The efficiency of natural plant extracts in improving storage stability, antioxidant activity, sensory evaluation, and physicochemical properties of date juice-based energy drink

Energy drinks (EDs) are a type of sweetened and non-alcoholic beverage with high content of caffeine. EDs were prepared from date juice enriched with different concentrations of ginger rhizomes extract, moringa leaf extract, and caffeine. Physicochemical properties (pH, TSS, and color parameters), total phenolic content (TPC), antioxidant activity, microbiological quality, and sensory characteristics were evaluated for freshly prepared EDs and during storage. The results showed that freshly prepared EDs from date juice and natural extracts revealed lower pH, higher TSS, and lower color parameters than the control. The inclusion of date juice and natural extracts improved the TPC, antioxidant activity, and microbiological quality of freshly prepared EDs. Storage studies exhibited that EDs containing date juice and natural extracts were more stable during storage in terms of all quality parameters estimated. However, the ED made from date juice, ginger extract, moringa extract, and caffeine was the best in terms of all parameters evaluated with higher stability during 3 months of storage at room temperature. In general, by date juice and natural plant extracts addition, a desirable ED can be prepared

Physicochemical and Sensory Properties and Shelf Life of Block-Type Processed Cheeses Fortified with Date Seeds (Phoenix dactylifera L.) as a Functional Food

Processed cheese has rapidly been established as a commercial product in recent years. A new ingredient, a byproduct from date fruit seed (DFS), was obtained and tested as a fortified fiber from food industrial waste in block-type processed cheese. This is the first inclusive investigation to report such a test. Different concentrations of DFS (0%, 5%, 10%, 15%, and 20%) were added to block-type processed cheese as a partial substitution for butter. The current investigation was undertaken to estimate the impact of the partial substitution of butter by DFS and its effect on the product’s quality in terms of its shelf life and physicochemical, microstructure, color, and sensory properties. Quality was assessed over a 150-day storage period. The results indicate that adding DFS to cheese increased its nutritional value due to the addition of fiber. Additionally, the texture profile of cheese was decreased in terms of hardness, adhesion, springiness, and cohesiveness. The overall structure of cheeses became less compact and had a more open cheese network, which increased with increasing DFS% and duration of storage. Moreover, DFS exhibited the darkest color with increasing ratios of supplementary DFS and duration of storage. Based on the results found in the present investigation, it was concluded that an acceptable quality of block-type processed cheese could be achieved using DFS fiber at 5% and 10% levels of fortification

Carboxymethyl-Cellulose-Containing Ag Nanoparticles as an Electrochemical Working Electrode for Fast Hydroxymethyl-Furfural Sensing in Date Molasses

Novel biosensors based on carboxymethyl cellulose extract from date palm fronds containing Ag nanoparticles as an electrochemical working electrode for fast hydroxymethylfurfural (HMF) sensing in date molasses were prepared. The morphological, structural, and crystallinity characteristics of the prepared Ag@CMC were described via SEM, DLS, TEM, and XRD. In addition, Raman spectroscopy and UV–VIS spectroscopy were performed, and thermal stability was studied. The investigated techniques indicated the successful incorporation of AgNPs into the CMC polymer. The sensing behavior of the prepared AgNPs@CMC electrode was studied in terms of cyclic voltammetry and linear scan voltammetry at different HMF concentrations. The results indicated high performance of the designed AgNPs@CMC, which was confirmed by the linear behavior of the relationship between the cathodic current and HMF content. Besides, real commercial samples were investigated using the novel AgNPs@CMC electrode

Valorization of Second-Grade Date Fruit Byproducts and Nonstandard Sweet Potato Tubers to Produce Novel Biofortified Functional Jam

Byproducts of second-grade dates and sweet potato tubers of noncommercial standard are produced along with the main product and are just as important as the main product but cannot be sold in the open market, as they may not be considered acceptable by consumers. Such byproducts can be valorized through the manufacture of a wide range of functional food products with high market appeal, such as jams. The research approach of this study included measuring antioxidant activity, total flavonoids, polyphenols, physicochemical and color indices, pH, and total sugar, as well as conducting a sensory evaluation, of mixed jams composed of different ratios of date jam (DFJ) to sweet potato jam (SPJ), namely, DP1 (80:20), DP2 (70:30), DP3 (60:40), and DP4 (50:50). To date, no other studies have considered producing mixed jam from dates and sweet potato byproducts. The sensory evaluation results indicated that jam DP4 (consisting of 50% date and 50% sweet potato) had the maximum overall acceptability. This investigation reveals the potential of using mixed byproducts in jams as natural functional ingredients, suggesting the economic value of valorization byproducts as low-cost ingredients to expand the properties, nutritional value, antioxidant content, and overall acceptability of jams. The discovered optimal mixed fruit jam has significant potential for further development as a commercial product

Effect of an Essential Oil Blend on Dairy Cow Performance during Treatment and Post-Treatment Periods

Essential oils (EOs) and their active components are attracting a lot of attention as sustainable feed additives due to their known antimicrobial properties against a variety of microorganisms, including bacteria, protozoa, and fungi. They also have biological therapeutic, antioxidant, and flavor properties. They can be used for modifying the rumen environment and improving animal productivity. The present study was designed to investigate the effect of supplementation with 2.5 and 5 g/head/day of an essential oils blend (EOB) of clove, oregano, and juniper in equal proportions on milk production and quality, and physiological status of early lactating Holstein dairy cows for 8 weeks of treatment followed by 8 weeks of posttreatment. The results revealed an improvement in milk yield (p ≤ 0.02) and feed efficiency (p ≤ 0.001) with EOB at a dose of 2.5 g/head/day. The percentages of milk protein and lactose were increased (p ≤ 0.03) with a high dose of EOB inclusion during the treatment period as compared with the control group. Milk fat percentage, fat-corrected milk, and energy-corrected milk were not significantly affected by EOB supplementation. The supplementation of EOB tended to decrease milk total bacterial and somatic cell counts when compared to the control group. The supplementation of EOB at both doses increased serum total protein (p ≤ 0.02) and globulin (p ≤ 0.05), and decreased cholesterol level (p ≤ 0.001) and creatinine (p ≤ 0.001) as compared to the control group. Furthermore, the results show that the low dose of EOB had more desirable effects on milk yield, milk total bacterial count, milk somatic cell count, and feed efficiency than the high dose, suggesting that lower doses may not inhibit rumen microbial populations. Moreover, the low doses of EOB could be used as sustainable natural alternatives to antibiotics in livestock diets

The Potential of Using Bisr Date Powder as a Novel Ingredient in Beef Burgers: The Effect on Chemical Composition, Cooking Properties, Microbial Analysis, and Organoleptic Properties

Overproduction of date fruits with limited industrial utilization leads to huge waste and losses, especially in bisr (the first stage of date maturity). Therefore, this study aimed to investigate the potential of using bisr date powder (BDP), which is rich in dietary fiber, flavonoids, and phenolic and antioxidant compounds, as a replacement for breadcrumbs in the beef burgers. The beef burger samples were produced by replacing breadcrumb powder with different concentration levels of BDP (0.0, 25, 50, 75, and 100%). All the samples were evaluated for their quality characteristics, including chemical composition, cooking properties, texture profile, organoleptic characteristics, and microbial profile. The results revealed that the gradual replacement of breadcrumbs with BDP in beef burgers significantly decreased moisture, protein, and lipid contents and significantly increased ash and carbohydrate contents compared to the control. The substitution of breadcrumbs with BDP at 50, 75, and 100% significantly decreased the cooking yield and increased the cooking loss and shrinking percentage of a beef burger. On the other hand, the textural profile of all beef burger samples showed a significant decrease in burgers’ hardness, gumminess, and chewiness with increasing substitution levels of breadcrumbs by BDP compared to the control. However, the treatment containing 25% BDP was more resilient than the control. In addition, the replacement of breadcrumbs with BDP up to 100% did not significantly affect the organoleptic properties of beef burger products compared to the control. Moreover, the microbiological analysis revealed that all beef burger treatments were safe with acceptable levels of bacterial load according to the Council of the European Communities’ standard specifications. In conclusion, there is a possibility of using BDP as a promising natural replacer of breadcrumbs to produce beef burgers without deteriorating the quality profile and safety of the product