Search Results (84,012)

This study aimed to systematically compare the functional properties of the four major components (albumin, globulin, prolamin, and glutelin) of protein from Yunnan deep-veined walnuts to screen for protein-based carrier materials with good processing adaptability and the ability to efficiently encapsulate the active ingredient rutin. In addition, the binding and molecular interactions between the preferred protein and rutin were analyzed. The results indicated that albumin exhibited superior performance compared to the other three components in solubility, emulsifying properties, foaming properties, and gel properties, and demonstrated the strongest processing applicability. Further analysis revealed that albumin possessed an excellent amino acid composition (essential amino acid content accounting for 42.30%) and antioxidant activity (with the highest ABTS scavenging rate reaching 85.71 ± 0.26%), which indicated its considerable potential as a functional carrier. Loading rutin onto albumin yielded a walnut albumin–rutin complex (WA@Rut), which significantly enhanced the thermal stability of albumin (with the thermal denaturation temperature elevated to 108.72 °C) and the storage stability of rutin (66.16 ± 5.05% retention after 22 days of storage). Combined analyses of FT-IR spectroscopy, intrinsic fluorescence spectroscopy, molecular docking, and molecular dynamics simulations confirmed that rutin primarily bound to albumin via hydrogen bonding and electrostatic interactions, and formed a stable complex structure. SEM images revealed that the composite surface was smooth and exhibited a flake-like morphology. In conclusion, walnut albumin is a protein resource with significant functional potential in Yunnan deep-veined walnuts, and it exhibits strong processing applicability and enables efficient encapsulation and protection of active ingredients. This study provides novel strategies and theoretical foundations for the high-value utilization of walnut protein. Full article

The corrosion phenomenon can cause negative allergic and cytotoxic reactions in the human body, inflammation, and, in the future, the development of cancer. Their sources may be corrosion products, metal ions released during the corrosion process, and galvanic currents that penetrate the surrounding tissues. In order to avoid the negative effects of using metal alloys, their surface can be modified by applying coatings. The aim of this study is to determine and compare the amount of ion release from Si(C,N) coatings with varying carbon and nitrogen contents, as well as from the uncoated substrate alloy (Group A) in various aqueous environments. Si(C,N) coatings were applied to the surface of the prosthetic alloy. Si(C,N) coatings with different carbon and nitrogen contents were deposited using the reactive magnetron sputtering (RMS) method. The research included determining the amount of ions released into the environment: distilled water, 0.9% NaCl and artificial saliva. Assessments were made at 10, 30 and 90 days. All tested Si(C,N) coatings significantly limit the amount of metal ions in the surrounding medium. Due to the lack of statistically significant differences in the number of ions released by individual coatings, when selecting them, other properties related to the operating conditions of the elements should also be taken into account. Full article

The study aimed to evaluate the nutritional contribution of essential elements (Ca, Fe, K, Mg, Zn) and assess health risks associated with potentially toxic elements (Cd, Pb, As, Al, and Sr) in three types of cheese from retail chains and produced by two different producers. One hundred forty-four cheese samples were collected in 12 months. All samples were analyzed using inductively coupled plasma optical emission spectrometry (ICP-OES). The average concentrations of Ca, Fe, K, Mg, Zn, Al and Sr in cheese samples were 4183.87–6227.98 mg/kg, 1.00–1.63 mg/kg, 695.90–884.39 mg/kg, 175.00–255.70 mg/kg, 21.49–27.56 mg/kg, 2.65–5.73 mg/kg and 1.91–5.82, respectively, depending on cheese type and producers. Concentrations of As, Cd and Pb in all analyzed samples were below the limit of detection (LOD). From a nutritional perspective, the analyzed cheeses represented important dietary sources of calcium and zinc, with substantial contributions to recommended daily intakes, particularly under the higher consumption scenario (100 g/day). Magnesium also contributed meaningfully to dietary intake, especially in children, whereas the contributions of iron and potassium remained relatively low in all evaluated consumption scenarios. Health risk assessment was expressed as the percentage of the tolerable daily intake (%TDI) or provisional tolerable weekly intake (%PTWI). Under the higher consumption scenario (100 g/day), children represented the most highly exposed population group, with %PTWI values for aluminum ranging from 0.25 to 9.10% and %TDI values for strontium ranging from 6.92 to 20.00%, depending on cheese type and producer. Overall, the analyzed cheeses showed high nutritional value and low toxicological risk; however, continuous monitoring of potentially toxic elements remains important to ensure food safety. Full article

Background: Biliary drainage is a key component of palliative management in patients with malignant biliary obstruction. In cases where endoscopic approaches are unsuccessful or cannot be performed, percutaneous transhepatic biliary drainage (PTBD) represents an established alternative for achieving biliary decompression. The C-reactive protein–albumin–lymphocyte (CALLY) index combines inflammatory, nutritional, and immune-related parameters into a single marker, while the modified Glasgow Prognostic Score (mGPS), based on C-reactive protein and albumin concentrations, reflects the systemic inflammatory status of the patient. This study aimed to evaluate the prognostic value of the preprocedural CALLY index and mGPS in predicting 30-day mortality among patients with advanced malignant biliary obstruction undergoing palliative PTBD. Methods: This single-center retrospective study was conducted in a total of 179 patients who underwent palliative PTBD for malignant biliary obstruction at Ankara Etlik City Hospital between December 2022 and June 2025. Results: The 30-day mortality rate was 25.1%. The cut-off value for CALLY was determined as 67 based on receiver operating characteristic (ROC) curve analysis, and mGPS was categorized as 0–1 versus 2. In univariable Cox regression analyses, pancreaticobiliary tumor type, mGPS = 2, and CALLY < 67 were associated with early mortality. In multivariable Cox analysis, CALLY ≥ 67 was independently associated with a reduced risk of 30-day mortality, whereas pancreaticobiliary tumor type was independently associated with an increased risk. In the CALLY–mGPS risk stratification, 30-day mortality rates were 8.0%, 13.5%, and 44.1% in the low-, intermediate-, and high-risk groups, respectively. Conclusions: In this retrospective cohort, preprocedural inflammation- and nutrition-based markers were found to be associated with early mortality in patients with malignant biliary obstruction undergoing PTBD. Accordingly, risk stratification using readily available parameters such as CALLY and mGPS appears feasible in the preprocedural setting. The CALLY–mGPS-based approach may provide a practical framework for clinical risk assessment; however, prospective multicenter validation, including tumor-specific subgroup analyses, is warranted. Full article

Background/Objectives: Cardiac regenerative ability varies in vertebrates. Adult mammals cannot mount a regenerative response, while fetal mammals and some salamanders and teleosts fully regenerate the heart after a cryoinjury mimicking a myocardial infarction. This contrast is suggested to be regulated in part by metabolism, with high regenerative capacity correlating with a comparatively lower mass-specific metabolic rate, ectothermy rather than endothermy and a metabolic phenotype favoring glycolysis in cardiac muscle. Methods: In this physiological study on axolotl salamanders, we altered the housing temperatures from the standard 20 °C to 10 °C, 25 °C and 30 °C and assayed key metabolic parameters as well as cardiac function, survival and regenerative capacity. Results: Our study demonstrated that while axolotls could be housed at temperatures ranging from 10 °C to 30 °C in an uninjured state, signs of a pathological response involving cardiac and metabolic insufficiency and mortality, especially after cryoinjury, increased progressively with increasing temperatures. We observed several metabolic effects, including differences in oxygen consumption, plasma metabolites and cardiac function. Cardiac regeneration after cryoinjury progressed as expected with only a small remaining injury after 60 days at the standard housing temperature of 20 °C. Regeneration was highly reduced in a reversible manner at 10 °C while regenerative rate was not affected at 25 °C. At 30 °C, cardiac regeneration could not be evaluated as the majority of animals (five out of six) did not survive the injury, likely reflecting insufficient cardiac reserve capacity to simultaneously sustain thermal metabolic effects and support tissue repair. Conclusions: The ectothermic axolotl undergoes several metabolic changes when exposed to different housing temperatures, with heart regeneration showing a narrower permissive temperature range than survival of the axolotl in an uninjured state. Full article

Spermatogonial stem cells (SSCs) are pivotal in surrogate broodstock technology. However, species-specific protocols for the efficient enrichment and long-term preservation of SSCs in olive flounder (Paralichthys olivaceus) are not yet fully established. In this study, we evaluated and optimized methods for the isolation and cryopreservation of P. olivaceus SSCs. First, we compared two enrichment methods, including Percoll density gradient centrifugation (PDGC) and differential plating (DP). Although SSCs enriched by both methods showed increased expression of SSC-specific marker genes, PDGC resulted in significantly greater enrichment than DP. A combination of PDGC and DP did not further improve enrichment efficiency, suggesting that PDGC alone is sufficient in P. olivaceus. Second, we optimized cryopreservation conditions according to various cryoprotectants. Among the conditions, SSCs cryopreservation using 1.3 M propylene glycol (PG) as a permeating agent and 0.2 M raffinose (Raf) as a non-permeating cryoprotectant provided the highest cell viability (56.1%), demonstrating a synergistic protective effect. Finally, preliminary in vivo migration and localization ability of the cryopreserved SSCs was confirmed through xenotransplantation into zebrafish (Danio rerio) larvae. PKH26-labeled donor cells exhibited successful initial localization and short-term persistence within the presumptive gonadal ridge of the recipients at 5 days post-transplantation. These findings provide an optimized protocol for the handling and preservation of P. olivaceus germline resources, contributing to the technical advancement of surrogate reproduction strategies in this species. Full article

Microbial inactivation is essential for extending the shelf life of raw milk. Radio frequency (RF) thermal pasteurization has emerged as a promising technology for small-scale dairy processing. This study aimed to determine optimal RF temperature–time conditions, evaluate their effects on milk quality across milk from different species of cows, and assess economic feasibility. Raw milk from Holstein Friesian, Jersey, and Brown Swiss cows was treated using a dielectric heating system (40.68 MHz) at 72–92 °C for 20–100 s. The results were compared with conventional low-temperature long-time (LTLT) pasteurization of untreated milk. The optimal condition was 92 °C for 50 s, reducing the aerobic plate count from 5.80 to 0.69 log CFU/mL (a 5.11 log reduction), with no detection of Staphylococcus aureus, Bacillus cereus, and Escherichia coli. RF treatment did not significantly affect milk composition (p > 0.05), and color changes remained within acceptable limits. Milk stored at 4 °C maintained quality and safety for up to 28 days. Economic analysis indicated a net present value of USD 134,721.78, a benefit–cost ratio of 3.25, and a payback period of 6.8 months, confirming economic feasibility. These findings demonstrate that RF pasteurization can improve processing efficiency and support sustainable dairy production. Full article

Microplastics are widespread environmental contaminants with adverse health impacts. The gastrointestinal tract represents a primary site for host–microplastic contact and interactions, but microplastic-driven perturbations of the gut microbiome and how they mediate toxicity to the gut and host’s health remain poorly elucidated. In this study, zebrafish (Danio rerio) were exposed to environmentally ubiquitous polyester microplastics and investigated for acute dysbiosis and host–microbiome molecular responses using an integrated histological and multi-omics approach. Gut transcriptomic results first revealed initial dysregulations under microplastic stress, increasing energy–metabolic activity and suppressing detoxification-associated pathways on day 3, followed by downregulated gut epithelial maintenance and anti-inflammatory responses by day 7. During this process, opportunistic bacterial taxa such as Edwardsiella and the microbial antioxidant biosynthesis pathway can be enriched transiently. The limited structural damage and modest microbiome alterations observed after acute exposure, however, may suggest partial resilience of the host gut and microbiome. This study demonstrates microplastic-induced gut impairment and host–microbiome responses to acute polyester microplastic stress, providing evidence to enable better characterization of the gut health risks associated with microplastic contamination. Full article

Background/Objectives: Diabetes mellitus is a chronic metabolic disorder characterized by hyperglycemia, dyslipidemia, and oxidative stress, leading to severe systemic complications. Medicinal plants rich in polyphenolic compounds have gained increasing attention as complementary therapeutic agents. This study aimed to comparatively evaluate the chemical composition, as well as the antidiabetic, hypolipidemic, and antioxidant effects of Polygonum persicaria and Vaccinium myrtillus in a streptozotocin-induced diabetic model. Although Vaccinium myrtillus has been more extensively investigated for its antidiabetic potential, the pharmacological relevance of Polygonum persicaria in diabetes remains insufficiently characterized, particularly in direct comparison with a recognized phytotherapeutic comparator. Methods: Hydroalcoholic tinctures prepared from Polygonum persicaria L. herb and Vaccinium myrtillus L. leaves were subjected to phytochemical analysis using High-Performance Thin-Layer Chromatography (HPTLC) for the identification of flavonoids and phenolcarboxylic acids, alongside spectrophotometric determination of total polyphenol and flavonoid content. Experimental diabetes was induced in CD1 mice by streptozotocin administration. Animals were treated orally for 35 days, and glycemic parameters, lipid profile, body weight, food and water intake, and oxidative stress markers (MDA, SOD, TAC, and GPx) were evaluated. Results: HPTLC/CSS screening indicated the presence of rutin, chlorogenic acid, and caffeic acid in Polygonum persicaria, while Vaccinium myrtillus showed stronger densitometric signals for phenolcarboxylic acid-type compounds, particularly chlorogenic and caffeic acids. Total polyphenol and flavonoid content were also higher in Vaccinium myrtillus (433.89 ± 8.67 mg/L GAE; 154.38 ± 3.08 mg/L QE) compared to Polygonum persicaria (269.28 ± 5.25 mg/L GAE; 132.75 ± 2.65 mg/L QE). Functionally, Vaccinium myrtillus demonstrated a significant antihyperglycemic effect from day 14 (p = 0.009) and improved lipid parameters, while Polygonum persicaria showed a delayed glycemic effect, significant only at day 35 (p = 0.014), without significant hypolipidemic activity. In contrast, Polygonum persicaria exerted a marked antioxidant effect, significantly increasing GPx activity (p = 0.025) and reducing MDA levels (p = 0.053). Conclusions: Vaccinium myrtillus showed stronger antihyperglycemic and hypolipidemic effects, while Polygonum persicaria was mainly associated with antioxidant-related biochemical changes. These differences may be influenced by phytochemical composition, but they cannot be attributed solely to total polyphenol or flavonoid content. Full article

Clarithromycin is a widely prescribed macrolide antibiotic that can enter soils using sewage treatment plant effluents, where it is frequently detected. Because it could exert selective pressure on soil microbes, this study examined whether bacterial communities in 12 agricultural soils developed tolerance to clarithromycin after 42 days of exposure to different clarithromycin concentrations (7.8 mg kg⁻¹–2000 mg kg⁻¹). Results showed that tolerance increased in a clear dose-dependent manner and was significantly higher than in control soils at concentrations of 31.3 mg kg⁻¹ and above. Soil characteristics also shaped the response. At lower clarithromycin doses, tolerance was restricted in those soils with higher values of _eCEC, clay content, organic carbon, and C/N ratio. At higher doses, tolerance increased with pH, likely due to increased clarithromycin bioavailability. This study provides evidence of the impact of clarithromycin on soil microbiota and suggests that contamination by this antibiotic may promote the development of bacterial tolerance. Future studies should be carried out to further clarify the factors that influence the development of tolerance and also to determine the possible spread of this resistance in the environment. Full article

Soil pH constitutes a key factor in the nutrient availability and initial growth of maize (Zea mays L.). Inadequate management of soil pH can lead to problems in plant growth, which may result in reduced food production yields and agricultural investment. To evaluate the effects of pH dynamics on seedling development in soils, not only was a correlational and quantitative study conducted, which included a completely randomised laboratory experiment design with three treatments (pH < 6, pH > 7, and pH 6–7), each with five replicates, but a systemic analysis using a causal map also described the impacts of pH on plant growth. The initial pH was measured every four days, as were the germination rate, electrical conductivity, and final biomass. The results show that in alkaline soil, seedling germination is reduced by 87%, whilst in acidic soil it is reduced by 80% in comparison to the neutral scenario. pH values are therefore shown to affect early development due to reduced nutrient availability. These results reveal the need for the consideration of measures that influence management practices for the promotion of uniform and sustainable growth to favour the early establishment of crops such as native maize. Full article

Background: Robot-assisted radical prostatectomy (RARP) is the predominant surgical approach for localized prostate cancer in high-volume centers worldwide. However, comprehensive real-world data describing complete institutional transition from open to robotic surgery remain limited. This study evaluated perioperative and early oncological outcomes of a contemporary RARP cohort and characterized the transition from open radical prostatectomy (ORP) to RARP in a European center. Methods: We analyzed 520 consecutive patients who underwent RARP between January 2023 and December 2025. Perioperative, pathological, and biochemical outcomes were assessed. Biochemical recurrence was defined as prostate-specific antigen ≥0.2 ng/mL. Institutional data from 2011 to 2025 were reviewed to evaluate procedural trends and the transition from ORP to RARP. Surgeon-specific and institutional learning curves were analyzed using operative time and linear regression models. Results: Following the introduction of robotic surgery in 2018, annual RARP volume increased from 37 procedures to 205 in 2025. Since 2023, RARP accounted for more than 99% of all radical prostatectomies. Median operative time decreased from 185 min in 2023 to 165 min in 2025, with consistent downward trends observed across all surgeons. Linear regression confirmed progressive improvement in operative efficiency, with learning rates ranging from −0.22 to −0.92 min per case. Estimated blood loss was minimal, no patients required transfusion, and major complications occurred in four patients (0.8%). Hospital stay decreased from 2 days to predominantly 1 day. During follow-up, 36 patients developed biochemical recurrence or PSA persistence. Biochemical recurrence-free survival differed significantly according to pathological stage (log-rank p < 0.001), with 24-month estimates of 93.7%, 91.5%, and 82.1% for pT2, pT3a, and pT3b disease, respectively. Conclusions: RARP provides favorable perioperative safety, minimal morbidity, and favorable early oncological outcomes in a high-volume setting. The complete institutional transition from ORP to RARP, together with demonstrated surgeon-specific and institutional learning effects, supports the feasibility and safety of implementing RARP as the institutional standard within a structured robotic program. Full article

Climate change is progressively altering the thermal environment of European agriculture, with direct consequences for high-value perennial crops such as olive (Olea europaea L.) and grapevine (Vitis vinifera L.). Although the Growing Degree Days (GDD) index is widely applied to characterize crop thermal requirements, no systematic evidence exists on the actual GDD values accumulated at the locations where these crops are currently grown across Europe. This study introduces a “reverse agroclimatology” approach that anchors GDD calculations exclusively to olive grove and vineyard areas identified in the Corine Land Cover (CLC) dataset for five reference years (1990, 2000, 2006, 2012, and 2018), using ERA5-Land reanalysis daily temperature data as the climatological input. For each CLC reference year, GDD was computed for olive cultivation (T_base = 7 °C, January–May) and viticulture (T_base = 10 °C, April–October) exclusively over registered cultivation pixels, and per-country means were subjected to linear regression trend analysis (p < 0.05). For olive cultivation across 11 Mediterranean countries, statistically significant positive GDD trends were detected in 7 countries, with long-term (1985–2023) country means ranging from 476.2 GDD in France to 1214.3 in Cyprus, indicating that we can revise the known GDD thresholds. The first appearance of olive cultivation in Slovenia’s 2012 CLC dataset, with a median of 546.5 GDD, provides land use-mapped evidence of a spatial displacement of cultivation boundaries. For vineyard cultivation across 22 European countries, significant positive trends were identified in 18 countries, with warming rates reaching 19.25 GDD yr⁻¹ in Turkey, 15.83 GDD yr⁻¹ in Albania, and 14.89 GDD yr⁻¹ in Bosnia and Herzegovina. Mediterranean and Balkan vineyards already exceed the classical 2000 GDD threshold of viticultural suitability across all reference years. In contrast, central and northern European registered vineyards operate below it, though their warmest sites are increasingly approaching or crossing it in the most recent periods. The cultivation-anchored GDD framework, built on openly available data and a fully reproducible R-based pipeline, provides a practical and updatable tool for monitoring the evolving thermal conditions of European olive and wine production under ongoing climate change. Full article

Aging disrupts sleep, but how these changes are structured across circadian time, vigilance states, and sex remains poorly understood, because most prior studies used single-sex cohorts and few days of recordings. We continuously recorded 14 days of EEG/EMG in 24 C57BL/6J mice using a balanced 2 × 2 design (young vs. old; male vs. female; n = 6/group). A comprehensive multiscale analysis of the extended dataset enabled detailed reconstruction of 24 h sleep–wake architecture, better characterization of natural day-to-day variability including across multiple estrous cycles, and detection of rare bouts and transition events. Across seven levels of analysis, from circadian profiles to EEG spectral parameterization, the strongest aging effect was a dark-phase-specific 17–18% loss of theta-dominant active wake (TDW) in both sexes, with reciprocal increases in quiet wake (nTDW) and NREM sleep. We also identified a recurring N-shaped structural motif at the dark-to-light transition, where age-related and several sex-associated differences were most apparent. Broadly, old mice exhibited (i) shorter TDW bouts; (ii) a shift in NREM exit kinetics toward wakefulness; (iii) more brief and poorly consolidated “out-block” NREM episodes; and (iv) a slowing of waking theta and higher low-frequency TDW power. Variance decomposition indicated that statistical power depends more on sample size than on recording length. Together, aging reflects a coordinated, circadian-phase-specific reorganization of sleep–wake architecture. Sex-related and interaction findings should be interpreted as hypothesis-generating pending larger cohorts. Full article

Botrytis cinerea is a major phytopathogenic fungus responsible for substantial economic losses in horticultural crops, underscoring the need for sustainable alternatives to synthetic fungicides. This study investigated the influence of physical, chemical and biological culture parameters on the antifungal activity of culture filtrates produced by Trichoderma harzianum BOL-12QD. Culture conditions were sequentially optimised by evaluating light-filter exposure, carbon and nitrogen source composition, potato ecotype selection, co-cultivation with Botrytis cinerea, and volatile-mediated interactions. Antifungal activity was assessed using mycelial growth inhibition assays against Botrytis cinerea. Among the individual factors, violet-filter illumination, a medium containing 5 g L⁻¹ glucose and 250 g L⁻¹ potato extract, the Leke Pek’e potato ecotype, ammonium nitrate as nitrogen source, and co-cultivation with Botrytis cinerea at 10⁴ conidia mL⁻¹ produced the highest inhibitory effects. Sequential integration of these optimised conditions resulted in enhanced antifungal activity, reaching up to 62% inhibition. Volatile organic compounds produced by Trichoderma harzianum BOL-12QD exhibited only minimal antifungal activity under the conditions tested, suggesting that volatile-mediated antagonism plays a limited role in this system. In contrast, culture-dependent modulation of extracellular metabolite profiles was evidenced by comparative ¹H NMR fingerprinting, which revealed condition-specific spectral differences, with the optimised treatment displaying a distinct metabolic signature relative to all other conditions. Cytotoxicity assays in murine peritoneal macrophages showed no significant reduction in cell viability at concentrations up to 200 μg mL⁻¹. In vivo exposure to the optimised culture filtrate (250 mg kg⁻¹ d⁻¹ for 10 days) induced transient treatment-related clinical observations without mortality, indicating a need for further detailed toxicological characterisation. Overall, these findings demonstrate that the antifungal activity of Trichoderma harzianum BOL-12QD is strongly modulated by interacting environmental, nutritional and biological culture parameters. The results support the potential of optimised culture filtrates as a source of bioactive metabolites for biocontrol applications, while highlighting the importance of integrated biochemical and toxicological evaluation. Full article