Search Results (5,121)

Background: Rheumatoid arthritis (RA) is a chronic autoimmune disease, with key features being synovial hyperplasia, autoantibody production, and ultimately cartilage and bone destruction. The pathogenesis of rheumatoid arthritis (RA) is not fully understood, but it is estimated that genetic factors account for 50–60% of the risk, with the remainder attributed to environmental factors, including infectious agents, smoking, gut microbiota, and diet. Given that most current clinical trials on RA and nutrition are limited in sample size and duration, there is an unmet need for higher-quality studies in the future, a need that EULAR has already recognized. Objective: This article aims to investigate the impact of diet and nutritional factors on the development, progression, and potential prevention of RA. Specifically, it provides a comprehensive review of certain foods, such as alcohol, gluten, red meat, and saturated and trans fats, and their contribution to the onset and progression of rheumatoid arthritis (RA). In addition, it examines the effect of key anti-inflammatory nutrients in reducing the risk of RA, including olive oil, fatty fish, juices, and certain fruits. Finally, it discusses the potential protective effects of certain dietary patterns, such as the Mediterranean diet (MD) and diets rich in omega-3 polyunsaturated fatty acids (PUFAs). Methods: A comprehensive literature search was conducted in the PubMed/Medline, Science Direct, and Scopus databases (1990–2025). English-language observational studies, clinical trials, and systematic reviews addressing the relationship between diet and dietary patterns and RA were included. Results: High consumption of red and processed meat, saturated and trans fats, sugary drinks, and gluten (in vulnerable individuals) is associated with increased RA risk and greater disease activity, partly through pro-inflammatory pathways and gut dysbiosis. In contrast, regular intake of olive oil, fatty fish rich in omega-3 polyunsaturated fatty acids, fruit juices, cocoa, certain fruits, and vitamin D appears protective and may reduce disease activity and symptom severity. Adherence to anti-inflammatory dietary patterns, particularly the Mediterranean diet and diets rich in omega-3 fatty acids, is consistently associated with a lower incidence of RA, reduced inflammatory markers, and improved clinical outcomes. However, most available studies are limited by small sample sizes, short duration, heterogeneous methodologies, and potential confounding by other lifestyle factors (e.g., smoking, obesity). Conclusions: Although an appropriate diet and dietary habits cannot replace pharmacological therapy, current knowledge supports the inclusion of an anti-inflammatory diet as an adjunct strategy in the prevention and management of RA. The relatively limited studies that have been conducted suggest that high-quality, large-scale, prospective studies are needed to prevent and treat RA. These studies should incorporate genetic, microbiome, and long-term clinical endpoints, so as to establish definitive dietary recommendations and allow for personalized nutritional interventions for patients with RA. Full article

Background: Pediatric hypertension is an increasingly recognized health concern and is commonly influenced by modifiable factors such as dietary sodium intake and obesity and non-modifiable factors like family history of hypertension. Urinary sodium excretion provides an objective surrogate marker of sodium consumption and may be associated with blood pressure severity. This study aimed to evaluate urinary sodium excretion in children with primary hypertension (PH) and to test the hypothesis that higher sodium excretion is associated with less favorable clinical, biochemical, and blood pressure parameters. Methods: This retrospective, cross-sectional, single-center study analyzed data from 369 hypertensive patients and 59 healthy children. Patients with a confirmed diagnosis of PH and ambulatory blood pressure monitoring results were included in the study group. Clinical, anthropometric, laboratory, echocardiographic, and blood pressure data were examined, and sodium excretion was evaluated using both the spot urine sodium-to-creatinine ratio and 24-hour urinary sodium per kilogram of body weight. Results: Children with hypertension exhibited higher urinary sodium excretion compared to the control group. Sodium excretion of the hypertensive group, measured using the sodium/creatinine ratio and 24 hour urinary sodium excretion per kilogram, was positively correlated with 25-hydroxyvitamin D, the urinary potassium/creatinine ratio, and the urinary uric acid/creatinine ratio. Moreover, negative correlations were observed for both parameters with age, body weight, serum uric acid, and left ventricular mass. In the multivariate analysis, weighted Z-score (beta = −0.393), age (beta = −0.293), 25-OHD (beta = 0.182), and arterial hypertension in the father (beta = 0.166) predicted 24 h urinary sodium excretion. Children with excessive sodium excretion had a significantly higher systolic blood pressure load over 24 h. Conclusions: Urinary sodium excretion is elevated in children with PH. Children with a lower weight for their age, who are younger, and who have a father with arterial hypertension might be at higher risk of excessive urine excretion. Our findings underscore the clinical importance of dietary sodium reduction as a non-pharmacological therapeutic target, especially in these patient populations. Prospective studies are needed to evaluate its impact on long-term cardiovascular outcomes in this population. Full article

Tetrodotoxin (TTX) is an extremely potent neurotoxin, a selective blocker of voltage-gated sodium (NaV) channels, produced by bacteria and accumulated across a wide range of taxa. Several TTX-bearing animals have developed molecular adaptations in their NaV channels that provide TTX resistance, making this toxin one of the factors of molecular evolution. However, the molecular basis of TTX resistance in NaV channels of a significant proportion of tetrodotoxic species remains poorly studied. Nemertea is a phylum of marine worms, comprising both TTX-bearing and non-TTX-bearing species. Here, we analyzed the amino acid sequences of the NaV1 channel regions responsible for TTX binding from 22 species of nemerteans. Substitutions previously characterized as conferring TTX resistance in other taxa were detected in sixteen nemerteans; local clustering was observed within several families. These findings suggest that TTX resistance in nemerteans evolved multiple times independently and may serve as either as an adaptation facilitating TTX accumulation for subsequent use for defense and predation, or as a mechanism allowing consumption of tetrodotoxic prey without toxin accumulation. Full article

Chemical recycling is one of the most prominent techniques that enables monomer recovery for plastics like polyethylene terephthalate (PET), which ultimately reduces the dependency on virgin material inputs. In this study, 40 deep eutectic solvents (DESs) were pre-screened using COSMO-RS to identify the best solvent for chemical recycling of PET. Quantitative evaluation was performed based on activity coefficients (γ) to assess solute–solvent interactions. Qualitatively, the sigma profile and sigma potential were analyzed to understand the polarity and affinity of each DES component. This study experimentally validated the two top-performing DESs based on COSMO-RS output. The DES formed by combining thymol with phenol (Thy/Phe (1:2)) achieved 100% PET degradation and 94.5% terephthalic acid (TPA) recovery from post-consumer PET in just 25 min. The rapid dissolution of PET into molten state accelerated the hydrolysis reaction, leading to efficient monomer recovery. The second DES, tetrabutylammonium bromide/sulfolane (TBABr/Sulf (1:7)), attained 93.7% PET degradation and 94% TPA recovery. The PET-to-solvent ratio used in this study was 0.75, while the PET-to-DES ratio in the mixture was only 0.15, the lowest reported for DES-assisted hydrolysis to date. Characterization of the recycled TPA confirmed a purity level comparable to its virgin grade, as verified by FT−IR analysis. This study presents two important outcomes. First, the use of COSMO-RS for DES selection provides a strong rationale for solvent choice in targeted reactions and processes. Second, the use of appropriate DES in this study helps reduce key parameters associated with depolymerisation process, including reaction time, temperature, and catalyst consumption. Full article

This study focuses on improving the fatigue strength and overall performance of sustainable biopolymer polylactic acid (PLA) components manufactured via Fused Deposition Modelling (FDM) additive manufacturing process. PLA, as a biodegradable and renewable polymer derived from natural resources, represents a promising alternative to conventional petroleum-based plastics in engineering and research applications. The influence of key FDM process parameters—layer height, infill density, and number of perimeters—on critical performance indicators such as filament consumption, printing time, and fatigue strength (number of cycles to failure) was systematically analyzed using the Taguchi L9 orthogonal array. Subsequently, Grey Relational Analysis (GRA) was applied as a multi-objective optimization technique to identify the parameter settings that achieve an optimal balance between mechanical durability and resource efficiency. The obtained results demonstrate that a proper combination of process parameters can significantly enhance the mechanical reliability and sustainability profile of FDM-printed PLA parts, contributing to the broader adoption of eco-friendly materials in additive manufacturing. Full article

At present, phosphogypsum, as an industrial by-product, is a solid waste in phosphoric acid production, and its accumulation has caused serious environmental pollution. Furthermore, due to the insufficient insulation properties of traditional wall materials, the issue of a rising proportion of building energy consumption in total social energy consumption has become increasingly pressing. The study investigated vitrified beads as a light aggregate and phosphogypsum, mineral powder, and quicklime as an inorganic composite cementitious system to prepare the phosphogypsum-based lightweight thermal insulation material. The effect mechanism of the initial material ratio on the mechanical properties and micro-morphology of insulation materials was studied by macroscale mechanical property testing, X-ray diffraction, and scanning electron microscopy. Meanwhile, in order to meet the performance indexes specified in relevant standards, insulation materials were modified by adding sulfate aluminate cement, basalt fibers, and a waterproof agent to improve the strength, toughness, and water resistance. Based on the single-factor experimental design, the optimal dosage of various admixtures was obtained. The results indicated that the optimal properties of the sample were achieved when the binder–bead ratio was 1:4, the water–binder ratio was 1.6, the dosage of hydroxypropyl methylcellulose was 0.1%, and the solid content of waterborne acrylic emulsion was 24%. The optimal dosages of cement and fibers were 8% and 0.9%, respectively. The cement hydration products and gypsum crystals lapped through each other, filling the pores in the matrix and increasing the strength of the sample. In addition, the fibers could form a disordered network structure inside the matrix, disperse external force, weaken the stress concentration at the tip of internal cracks, and significantly improve the toughness of the modified sample. By incorporating 2.0% paraffin emulsion in the mortar and spraying 5 dilutions of sodium methyl silicate on the external surface, dense protective layers were formed both inside and outside the modified sample. The water absorption rate reduced from 30.27% to 23.30%, and the water resistance was increased to satisfy the specified requirement for the insulation material. Full article

Restrictive regulations on the use of peat and increasing consumption in modern horticulture production have created an irreconcilable contradiction. Wood fibers (WF) produced from forestry residues are considered as a promising peat substitution. However, their poor water- and nutrient-holding capacity limit their application. Here, wood fiber–hydrogel composite (WF-Gel) was developed via a one-pot strategy by grafting poly(acrylic acid-co-acrylamide) (P(AA-co-AM)) onto WF. The structure of the hydrogel network incorporated with WF was confirmed by FTIR spectrophotometry, scanning electron microscopy, X-ray diffractometry, and thermogravimetric analysis. The growing substrate amended with WF-Gel showed higher physical properties, including water-filled porosity (~62.33%) and water-holding capacity (~44.93%) compared with peat incorporated with WF. The pot experiment revealed that WF-Gel significantly increases the chlorophyll content and relative growth rate of choy sum (Brassica rapa var. parachinensis), especially at the initial transplanting stage. Moreover, choy sum grown in a substrate containing WF-Gel showed a significant increase in biomass accumulation. Additionally, nutrient content and irrigation water-use efficiency data indicated that WF-Gel as a growing medium strongly promotes the water and nutrient efficiency of choy sum. Therefore, the incorporation of this hydrogel modification strategy is a promising approach to promote the water- and nutrient-use efficiency of WF as a soilless substrate component. Full article

The continuous fossil fuel exhaustion, as well as the increasing environmental challenges that are occurring globally, has underscored the need for research on alternative pathways of producing biofuels that will minimize aviation emissions over the next decades. The present review explores the employment of diverse waste sources as feedstock and enzymes as catalysts as environmentally friendly methods for producing sustainable aviation fuels (SAF). To achieve this goal, a comprehensive review was conducted using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses. The results demonstrated that waste feedstocks catalyzed by enzymes represent an innovative alternative for SAF production. Specifically, the combination of enzymatic hydrolysis and microbial fermentation demonstrated considerable effectiveness in transforming complex waste feedstocks, such as lignocellulosic biomass, municipal solid waste, and food waste, into SAF precursors, including bio-isobutene and fatty acid methyl esters. Moreover, employing Chlorella variabilis fatty acid photodecarboxylase enzymes for photoenzymatic decarboxylation demonstrated significant conversion efficiency, particularly under gentle conditions, low energy consumption and remarkable selectivity. However, further research and development of the reviewed methods are necessary to enable the industrialization of these technologies. Full article

Grape pomace is the principal by-product of the winemaking industry, with an estimated global production of 14 million tonnes annually. Traditional livestock systems often incorporate local agroindustrial by-products into ruminant diets, and grape pomace is particularly notable for its high concentrations of bioactive compounds. These grape-derived molecules may exert beneficial effects on animal oxidative balance, biochemical status and productive performance, offering an environmentally and economically sustainable alternative to conventional feed ingredients that may be incorporated into the milk produced. This study evaluated the impact of incorporating varying inclusion levels (0, 5, 10 and 15% DM) of ensiled white grape pomace (WGP) into isoenergetic and isoproteic diets on the nutritional and technological characteristics of goat milk. Eighty-eight Murciano-Granadina dairy goats were selected and allocated into eight homogeneous batches (n = 11 per batch) based on physiological traits. Following a pre-experimental sampling, each diet was randomly assigned to two batches, and the feeding trial lasted eight weeks. After a two-week dietary adaptation period, four biweekly samplings were conducted to obtain representative bulk tank milk samples from each batch. Milk samples were analysed for gross composition, pH, mineral profile, fatty acid composition, coagulation properties, colorimetric parameters and antioxidant capacity. WGP consumption significantly increased milk fat content, improved the lipid profile from a human health perspective, accelerated curd aggregation and elevated the yellowness index. Moreover, notable changes were observed in the antioxidant activity of the milk. Despite these effects, the overall composition of the milk remained largely unchanged, which is a key factor in preserving its technological properties. Nevertheless, the final product demonstrated enhanced biological quality, reinforcing its value as a functional food for human consumption. Full article

The key technological step in realizing the energy utilization of cellulose lies in the hydrolysis of cellulose into glucose. To achieve clean and efficient energy utilization of cellulose, this study innovatively proposes a technical approach of plasma acid synchronous catalytic hydrolysis of cellulose, which breaks through the limitations of conventional stepwise acid-production hydrolysis and enables the simultaneous generation of acid and hydrolysis of cellulose within the same reaction system. The effects of operating voltage, discharge gap, and reaction time on hydrolysis efficiency were systematically investigated, and a comparative study was conducted on the hydrolysis performance between the synchronous method and the two-step method. The results indicate that within the same reaction duration, the synchronous method demonstrates a significantly higher cellulose conversion rate. Specifically, at a reaction time of 60 min, the average conversion rate of the synchronous method is approximately 32.8% higher than that of the two-step method, while the average specific energy consumption is only 16.7% of the latter. Mechanism analysis reveals that the high-energy electrons and H⁺ generated by plasma discharge effectively facilitate efficient energy transfer to cellulose molecules, significantly reducing the activation energy of the hydrolysis reaction. This process accelerates the efficient release of glucose units, thereby enabling faster hydrolysis at lower energy consumption. Full article

Background/Objectives: Hodgkin’s lymphoma (HL) is a cancer of the lymphatic system, the etiology of which remains partially unexplained, and environmental factors, including nutritional factors, may play an important role in its development and clinical course. The aim of this review was to examine the available literature on the impact of nutrition on the development and mortality of Hodgkin lymphoma. Methods: We conducted a literature review using databases, including publications from the last 10 years on nutrition and HL. Eventually, 3 publications were included in the review. Conclusions: Available data suggest that a diet rich in vegetables, fruits, fiber, and omega-3 fatty acids may have a protective effect, reducing the risk of developing Hodgkin’s lymphoma and improving prognosis and survival through anti-inflammatory and immune-supporting effects. On the other hand, excessive consumption of saturated fats, simple sugars and processed meat products can promote cancer transformation and worsen the course of the disease. Despite the promising results, further, well-designed prospective and interventional studies are needed to unequivocally determine the role of nutrition in the etiopathogenesis and treatment of HL. Full article

Cold-water fish, particularly stenothermal species, are increasingly affected by rising temperatures driven by global warming. To explore the hepatic metabolism mode of Amur grayling under warming, Thymallus grubii was selected as the experimental model. Here, we measured the oxygen consumption rate (MO₂), energy metabolism enzymes, and transcription profiling in Thymallus grubii that was exposed to increased temperatures (9, 12, 15, 18, 21, and 24 °C) with the same flow velocity (34 cm/s). In this study, MO₂ initially increased and then decreased with rising temperature, with peak sensitivity between 12 and 15 °C (Q₁₀ = 5.30). Hemoglobin increased significantly at 12–18 °C but decreased in the 18–24 °C group (p < 0.05). Additionally, hepatic glycogen content (the amount of stored sugar in the liver, which serves as an energy reserve) also first increased and then decreased markedly (p < 0.05). Lactic acid in plasma and muscle contents increased, but creatine phosphate and glucose levels significantly decreased (p < 0.05). The result of transcriptome analysis showed that individuals in the 15 °C group could supply energy through glucose and amino acid metabolism. In contrast, individuals under 21 °C exposure could mainly supply energy through the lipid metabolism pathway. Our study underscores the vulnerability of Amur grayling to environmental temperature and identifies the instantaneous metabolic limit range, providing numerical limits (e.g., maximum river temperature) that managers can use to protect wild populations. Full article

Background/Objectives: Testosterone and cortisol are key regulators of metabolic, psychological, and physiological responses to environmental and lifestyle factors. This study aimed to analyze the relationship between free testosterone and cortisol concentrations and dietary patterns, stress levels, sleep quality, physical activity, and body composition in healthy young men (aged 18–35 years). Methods: This study included 40 volunteers who met our inclusion criteria. They underwent anthropometric measurements, body composition analysis, and biochemical determination of serum free testosterone and cortisol concentrations. Additionally, participants completed a set of validated questionnaires: a questionnaire regarding the frequency of consumption of specific foods and stimulants, a 3-day food diary, the PSS-10, the Holmes and Rahe Scale, the PSQI, and the Baecke Physical Activity Questionnaire. Results: Free testosterone concentration in blood was negatively correlated with body fat content and positively correlated with the percentage of energy, protein, fat, sodium, and folic acid requirements. Morning blood cortisol levels negatively correlated with body weight and height. Higher intakes of cholesterol, folic acid, and vitamin A resulted in statistically significant reductions in cortisol levels. A significant correlation was identified between poor sleep quality and low cortisol levels, particularly among men aged < 26 years. A positive correlation was also found between leisure-time physical activity and testosterone levels, particularly in the older group. Furthermore, a higher body weight and greater muscle mass were correlated with lower cortisol levels. Conclusions: These results provide a starting point for further research on neuroendocrine mechanisms in active individuals exposed to environmental stress. Full article

The pomegranate (Punica granatum L.) fruit peel is an agro-industrial by-product rich in bioactive compounds. In this study, the bioactivity of pomegranate peels (cv. Ako) extracted with acetone, diethyl ether, and n-hexane was assessed by evaluating toxic (contact and ingestion), repellent, antifeedant, and nutritional effects towards Sitophilus granarius (L.) (Coleoptera, Curculionidae) adults. Contact toxicity assays revealed significant mortality induced by the acetone and n-hexane extracts, with 24-h LD₅₀ values of 76.93 and 81.14 $\mathsf{\mu }$g/adult, respectively. In ingestion bioassays, at the highest dose tested (750 $\mathsf{\mu }$g/disk), the acetone pomegranate peel extract showed a strong feeding deterrence (FDI: 80%), and significantly reduced food consumption (RCR) and relative growth rate (RGR). In filter paper repellency assays, the acetone extract induced positive contact repellency, with PR values ranging from 80% to 30%. GC-MS analysis identified sitosterol, 9,12-octadecadienoic acid, and $\alpha$-tocopherol as the major constituents of the acetone extract. These results highlight the potential of pomegranate peel as a sustainable source of bioactive compounds for stored-product insect pest management. Full article

Background: Vitamin C deficiency remains an under-recognized condition in children, especially in Southeast Asia. This study aimed to study the clinical characteristics, dietary risk factors, and outcomes of pediatric vitamin C deficiency in a tertiary hospital in Southern Thailand. Methods: This retrospective study reviewed the medical records of children aged 1 to 15 years diagnosed with vitamin C deficiency from 2004 to 2024. Diagnosis was based on serum ascorbic acid levels below 0.4 mg/dL, or clinical-radiographic findings. Data collected included demographics, developmental status, dietary history, clinical presentations, radiological and laboratory results, treatment, and outcomes. Results: Forty-six children were diagnosed; the median age was 4.8 years, and 60% were male; developmental delay was present in 54.4%. The majority had poor dietary intake, with 73% not consuming adequate fruits and vegetables; no significant differences were observed when classified by developmental status. Common clinical signs included: limb pain (76.1%), refusal to walk (52.2%), and bleeding gums (39.1%). Radiographs showed osteopenia in 73.8% and white line of Frankel in 47.6%. Serum ascorbic acid deficiency was significantly associated with low fruit and vegetable intake and excessive milk consumption over the recommendations (p < 0.05). Treatment with oral vitamin C resulted in clinical improvement; although, residual symptoms persisted in some cases. Conclusions: As pediatric vitamin C deficiency is still of concern, this study highlights the importance of early detection in at-risk children and the critical role of detailed dietary history to identify inadequate nutrition. Prompt recognition and intervention can prevent misdiagnosis and improve clinical outcomes. Hence, strengthening parental education on nutritional intake is essential to reduce future incidences. Full article