Search Results (259)

Enhancing osseointegration is a common goal for many titanium implant coatings, since the naturally forming oxides are often bioinert and exhibit less than ideal bone-to-implant contact. Oxide coating surface topographies, chemistries, and crystallinities are known to play key roles in enhancing bone–implant interactions. In the present study, two novel anodization processes were developed in electrolytes based on juiced navel oranges to create bioactive oxide coatings on commercially pure titanium (CPTi) surfaces. Both oxide groups revealed multi-scaled micro and nano surface topographies, significant Ca and P-dopant incorporation exhibiting Ca/P ratios similar to human bone (1.7 and 1.8), and physiologically relevant Mg uptake levels of <0.1% and 1.4 at%. XRD and FTIR analyses of each oxide revealed a combination of tricalcium phosphate and hydroxyapatite phases that showed carbonate substitutions indicative of bone-like apatite formation. Finally, VDI indentation testing revealed good adhesion strengths, minimal cracking, and no visible delamination for both oxides. In summary, the anodization processes in the present study were shown to produce carbonated tricalcium phosphate and apatite containing oxides with contrasting levels of Mg uptake that show much promise to improve future implant clinical outcomes. Full article

Aloin, a kind of active phenolic component, is sourced from Aloe vera. Recently, the determination of aloin has received enormous attention, owing to its positive performance (including anti-tumor, antibacterial, detoxification, liver protection, anti-stomach damage, and skin protection activities) and painful side effects (increased carcinogenicity caused by excessive use of aloin) impacting human health. This investigation was inspired by the good fluorescence properties of carbon dots (CDs); CD-based sensors have aroused a great deal of interest due to their excellent sensitivity and selectivity. Thus, it is of great significance to develop novel CD-based sensors for aloin determination. Herein, N,F-CDs were designed and synthesized through a convenient hydrothermal strategy; the synthesized N,F-CDs possessed good fluorescence performance and a small particle size (near 4.3 nm), which demonstrated the successful preparation of N,F-CDs. The resulting N,F-CDs possessed a large Stokes shift and could emit a highly stable green fluorescence. The fluorescence of the N,F-CDs could be effectively quenched by aloin through the inner filter effect. Furthermore, the synthesis procedure was easy to operate. Finally, the N,F-CD-coated test strips were fabricated and combined with a miniaturized fluorimeter for the fluorescence detection of aloin via the inner filter effect for the first time. The N,F-CD-coated test strips were fabricated and used for the fluorescence sensing of aloin, and the results were compared with a typical ultraviolet (UV) method. The N,F-CD-coated test strips exhibited high recovery (96.9~106.1%) and sensitivity (31.8 nM, n = 3), good selectivity, low sample consumption (1 μL), high speed (5 min), good stability, and anti-interference properties. The results indicate that N,F-CD-coated test strips are applicable for the quantitative determination of aloin in bovine serum, orange juice, and urine samples. Full article

This study introduces a novel reconstruction method (Itihaas’s Anastomosis) for the upper gastrointestinal (UGI) tract following proximal gastrectomy, designed to mitigate the severity of acid reflux syndrome, a frequent postoperative complication. The procedure comprises three side-to-side anastomoses: esophago-gastrostomy, gastro-jejunostomy, and jejuno-jejunostomy. The esophago-gastrostomy anastomosis aims to prevent direct reflux of gastric contents into the esophagus by creating a fundus-like structure, which also facilitates future endoscopic procedures. The gastro-jejunostomy reduces acid reflux by diverting gastric acid to the jejunum for further neutralization, while the jejuno-jejunostomy prevents bile and pancreatic juice reflux into the stomach. A 75-year-old male with adenocarcinoma of the upper stomach underwent this surgical procedure. Postoperative outcomes showed no major complications, with smooth oral contrast passage and no evidence of anastomotic leaks. The patient was discharged after resuming consumption of semi-solid food and experienced no signs of reflux. Itihaas’s Anastomosis represents a novel technical approach that theoretically may reduce acid reflux following proximal gastrectomy. Initial case experience suggests technical feasibility, though all claimed benefits remain theoretical without objective validation. Long-term outcomes, anti-reflux efficacy, and comparative effectiveness require validation through systematic case series with objective assessments. Full article

Sugarcane (Saccharum spp. L.), traditionally cultivated in tropical and subtropical regions, is being explored for its agronomic viability in Mediterranean climates. This study assessed the bio-agronomic performance of seven sugarcane varieties and two accessions grown in Sicily, to enhance the fermentation process to produce rum agricole, a spirit derived from fresh cane juice. Agronomic evaluations revealed significant varietal differences, with juice yields of 5850−14,312 L ha⁻¹ and sugar yields of 1.84–5.33 t ha⁻¹. Microbial control was achieved through the addition of lactic acid, which effectively suppressed undesirable bacterial growth and improved fermentation quality. Furthermore, the application of two selected Saccharomyces cerevisiae strains (MN113 and SPF21), isolated from high-sugar matrices such as manna and honey byproducts, affected the production of volatile compounds, particularly esters and higher alcohols. Sensory analysis confirmed a more complex aromatic profile in cane wines fermented with these selected yeasts, with overall acceptance scores reaching 7.5. Up to 29 aroma-active compounds were identified, including ethyl esters and higher alcohols. This research represents the first integrated approach combining lactic acid treatment and novel yeast strains for the fermentation of sugarcane juice in a Mediterranean context. The findings highlight the potential for high-quality rum agricole production in Sicily. Full article

The garden Nasturtium (Tropaeolum majus L.) is increasingly consumed worldwide due to its culinary appeal and perceived health benefits. However, the chemical markers underlying its functional properties remain insufficiently characterized. Building on evidence from a recent human pilot study confirming both high acceptability and dietary safety, we conducted a comprehensive volatilomic and phytochemical analysis of T. majus flowers and their juice. Headspace solid-phase microextraction coupled with gas chromatography–mass spectrometry (HS-SPME/GC-MS) was employed to establish the volatilomic fingerprint of floral tissues and juice. Our analysis revealed a striking dominance of benzyl isothiocyanate and benzonitrile, which together accounted for 88% of the total volatile organic metabolites (VOMs) in the juice, 67% and 21%, respectively. In the floral tissues, benzyl isothiocyanate was even more prevalent, representing 95% of the total volatile profile. Complementary in vitro assays confirmed a substantial total phenolic content and strong antioxidant activity in the flowers. These findings provide a robust chemical rationale for the potential health-promoting attributes of T. majus, while identifying key volatilomic markers that could support future functional and safety claims. In parallel, a benefit–risk assessment framework is discussed in accordance with the European Food Safety Authority (EFSA) guidelines for the Qualified Presumption of Safety (QPS) of edible flowers. Given that both benzyl isothiocyanate and benzonitrile are classified as Cramer Class III substances, a conservative intake threshold of 1.5 μg/kg body weight per day is proposed. To enable quantitative exposure modeling and support the derivation of a tolerable daily intake (TDI), future studies should integrate organic solvent-based extraction methodologies to estimate the total volatile load per gram of floral biomass. This would align risk–benefit assessments with the EFSA’s evolving framework for novel foods and functional ingredients. Full article

Biopesticides represent a safe and sustainable strategy for biological pest management, applicable to weed and fungal control. Biotechnological processing offers a promising approach to enhance the bioactivity of natural products for agricultural use. In this study, guishe juice, an agroindustrial residue derived from Agave lechuguilla, was bioprocessed via inoculation with Fusarium chlamydosporum, and its fungicidal and herbicidal potentials were evaluated. The fungal biotransformation led to the accumulation of phytochemicals, including flavonoids and polyphenols, significantly enhancing antioxidant activity to 76% and 96% as measured by DPPH and ABTS assays, respectively. The resulting bioprocessed guishe extract (BGE), particularly at 10% concentration (BGE-10), exhibited strong fungicidal activity, achieving 100% control of phytopathogenic fungi Fusarium spp. and Penicillium spp. Additionally, BGE-10 demonstrated a bioherbicidal effect, with a 77% weed control rate against Verbesina encelioides. These findings emphasize the potential of bioprocessed agave residues as dual-action bioagents, supporting the development of novel, eco-friendly agricultural solutions. Full article

Whole mulberry juice (WMBJ) was prepared using a novel high-energy fluidic microfluidizer (HEFM). The effects of varying treatment pressures (0–120 MPa) on the physical stability and nutritional quality of the juice were investigated. As the pressure increased, the average particle size (D[4,3]) decreased from 232.46 μm to 38.27 μm. This indicated that the pulp particles became smaller and more evenly dispersed, resulting in an increase in the apparent viscosity. At 90 MPa, the precipitation weight ratio increases, the turbidity value is the lowest, and the physical stability is significantly improved. Furthermore, the HEFM treatment exhibited a favorable impact on the soluble solids, pH value, total acid content, color, and antioxidant activity of the WMBJ. The contents of anthocyanins, ascorbic acid, and total polyphenols in the WMBJ reached their zenith with the 90 MPa treatment. The results demonstrated that WMBJ, characterized by its excellent physical stability and high nutritional value, can be effectively prepared through the utilization of HEFM technology. This technological approach represents a novel method for industrial WMBJ production that is both efficient and environmentally friendly while ensuring the preservation of the product’s quality. Full article

This study explored the development of a novel whey-based fermented beverage enriched with juice concentrates and health-promoting ingredients, emphasizing its bioactive properties. The formulation included whey protein isolate (5%), juice concentrates (10% apple, raspberry, and cranberry), and inulin (4%). Fermentation was carried out with the following strains: Lacticaseibacillus rhamnosus (LGG), Lacticaseibacillus casei (431), and Lactobacillus helveticus (R0052) at 2%. Antimicrobial activity was evaluated against pathogens including Listeria monocytogenes (strains 33423 and 33413), Staphylococcus aureus (113 and Newman), Bacillus cereus (DPC 6089), Escherichia coli (NCTC 9001), and Salmonella Enteritidis (NCTC 6676). Antioxidant capacity was measured using 2,2-Diphenyl-1-picrylhydrazylradical (DPPH) and Ferric Reducing Antioxidant Power (FRAP) assays, and angiotensin-converting enzyme (ACE) inhibitory activity was assessed. All bioactivities were found to be high in fermented whey beverage and a further significant increase was observed after simulated gastrointestinal digestion. This fruit-flavored whey beverage demonstrated notable antimicrobial and antioxidant activities, highlighting its potential for functional food applications aimed at combating harmful bacteria and oxidative stress. Full article

Hyperuricemia (HUA) is a metabolic disorder characterized by excessive uric acid (UA) production and impaired excretion. Goji, as a representative medicinal food, holds significant research and development value, while probiotic fermentation technology is finding increasingly widespread applications in the functional food sector. This study developed a novel goji fermented with three probiotic strains (Lactoplantibacillus plantarum CGMCC8198, Lactococcus lactis LTJ28, and Lactocaseibacillus casei YR2-2) and investigated its anti-HUA effects. Optimal fermentation conditions (7.913 material–liquid ratio, 3.92% inoculation, 7.49 h at 37 °C with 1:1:2 strain ratio) yielded a beverage with enhanced flavor profiles (19 aroma compounds) and high viable counts. In HUA cell models, the 15% fermented goji juice significantly reduced UA levels by 56% (p < 0.01). In potassium oxonate-induced HUA mice, the beverage effectively lowered serum UA, xanthine oxidase activity, and renal function markers (blood urea nitrogen and creatinine, p < 0.0001) while improving hepatic parameters (alanine aminotransferase, aspartate Aminotransferase). The goji-fermented juice significantly reduced the expression of renal UA transporters GLUT9 and URAT1 (p < 0.0001) while improving gut microbiota composition, as evidenced by increased beneficial SCFAs (acetic acid, butyric acid, p < 0.0001) and elevated Lactobacillus abundance 2.14-fold. Our findings demonstrate that this triple-probiotic-fermented goji beverage represents an effective dietary strategy for HUA management by simultaneously inhibiting UA production, enhancing excretion, and restoring gut microbiota homeostasis, providing a scientific basis for developing probiotic-based functional foods against HUA. Full article

Blackcurrant (Ribes nigrum) is valued for its health-promoting compounds, many of which remain in the pomace after juice extraction. Berry pomace can be considered a valuable source of dietary fiber. However, it is typically dominated by insoluble dietary fiber (IDF), and the soluble-to-insoluble fiber ratio is often nutritionally suboptimal. The aim of this study was to evaluate the influence of enzymatic hydrolysis on the composition and technological properties of blackcurrant pomace (BCP). Three commercial enzyme preparations—Viscozyme^® L, Celluclast^® 1.5 L, and Pectinex^® Ultra Tropical (Novozymes A/S, Denmark)—were used for enzymatic hydrolysis, which was conducted at 50 °C for 1 h. The enzymatic treatments altered BCP’s chemical composition and technological properties. Pectinex^® Ultra Tropical and Viscozyme^® L primarily hydrolyzed SDF, while Celluclast^® 1.5 L was more effective on IDF, resulting in increased SDF content and an improved SDF/IDF ratio. Enzymatic hydrolysis reduced the oil retention capacity and impaired stabilizing properties, but it increased both the water retention capacity and the solubility index. It was found that the creaming index of the pomace deteriorated with decreased IDF content. The findings indicate that the effects of enzymatic modification on BCP’s composition and technological properties can vary significantly, supporting its potential application in the development of novel food products. Full article

Understanding the molecular regulation of citric acid accumulation in citrus fruits is crucial, as acidity directly influences fruit flavor, consumer preference, and commercial value. Citric acid is the predominant organic acid in citrus, and its levels are shaped by several factors, including genetic and developmental factors. ‘Jinyan’ Bingtang orange (Citrus sinensis cv. Jinyan) is a novel mutant derived from ‘Jinhong’ Bingtang orange (C. sinensis cv. Jinhong) that has a noticeably sour taste. However, the molecular basis of the increased citrate content in ‘Jinyan’ fruits remains unclear. This study compared the organic acid profiles and expression of citric acid metabolism-related genes between ‘Jinyan’ and ‘Jinhong’ fruit juice sacs throughout fruit development. The trend of citric acid content in both cultivars was similar; however, ‘Jinyan’ consistently presented significantly higher levels than ‘Jinhong’ did from 95 to 215 days after flowering (DAF). After 155 DAF, the transcript levels of citrate biosynthesis-related genes (PEPC1, PEPC2, PEPC3, CS1, and CS2) and citrate transport-related genes (V₁-E1, V₁-E2, V₀-a2, V₀-d, VHP1, VHP2, and CsPH8) were significantly greater in ‘Jinyan’ than in ‘Jinhong’. In contrast, citrate degradation-related genes (NAD-IDH2 and NAD-IDH3) were expressed at lower levels than in ‘Jinhong’. Notably, the expression patterns of V₁-E2 and CsPH8 closely matched the changes in citrate content in both cultivars. These results indicate that, compared with ‘Jinhong’, high citric acid accumulation in the juice sacs of ‘Jinyan’ fruit is likely due to increased citrate synthesis (via upregulated PEPCs and CSs) and increased vacuolar citrate sequestration (via upregulated proton pumps and transporters), coupled with reduced citrate degradation (lower NAD-IDH2/3). Full article

Background/Objective: Type 2 diabetes mellitus (T2D) is a chronic metabolic disorder characterized by hyperglycemia. Plant-based interventions have gained attention as potential complementary treatments alongside conventional therapies. This systematic review evaluates the efficacy of plant-based interventions in improving glycemic control, insulin sensitivity, lipid profiles, and other outcomes such as GLUT-4, Tumor Necrosis Facto-alpha, dietary inflammation index, plasma lipopolysaccharide, total antioxidant capacity, and malondialdehyde in individuals with T2D. Methods: We conducted a systematic search of PubMed, Scopus, and ScienceDirect databases to identify randomized controlled trials (RCTs) and observational studies. RCTs were used as an additional screening criterion. The review included studies on the effects of plant-based interventions, encompassing fruits, vegetables, herbs, spices, and their extracts. We analyzed data on glycemic control, insulin sensitivity, lipid profiles, and other metabolic markers. Results: Twenty-six studies were included in our analysis. Various interventions showed potential benefits, with improved glycemic control, insulin sensitivity, and lipid profiles. Specific interventions such as Ziziphus jujuba juice, black tea, caper fruit extract, and balanced diets were linked with positive outcomes. Based on the Functional Food Claim framework, all 26 studies met the quality criteria for novel foods. However, the novel food score varied, and results were inconsistent across different interventions. Conclusion: Although some plant-based interventions appear promising in managing T2D, the evidence remains inconclusive due to variability in study quality and methodology. Further high-quality RCTs are necessary to confirm these findings and to establish the optimal dosage, duration, and combinations of interventions for effective T2D management. Despite inconclusive results, few plant-based diets have promising outcomes. Healthcare providers, especially nurse case managers, can incorporate the findings of this study into their practice protocol to support self-management for individuals with TD2. Full article

Background: Growing environmental concerns and the vulnerability of global supply chains to disruptions, such as pandemics, natural disasters, and logistical failures, necessitate the design of sustainable and resilient supply chains. Methods: A novel multi-period mixed-integer linear programming model is developed with the objective of maximizing supply chain profit to design a complete citrus supply chain, which incorporates the production of citrus fruit and juice, and accommodates resilience and sustainability perspectives. Results: A comprehensive citrus supply chain scenario is presented to support the applicability of the proposed model, leveraging real data from citrus supply chain stakeholders in Egypt. Moreover, an actual case study involving a citrus processing company in Egypt is demonstrated. Gurobi software is used to solve the developed model. To build a resilient supply chain which can cope with different disruptions, different scenarios are modeled and strategies for having multiple suppliers, backup capacity, and alternative logistics routes are evaluated. Conclusions: The findings underscore the critical role of resilience in supply chain management, particularly in the agri-food sector. Moreover, the proposed model not only maximizes supply chain profitability but also equips stakeholders with the tools necessary to navigate challenges effectively. Full article

Probiotics exert beneficial effects on health improvement, infection prevention, and disease management. This study investigated the probiotic characteristics and safety parameters of Levilactobacillus brevis ZG2488, a novel strain isolated from healthy human feces. The strain exhibited robust tolerance to simulated gastrointestinal conditions, maintaining survival rates of 87.20% in artificial gastric juice (pH 3.0; 3 h) and 95.32% in 0.3% bile salt (24 h). Notably, L. brevis ZG2488 displayed superior microbial adhesion properties with high cell surface hydrophobicity (87.32%), auto-aggregation (81.15% at 24 h), and co-aggregation capacities with Escherichia coli ATCC 43895 (63.90%) and Salmonella typhimurium SL1344 (59.28%). Its adhesion to HT-29 cells (7.15%) surpassed that of the reference strain Lactobacillus rhamnosus GG (1.26%). Antimicrobial testing revealed broad-spectrum inhibitory effects against multidrug-resistant Klebsiella pneumoniae NK04152 and other pathogens. Comprehensive safety assessments confirmed the absence of hemolytic or DNase activity, along with appropriate antibiotic susceptibility to most antibiotics, except kanamycin, streptomycin, vancomycin, and penicillin G. Furthermore, L. brevis ZG2488 significantly enhanced nitric oxide production and upregulated the gene expression of nitric oxide synthase (iNOS) and proinflammatory cytokines (IL-1β, IL-6, and TNF-α) in RAW264.7 macrophages. These findings underscore L. brevis ZG2488 as a promising probiotic candidate with functionality in pathogen inhibition and immune modulation. Full article

Functional vinegars have been produced from various ingredients worldwide, yet there remains a notable gap in utilizing herbal plants as complementary ingredients to sugar-based materials. This study investigates the innovative combination of Caesalpinia sappan extract with sugarcane juice for functional vinegar production. The results demonstrate that C. sappan-supplemented vinegars exhibited significantly enhanced quality parameters compared to control vinegar made from sugarcane juice alone. Specifically, the supplemented vinegars showed increased total acidity and total phenolic content (TPC), with the improvement directly proportional to the concentration of plant extract used. Gas chromatography–mass spectrometry (GC-MS) analysis revealed unique volatile organic compounds (VOCs) that were present exclusively in the C. sappan-supplemented vinegars but absent in the control. Most notably, the supplementation of C. sappan extract at concentrations of 2 and 4 g/L substantially enhanced both the antioxidant capacity and antimicrobial activity of the resulting vinegars. These biochemical improvements highlight the synergistic potential of combining sugarcane juice with C. sappan extract for developing novel functional vinegar beverages with enhanced bioactive properties. Our findings open new possibilities for creating value-added products that leverage traditional medicinal plants in modern functional beverages, potentially offering consumers additional health benefits beyond conventional vinegars. Full article