut microbiota in this process might allow healthcare providers to develop targeted nutritional strategies aimed at optimizing health outcomes for children at risk of stunting, thereby addressing a critical global health issue. Full article

The processing of peaches generates large quantities of by-products, including peels, pomace, and seeds. Despite containing high levels of bioactive compounds with antioxidant properties, these by-products are often discarded as waste, thereby contributing to increased food waste. The present paper aimed to evaluate the total bioactive compound content in peach pomace and biscuits fortified with various concentrations of peach pomace (5%, 10%, and 15%), with a view to utilizing this valuable by-product in functional foods. Compositional analysis revealed that peach pomace is a significant source of polyphenols (1771.64 mg GAE 100 g⁻¹), flavonoids (478.99 mg RE 100 g⁻¹), and anthocyanins (21.18 mg C3GE 100 g⁻¹), and has a radical scavenging capacity of 40.41%. The FTIR analysis confirmed the presence of multiple functional groups in peach pomace that can be associated with polyphenols, polysaccharides, organic acids, esters, monosaccharides, and structurally bound water. Among the individual phenolic compounds, high concentrations of rutin (8.12 mg 100 g⁻¹), chlorogenic acid (3.77 mg 100 g⁻¹), and sinapic acid (2.70 mg 100 g⁻¹) were recorded. Following the replacement of wheat flour with peach pomace, increases in the content of bioactive compounds were observed. At the maximum level of 15% pomace, the biscuits presented the highest concentrations of polyphenols (444.04 mg GAE 100 g⁻¹), flavonoids (211.11 mg RE 100 g⁻¹), anthocyanins (25.43 mg C3GE 100 g⁻¹), sugars (46.48 g GluE 100 g⁻¹), and radical scavenging activity (27.21%). Similar bands were found in the FTIR spectra of the biscuits, indicating the presence of phenolic compounds and glycosides. The 1366 cm⁻¹ band, which is associated with C–O stretching and C–H and N–H deformation in peach pomace, appeared in the enriched biscuit samples at 1340–1374 cm⁻¹ but not in the control sample. These results suggest that peach pomace represents an ingredient with significant potential for use in the food industry, having the ability to improve the nutritional value of biscuits. Full article

This study examines the relationship between the 1141 most consumed foods in Brazil and their individual and combined health and environmental impacts. Foods are analyzed across different food system clusters, based on the health burden (DALYs) in minutes of healthy life using the Health Nutritional Index (HENI), greenhouse gas emissions, and water use. The most consumed foods were in natura products, such as rice, beans and meat, and a few ultra-processed products such as biscuits and soft drinks. Our results revealed an average HENI of −5.89 min, with values varying from −39.69 min of healthy life (stuffed cookies) to 17.22 min (freshwater fish). Animal-derived products, particularly red meat, had the highest environmental costs, contributing significantly to greenhouse gas emissions and water use. In contrast, plant-based foods like beans and fruits had better HENI scores and lower environmental impacts. We also found that greenhouse gas emissions reached up to 21.3 kg CO_2eq (beef dish), and water use peaked at 306.1 L (mozzarella pizza). Our findings provide valuable insights into the real-world consequences of individual and institutional food choices, demonstrating their measurable impacts on health and the environment. By moving beyond theoretical assumptions, this evidence strengthens the case for integrating sustainability into public food policies, including dietary guidelines that consider regional specificities and environmental concerns alongside nutritional recommendations. Full article

This study aimed to evaluate the potential of beetroot powder (BP) as a functional ingredient in biscuits by investigating its effects on nutritional composition, sensory properties, and glycemic response. The primary goal was to determine whether BP could serve as a natural alternative to synthetic additives while maintaining product stability and consumer acceptability. Biscuits were formulated by replacing spelt flour with 15, 20, and 25% BP. The functional impact of the BP was assessed based on betaine content, macro- and microelements, glycemic index (GI), and acrylamide concentration. Thermal analysis (DSC and TGA) and water activity measurements confirmed the BP’s stability during six months of storage. Increased BP content led to higher betaine levels and mineral enrichment, particularly with potassium and phosphorus among the macroelements and zinc among the microelements. Sensory analysis identified biscuits with 20% BP as the most preferred, maintaining acceptable ratings even after six months. Hardness initially increased with BP incorporation but decreased over time (p < 0.05). The acrylamide content in the BP-enriched biscuits was significantly lower than in control samples and well below the reference safety threshold. Notably, consuming beetroot biscuits did not trigger a sharp postprandial glucose spike, with the GI of the most acceptable sample (20% BP) measured at 49 ± 11. These findings confirm that BP improves the nutritional and sensory characteristics of biscuits while ensuring product safety and stability, supporting its application as a natural functional ingredient in confectionery products. Full article

This study evaluated the effects of incorporating spirulina algae powder (SAP) at 3%, 6%, and 9% into quinoa flour (QF) blends to produce gluten-free biscuits and snacks, compared to a 100% QF control. The chemical composition, mineral and amino acid content, antioxidant capacity, starch gelatinization, color, baking quality, sensory properties, and texture were analyzed. SAP was found to have high protein (62.50%), fat (5.92%), and ash (12.90%) content. Increasing the SAP concentration in QF blends resulted in a dose-dependent enhancement in the nutritional value of the biscuits and snacks. Farinograph analysis indicated a positive relationship between SAP percentage and water absorption. The inclusion of SAP significantly altered differential scanning calorimetry (DSC) and viscoamylograph parameters. Biscuit weight, volume, and specific volume decreased with increasing SAP levels. Hunter color measurements showed a SAP concentration-dependent darkening effect, which was supported by sensory assessments. The 9% SAP biscuits and snacks exhibited the greatest antioxidant activity, with DPPH values of 50.18 and 43.6 µmol/g, respectively, and reducing power values of 41.49 and 36.58 µmol/g, respectively. Overall, while all samples were deemed acceptable, the 3% and 6% SAP formulations generally demonstrated better sensory characteristics and improved nutritional profiles, suggesting their potential as suitable options for individuals with gluten sensitivities. Full article

Biscuits are characterized by their popular sweet taste, but they have a poor nutritional profile due to their high sugar and saturated fat content, along with low fibre levels. Their sweetness primarily comes from sucrose, which not only determines the flavour but also performs several technological functions, making it difficult to replace in pastry products. Commercial sweeteners and soluble fibres designed for pastry products are available. Therefore, it is necessary to test the feasibility of using these ingredients in biscuit formulations and assess their impact on biscuit quality. Concurrently, the correlation analysis of dough rheological parameters, structure, and instrumental texture parameters with sensory characteristics will help identify which parameters are strongly correlated and can be used to predict biscuit quality. The purpose of this study was to investigate the dough rheological properties, structure, texture, and sensory characteristics of biscuits in which sucrose was replaced by the commercial sweeteners Tagatesse, maltitol, and erythritol–stevia, with the addition of soluble fibres Nutriose^® FB (wheat fibre) and PromOat 35 (oat fibre). At the same time, a correlation analysis was conducted between dough rheological parameters (stickiness, work of adhesion, dough strength) and biscuit quality parameters, such as water activity, water content, colour, texture (pore area, pore shape, pore elongation), and instrumental texture properties (hardness, brittleness, number of acoustic emission (AE) events, AE event energy), with sensory discrimination evaluated through a consumer test. The use of wheat and oat fibres in combination with sucrose resulted in biscuits with lower apparent density, increased porosity, and weaker texture (fracturability, hardness, number of AE events), yet they had better sensory properties compared to biscuits containing sucrose alone. Replacing sucrose with sweeteners combined with fibres led to a deterioration in the sensory quality of the biscuits and a significant change in the dough’s rheological properties. Regardless of the type of sweetener, biscuits with wheat fibre were rated better than those with oat fibre. Of the tested sweeteners, only maltitol combined with wheat fibre resulted in a sensory quality similar to that of sucrose biscuits. Correlation analysis of all measured biscuit quality parameters showed that only the number of AE events had a strong positive correlation with all tested sensory attributes. Porosity was only correlated with sensory crispness, and fracturability was correlated with sweetness, taste, and overall acceptability. Therefore, it appears that the number of AE events recorded at the time of breaking may be a reliable parameter for predicting biscuit quality. Full article

Hemp protein (Cannabis sativa L.) was incorporated into wheat flour at concentrations of 5%, 10%, and 15% and its effects on the rheological properties of the dough and the quality characteristics of the resulted breads were investigated. Rheological analysis revealed that hemp protein-enriched doughs exhibited significantly higher Young’s modulus of elasticity and elongational viscosity values compared to the wheat flour dough, indicating that the incorporation of hemp protein affected the firmness of the doughs. Farinograph analysis showed that replacing wheat flour with hemp protein increased water absorption, dough development time, and stability, while extensiograph analysis showed increased dough resistance and decreased extensibility and energy with hemp protein addition. Statistical analysis revealed that hemp protein significantly affected the moisture content, specific volume and crumb color of breads. Bread fortified with hemp protein had a darker color compared to the control bread. The addition of hemp protein affected the texture of the breads. It is recommended that hemp protein could be utilized as an alternative protein source, potentially enhancing dough characteristics, texture, quality, and the nutritional value of protein-rich breads, biscuits, snacks, and other bakery products. Full article

This study assessed the nutritional profile of camellia oil through its fatty acid composition, highlighting its high oleic acid content (81.4%), followed by linoleic (7.99%) and palmitic acids (7.74%), demonstrating its excellence as an edible oil source. The impact of beeswax (BW) and glycerol monolaurate (GML) on camellia oil oleogels was investigated, revealing that increasing BW or GML concentrations enhanced hardness and springiness, with 10% BW oleogel exhibiting the highest hardness and springiness. FTIR results suggested that the structure of the oleogels was formed by interactions between molecules without altering the chemical composition. In biscuits, 10% BW oleogel provided superior crispness, expansion ratio, texture, and taste, whereas GML imparted a distinct odor. In sausages, no significant differences were observed in color, water retention, and pH between the control and replacement groups; however, the BW group scored higher than the GML group in the sensory evaluation. The findings suggest that the BW oleogel is an effective fat substitute in biscuits and sausages, promoting the application of camellia oil in food products. Full article

Broccoli by-products are an important source of health-promoting bioactive compounds, although they are generally underutilized. This study aimed to valorize non-compliant broccoli florets by transforming them into functional ingredients for biscuit formulation. A broccoli flour and three water/ethanol extracts (100:0, 75:25, 50:50; v/v) were obtained. The rheological properties and the content of bioactive compounds of the functional ingredients and biscuits were evaluated. The 50:50 hydroalcoholic extract was the richest in glucosinolates (9749 µg·g⁻¹ DW); however, the addition of a small amount strongly affected dough workability. The enrichment with 10% broccoli flour resulted the best formulation in terms of workability and color compared to the other enriched biscuits. The food matrix also contributed to protecting bioactive compounds from thermal degradation, leading to the highest total glucosinolate (33 µg·g⁻¹ DW), carotenoid (46 µg·g⁻¹ DW), and phenol (1.9 mg GAE·g⁻¹ DW) contents being present in the final biscuit. Therefore, broccoli flour is a promising ingredient for innovative healthy bakery goods. Hydroalcoholic extracts could be valuable ingredients for liquid or semi-solid food formulation. Full article

In banana cultivation, a considerable amount of the production is wasted every year because of various constraints present in the post-harvest management chain. Converting green banana pulp and peels into flour could help to reduce losses and enable the food sector to keep the product for an entire year or more. In order to use green banana fruit and peel flour in the food industry as a raw ingredient such as in bakery and confectionery items—namely biscuits, cookies, noodles, nutritious powder, etc.—it is essential to standardize the process for the production of the flour. As a result, the purpose of this study was to investigate the influence of pretreatment and temperature on the drying capabilities and quality of dried green banana peel. The green banana peel pieces were pretreated with 0.5 and 1.0% KMS (potassium metabisulfite), and untreated samples were taken as control, and dried at 40°, 50°, and 60 °C in a tray dryer. To reduce the initial moisture content of 90–91.58% (wb) to 6.25–9.73% (wb), a drying time of 510–360 min was required in all treatments. The moisture diffusivity (D_eff) increased with temperature, i.e., D_eff increased from 5.069–6.659 × 10⁻⁸, 6.013–7.653 × 10⁻⁸, and 4.969–6.510 × 10⁻⁸ m²/s for the control sample, 0.5% KMS, and 1.0% KMS, respectively. The Page model was determined to be the best suited for the drying data with the greatest R² and the least χ² and RSME values in comparison with the other two models. When 0.5% KMS-pretreated materials were dried at 60 °C, the water activity and drying time were minimal. Hue angle, chroma, and rehydration ratio were satisfactory and within the acceptable limits for 0.5% KMS-pretreated dried banana peel at 60 °C. Full article

High sodium intake is the leading diet-related risk factor for mortality globally. Many countries have introduced policies to support the reformulation of foods and to reduce sodium intake, mainly on a voluntary basis, but there are limited data available about the long-term efficiency of such measures. Slovenia implemented salt reduction policies for the period of 2010–2020; these policies also included the voluntary reformulation of foods with the lowering of sodium content. This study’s aim was to explore the nationally representative branded food datasets collected in the years 2011, 2015, 2017, and 2020 to investigate the changes in the sodium content in prepacked branded foods. The study was conducted with datasets collected from food labels using standard food monitoring studies and included all the major retailers. Differences in market shares were adjusted by sales weighting, which was conducted using the yearly sales data provided by the major retailers. The food categories with a major contribution to the overall sales of sodium in prepacked branded foods were processed meat and derivatives (19.0%), canned vegetables (7.1%), water (6.7%), bread (7.2%), and cheese (6.3%). Considering the available food products, a notable decreasing sodium content trend was observed in biscuits, breakfast cereals, pizza, and spreads. Year-to-year differences were much less expressed after the correction for market share differences, and neutral trends were most frequently highlighted. This indicates that sodium was less frequently reduced in market-leading products. The study results revealed that very limited progress in sodium food reformulation was achieved in the 10-year period, indicating the need for more efficient policy approaches. The study demonstrated the importance of the systematic monitoring of the food supply for the evaluation of food policies. Full article

Biscuits are one of the most consumed bakery products that contain a high content of fat, sugar, and different additives that may cause various health problems. This has led to an increased focus on enriching bakery products with plant extracts to improve their nutritional and sensory properties. The objective of the current work was to investigate the effect of replacing wheat flour with plant extracts such as blueberry and cranberry (at concentrations of 3%, 6%, and 9%) and compare with control biscuits regarding the physico-chemical and color parameters. In addition, sensory analysis was conducted to determine the consumer acceptability of the enriched biscuits. The enrichment of biscuits with blueberry powder significantly increased the moisture content and decreased pH values (p < 0.05). Similarly, cranberry-enriched biscuits had a significantly higher moisture content, water activity, and decreased pH values compared to control samples (p < 0.05). On the other hand, enrichment of biscuits with either blueberry or cranberry powder significantly decreased lightness (L*), yellowness (b*), chroma value (C*), and h-value (h) but increased the redness values (a* value) of samples (p < 0.05). Our results showed that with increasing concentrations of plant extract addition in biscuits, the sensory attributes such as odor and taste were significantly improved. The results of the study suggest that the addition of plant extracts to biscuits improved their physico-chemical and sensory properties. Full article

To boost revaluation of industrial by-products of artichoke, this research tries to determine the stability throughout storage of phenolic compounds and their antioxidant activity in biscuits enriched with fiber-rich powders extracted from b y-products of artichokes (FRPA). To determine the most stable extraction method, biscuits were formulated with FRPA extracted by two different environmentally friendly extraction solvents: water (W) and a solution of 1% CaCl₂∙5H₂O (CA) and compared with biscuits made with pea fiber (P) and control biscuits (B) without fiber added. Initially and during storage, the biscuits enriched with FRPA (W, CA) showed a higher content of bioavailable polyphenols and antioxidant activity compared to the control biscuits (B) and the reference fiber (P, pea fiber). In conclusion, FRPA are an excellent source of bioavailable fiber with antioxidant activity, but especially the FRPA extracted with 1% CaCl₂∙5H₂O (CA), and they could present a good alternative to the use of pea fiber. Full article