Search Results (3,448)

Background/Objectives: Natamycin is an effective antifungal limited by poor solubility. This study aimed to develop and characterize natamycin-loaded liposomal vesicles as a biocompatible delivery system to improve stability and achieve controlled release for potential topical application in the treatment of fungal infections. Methods: Formulations were prepared using two phospholipid mixtures (Lipoid S100 and Phospholipon 90H) via standard (thin-film) and proliposome methods. Evaluation included encapsulation efficiency (EE%), particle size, zeta potential, the polydispersity index (PDI), and rheological properties. In vitro release kinetics were compared to a natamycin solution. Antifungal efficacy was tested against four Candida strains to determine minimum inhibitory and fungicidal concentrations (MICs and MFCs, respectively) and biofilm inhibition, while biocompatibility was assessed via keratinocyte viability assays. Results: Formulations achieved high encapsulation (~90%). Natamycin incorporation improved homogeneity and reduced particle diameters, particularly in proliposome-derived vesicles, suggesting strong drug–lipid interactions. Preparation method and lipid type significantly influenced properties; thin-film formulations showed a lower PDI and higher stability. Diffusion was twofold slower than the control, with Lipoid S100 proliposomes providing the most sustained release. The liposomes demonstrated robust antifungal activity (MICs: 0.00625–0.2 mg/mL) and effective biofilm inhibition against C. krusei. While high concentrations moderately reduced keratinocyte viability, lower doses remained biocompatible and slightly stimulatory. Conclusions: Lipid composition and preparation methods have minimal impact on the physical properties and in vitro release profiles of natamycin liposomes. These vesicles provide a dose-dependent, biocompatible platform for the controlled delivery of antifungals, showing significant in vitro inhibitory activity against Candida growth and biofilm formation. Full article

Background: Atherosclerosis (AS) remains a leading cause of cardiovascular mortality worldwide and is significantly driven by hyperlipidemia. While ganglioside GM3 is known to regulate cellular lipid metabolism, its systemic pharmacological effects on atherosclerosis remain unclear. This study aims to evaluate the anti-atherosclerotic efficacy of exogenous GM3 and elucidate its underlying systemic mechanisms. Methods: C57BL/6N ApoE^−/− mice fed a high-fat diet were intravenously treated with exogenous GM3 (1 or 4 mg/kg) every three days for 12 weeks. Atherosclerotic progression and lipid profiles were evaluated through histological analyses of the aortic arch and aortic sinus, alongside biochemical and molecular assessments of plasma, hepatic, and intestinal tissues. Results: GM3 treatment significantly reduced plaque formation in the aortic arch and aortic sinus, along with decreased plasma levels of triglycerides, total cholesterol, and LDL-C. Mechanistically, GM3 suppressed hepatic VLDL secretion by downregulating ApoB100 and MTTP expression. Concurrently, hepatic lipid clearance was enhanced via the upregulation of Ldlr, Scarb1, and Lrp1. GM3 also lowered circulating PCSK9 levels and reduced intestinal cholesterol absorption by decreasing NPC1L1 expression. Although GM3 promoted lipid accumulation in the liver, no evidence of liver dysfunction or systemic toxicity was observed. Conclusions: Exogenous GM3 acts as a potent multi-target modulator that attenuates atherosclerosis by coordinating hepatic lipoprotein metabolism and restricting intestinal cholesterol uptake. This multi-organ metabolic partitioning strategy highlights the potential of GM3-based therapeutics for managing complex dyslipidemia. Full article

Background/Aim: Cardiovascular disease (CVD) represents a relevant global public health challenge with dyslipidemia as a major modifiable cardiovascular risk factor (CVRF). Recent advances have introduced injectable lipid-lowering therapies (LLT). Their clinical effectiveness in real-world practice seems to depend not only on pharmacological efficacy but also on patients’ acceptance, adherence, and persistence, influenced directly by perceived barriers and facilitators. The main objective of this scoping review is to map the barriers and facilitators related to the use of novel injectable LLTs among adult patients with dyslipidemia or CVD. Methods: This review was conducted in accordance with JBI methodology and reported according to Preferred Reporting Items for Systematic reviews and Meta-Analyses Extension for scoping reviews (PRISMA-ScR); pre-registration on Open Science Framework (OSF) was performed. A search was conducted in MEDLINE from PubMed, Cochrane Library, Cumulative Index to Nursing and Allied Health Literature (CINAHL) from EBSCOhost, and Google Scholar up to June 2025. Eligible studies included qualitative, quantitative, mixed-methods, and review papers involving adult patients with dyslipidemia who reported experiences, perceptions or challenges related to the use of injectable LLT in any healthcare or community setting worldwide. Two reviewers independently screened studies, selected and extracted data. Results: Out of 665 records identified, 7 studies met the inclusion criteria. Patients’ adherence to injectable LLTs is shaped by psychological fears, prior negative experiences, and perceived efficacy. Satisfaction increases when patients feel supported and informed. Convenience, self-administration, and motivational meaning facilitate persistence. Organizational support and economic accessibility further influence uptake, highlighting that adherence depends on both patient experience and structural factors. Conclusions: Patient acceptance and persistence with injectable LLT depends on a complex interplay of emotional, clinical, organizational and economic factors, beyond pharmacological efficacy alone. Fear of injections, previous statin-related experiences, administrative complexity, and high costs remain major barriers, while shared decision-making, trust in healthcare providers, perceived efficacy, regimen convenience, and supportive structures act as strong facilitators. Addressing these challenges requires multidimensional and multidisciplinary strategies for policy makers and clinical managers. Full article

This study examined the effects of in ovo silver nanoparticle (AgNP) administration on broiler chicken hatchability, growth performance, physiological and metabolic status, antioxidant capacity, and immune responses. A total of 300 fertilized Cobb500 eggs were assigned to five treatments (5 replicates/treatment, 12 eggs/replicate): non-injected control; vehicle control (0.2 mL sterile 0.9% NaCl/egg); and AgNPs at 10, 15, or 20 ppm injected into their amniotic sac on day (d) 18 of incubation. After hatching, 48 chicks/treatment were assigned to 6 replicate cages (8 birds/replicate) for 35 d. In ovo AgNP administration improved hatchability and reduced embryonic mortality (p < 0.05). Post-hatch, birds originating from AgNP-injected eggs had an improved body weight, body weight gain, and feed conversion ratio, with lower feed intake (p < 0.05). AgNP administration elevated hemoglobin, packed cell volume, growth hormone, serum proteins, alanine aminotransferase activity, and creatinine levels (p < 0.05). AgNPs also improved the lipid profile and increased total antioxidant capacity, catalase and superoxide dismutase activities, lysozyme activity, complement 3, and cytokine concentrations and reduced malondialdehyde levels (p < 0.05). Effects were dose-dependent, with 15 ppm generally leading to better outcomes. These findings suggest that 15 ppm AgNP in ovo administration enhances embryonic viability, physiological resilience, and post-hatch performance in broiler chickens. Full article

In this research, the anti-hyperlipidemic effects of hawthorn polysaccharides in experimental mice fed a high-fat diet were thoroughly investigated. The findings indicated that the body and organ weights of the high-fat group (HC) mice increased significantly, fat accumulation was evident, and serum indicators showed elevated lipid levels. After 8 weeks of the intragastric administration of hawthorn polysaccharides, the data showed that the body weight of the hawthorn polysaccharide (HA) group was notably lower than that of the HC group and close to that of the NC group. In addition, the hawthorn polysaccharide intervention improved the symptoms of the mice. In particular, the hawthorn polysaccharide intervention significantly increased HDL-C levels and decreased LDL-C levels in the HA group mice. Furthermore, gut microbiota analysis demonstrated that a high-fat diet altered its structure. The intervention with hawthorn polysaccharides modulated the intestinal flora structure, lowered the F/B ratio, and increased the abundance of beneficial bacterial strains associated with lower blood lipid levels. Full article

Pancreatic lipase (PL) plays a central role in dietary lipid digestion and is a promising target for food-derived inhibitors. In this study, pea protein hydrolysates (PPHs) with PL inhibitory activity were prepared by enzymatic hydrolysis and characterized for their functional and peptidomic properties. Compared with pea protein isolate, PPH showed lower surface hydrophobicity, and moderate antioxidant activity. Peptidomic analysis identified 1740 peptides in the active hydrolysate. Combined in silico screening and in vitro validation further identified three peptides, GFSL, WFE, and FGF, as effective PL inhibitors, with IC₅₀ values of 337.81 ± 17.32, 473.32 ± 19.61, and 689.45 ± 39.32 μM, respectively. Molecular simulations indicated that these peptides interact with the catalytic pocket of PL mainly through hydrophobic interactions, van der Waals forces, and hydrogen bonding, with Ile79 serving as a key residue for peptide recognition. Overall, these findings indicate the potential of pea-derived peptides as natural PL inhibitors and support their application as functional food ingredients for modulating lipid digestion. Full article

Background: Hepatic ischemia–reperfusion injury (IRI) remains a major challenge in liver transplantation (LTx) and hepatectomy. Previous studies identified a 12/15-lipoxygenase (12/15-LOX)-driven lipid peroxidation cascade promoting cell death, whereas glutathione peroxidase 4 (GPx4)-dependent metabolism acts antagonistically. This study investigated whether tacrolimus protects against hepatic IRI through this redox axis. Methods: Male C57BL/6 mice underwent 65% partial hepatic warm ischemia and reperfusion with or without tacrolimus preconditioning. Liver tissue and serum were analyzed by spectral photometry, Western blotting, TUNEL assay, and serum enzyme measurement. Results were statistically analyzed and compared with previously published results of 12/15-LOX inhibition by baicalein pretreatment and its carrier DMSO. Also, the combination of both tacrolimus and baicalein was investigated. Results: Tacrolimus increased the oxidative glutathione activity quotient (GSSG/GSH) by 75.1% (p = 0.0302), attenuated MAPK signaling, reduced SAPK/JNK by 84.6% (p = 0.0059), with ERK1/2 showing a downward trend, decreased Caspase-3 activation by 66.9% (p < 0.001) and PARP cleavage by 59.9% (p = 0.0330), and lowered TUNEL-positive cell death by 61.8% (p = 0.0015). Tacrolimus achieved hepatoprotection comparable to 12/15-LOX inhibition, but without hepatotoxicity, whereas combined treatment conferred no additional benefit yet bore toxic properties. Conclusions: Tacrolimus preconditioning mitigates hepatic IRI through a glutathione-linked redox–signaling–cell death axis and exerts cytoprotective effects beyond immunosuppression. Full article

Cyclocarya paliurus polysaccharides (CPP) possess various physiological functions such as lipid-lowering and antioxidant activities. However, as a complex plant-based dispersion system, the interfacial characteristics of fermented C. paliurus beverages often restrict the release of bioefficacy of the active ingredients. This study investigated the impact of particle size on the colloidal stability and lipid-lowering activity of C. paliurus beverages fermented by Lactobacillus plantarum and established an empirical correlation between the two. While the 200–300 mesh fraction showed superior physical stability, the 40–60 mesh fraction was identified as the optimal formulation in this study when balancing ROS indicators. In vivo assays using Caenorhabditis elegans demonstrated that the 40–60 mesh formulation significantly reduced MDA levels and inhibited lipid accumulation, decreasing TG content by 19–46%. Notably, the average diameter of lipid droplets decreased by 38.4%, promoting the conversion of large storage-type droplets to small/medium-sized droplets with high metabolic activity. This study reveals the trade-off between physical dispersibility and bioavailability, providing a theoretical basis for optimizing the interfacial structure of functional plant-based beverages. Full article

Although neurons are not productively infected by HIV-1, the envelope glycoprotein gp120, detectable in cerebrospinal fluid independently of active viral replication, gains intraneuronal access via lipid raft-mediated endocytosis, macropinocytosis, and retrograde axonal transport, contributing to persistent neurobiological dysfunction within the central nervous system. Once internalized, gp120 is associated with neuronal dysfunction involving convergent pathways, including excitotoxic calcium dysregulation, mitochondrial and metabolic failure, and inflammatory and senescence-associated amplification. These pathways converge on suppression of CREB and BDNF signaling, dismantling the transcriptional and neurotrophic programs required for synaptic maintenance and cognitive resilience. Extracellular vesicle-mediated dissemination and microRNA reprogramming extend gp120-associated neurobiological effects beyond sites of receptor engagement, while gut-derived metabolites, particularly quinolinic acid, lower the excitotoxic threshold through synergistic activation of NMDA receptors. Together, these mechanisms define HAND as a network disorder in which gp120 contributes to persistent neurocognitive dysfunction beyond active viral replication, identifying convergent therapeutic nodes where combination strategies targeting excitotoxicity, mitochondrial dysfunction, and neuroinflammation offer the most promising path toward durable neuroprotection. Full article

This study evaluated the effects of dietary supplementation with goji berries (Lycium barbarum) on the nutritional profile, oxidative stability, and shelf life of rabbit meat. Thirty-two rabbits were assigned to two dietary treatments: a control diet (CN) and the same diet supplemented with 3% dried goji berries (GJ). Proximate composition and fatty acid profile of the Longissimus thoracis et lumborum muscle were determined at dissection, whereas physical, microbiological, and biochemical parameters were evaluated during refrigerated storage (4 °C; 1, 4, and 10 days) and frozen storage (−20 °C; 60 and 120 days). Dietary supplementation significantly modified the lipid profile of the meat, reducing saturated fatty acids and increasing long-chain n-3 and n-6 polyunsaturated fatty acids. During refrigerated storage, lipid peroxidation increased in both groups; however, meat from the GJ group showed significantly lower TBARS values after 10 days (0.22 vs. 0.33 mg MDA/kg; p < 0.001), indicating improved oxidative stability. Lower accumulation of total volatile basic nitrogen (TVB-N), reduced formation of biogenic amines, and slower growth of spoilage-related microbial populations, particularly Pseudomonas spp., were also observed in GJ samples. Overall, the GJ diet improved fatty acid composition and delayed degradative processes during storage, suggesting its potential as a functional feed ingredient to enhance rabbit meat quality and shelf life. Full article

Non-alcoholic fatty liver disease (NAFLD) is characterized by excessive hepatic lipid accumulation and can progress to severe liver injury. Kaempferol (KPF), a plant-derived flavonoid, exhibits lipid-regulatory properties. Tripartite motif-containing protein 56 (TRIM56), an E3 ubiquitin ligase, has been reported to interact with fatty acid synthase (FASN) and limit hepatic lipogenesis. This study investigated whether KPF alleviates NAFLD through modulation of TRIM56-associated lipid metabolic pathways. Molecular docking, molecular dynamics simulations, and cellular thermal shift assays (CETSA) were employed to evaluate the interaction between KPF and TRIM56. High-fat diet-induced NAFLD mice and fatty acid-treated HepG2 cells were used to assess the effects of KPF on hepatic lipid accumulation. Histological analysis, lipid profiling, Oil Red O staining, Western blotting, immunofluorescence, and quantitative PCR were performed. Endogenous co-immunoprecipitation examined the association between TRIM56 and FASN, and siRNA-mediated knockdown of TRIM56 evaluated its functional contribution. KPF significantly reduced serum triglyceride, total cholesterol, and low-density lipoprotein cholesterol levels, ameliorated hepatic steatosis in vivo, and decreased intracellular lipid accumulation in vitro. In silico and CETSA analyses supported the engagement of TRIM56 by KPF. KPF restored TRIM56 expression under steatotic conditions, whereas TRIM56 silencing attenuated its lipid-lowering effects. TRIM56 was confirmed to associate with FASN, and KPF treatment suppressed multiple lipogenic enzymes. These findings indicate that KPF alleviates hepatic steatosis, at least in part, through modulation of TRIM56-associated lipogenic pathways, highlighting TRIM56 as a potential therapeutic target in NAFLD. Full article

Lignocellulosic biomass represents an abundant and renewable carbon source, and its valorization through microalgal cultivation offers a sustainable route to resource-efficient bioprocessing. This study examined the effects of various carbon and nitrogen sources on the growth and lipid metabolism of Desmodesmus subspicatus, with a focus on ryegrass enzymatic hydrolysates as an alternative carbon source. Cultures were supplied with glucose, xylose, or arabinose at different concentrations, along with sodium nitrate or yeast extract, under different carbon-to-nitrogen ratios. Additionally, the impacts of alkaline- and acid-pretreated enzymatic ryegrass hydrolysates were evaluated. Growth was assessed by optical density and gravimetric analysis, and fatty acid profiles by gas chromatography. Glucose supplementation enhanced lipid accumulation, yielding fatty acid profiles dominated by C16 and C18 fatty acids, which are favorable for the quality of the produced biodiesel. Nitrogen limitation further promoted lipid accumulation; cultures supplied with sodium nitrate achieved higher total lipid content, while yeast extract favored greater proportions of PUFAs. Alkaline-pretreated ryegrass hydrolysate supported dose-dependent biomass formation reaching approximately 12 g L⁻¹ at 50%, whereas the acid-pretreated hydrolysate exhibited inhibitory effects at the same concentration. Scale-up in a 1 L photobioreactor yielded lower biomass but higher lipid content with a fatty acid profile shifted to SFA. These results support ryegrass as a viable alternative carbon source and highlight cultivation parameters that influence growth and lipid quality relevant for biofuel applications. Full article

Canola meal, with environmentally friendly attributes, lower cost, and previous studies, is an interesting proteic source to partially replace the soybean meal for poultry nutrition. For that, in this work we aimed to investigate canola meal as a partial replacement of soybean meal in finishing poultry diets (21 to 49 days) on the productive performance, also including the impact on the quality, nutritional attributes and antioxidative status of valuable cuts of meat. Ninety-six 21-day-old chickens were assigned to four experimental diets (24/diet), with increasing doses of canola meal (CM 0, 2.5, 5 and 10%). Daily consumption, weekly live weight and post mortem carcass weight and yield were determined. At 24 h post mortem, pH, color (CIE L, a*, b*) and drip loss were measured in the breast, drumstick and thigh cuts. Fatty acid composition and health lipid indexes were also determined in the fresh cuts. The oxidative status of lipids and proteins, polyphenol and flavonoids content in fresh and in stored (7 days-display at 4–6 °C) in vacuum packaged cuts were determined. Including CM, up to 10%, the feed intake and growth of birds was not affected (p = 0.74 and p = 0.87 respectively). In meat, CM significantly decreased the drip loss (p < 0.05), the pH in breast and thigh (p = 0.01 and p = 0.05 respectively), a lower L and b in thigh and increased PUFAs in more oxidative cuts, with a strong interaction between dose and muscle type. There was no effect on lipid oxidation while carbonyls decrease at a 2.5% dose in fresh and stored cuts but there is an increase with higher ones. Flavonoids raise the maximum deposition in meat at 5% CM. In conclusion, CM can be included in finishing poultry diets, but high doses must to be adequately managed if performance and quality of meat criteria are considered together. Full article

To elucidate the sources and spatial variations in organic matter in surface sediments from Lingdingyang of the Pearl River Estuary, 18 surface sediment samples were collected and analyzed for obtaining total organic carbon (TOC), total nitrogen (TN), atomic TOC/TN ratio (C/N_atom), stable carbon and nitrogen isotopes (δ¹³C, δ¹⁵N), and glycerol dialkyl glycerol tetraethers (GDGTs). A three-endmember framework was constructed using the BIT and δ¹³C to constrain the sources of the organic matter. The results showed a significant positive correlation between TOC and TN, with relatively higher values in Jiaoyi Bay and western Lingdingyang, lower values in eastern Lingdingyang, and intermediate values in Shenzhen Bay. The C/N_atom, δ¹³C, and δ¹⁵N results revealed that the sedimentary organic matter in the study area exhibits mixed-source characteristics, influenced by soil, C₃ plants, and marine autochthonous organic matter. Among the subregions, Jiaoyi Bay is more strongly influenced by terrestrial inputs, while Shenzhen Bay receives relatively higher contributions from marine autochthonous organic matter. The GDGTs results showed that Jiaoyi Bay is characterized by elevated abundances of both brGDGTs and isoGDGTs, whereas isoGDGTs were also relatively enriched in Shenzhen Bay. brGDGTs exhibited a significant negative correlation with δ¹³C, whereas BIT showed no significant correlation with either brGDGTs or δ¹³C, indicating that BIT cannot be simply regarded as a unique proxy for soil input, but rather reflects the combined effects of in situ production, changes in archaeal lipids, and sedimentary preservation. The three-endmember model further revealed significant spatial variations in the sources of organic matter in surface sediments from Lingdingyang. Overall, the combined use of multiple proxies is more effective than any single proxy in revealing the sources and spatial differentiation of sedimentary organic matter in this subtropical, complex estuarine environment. Full article

Gum arabic (GA)-based edible coatings enriched with natural bioactive compounds offer a promising strategy for reducing postharvest losses and maintaining fruit quality. This study evaluated the effectiveness of GA coatings supplemented with carvacrol or caffeine in preserving the physicochemical quality, antioxidant status, and marketability of ‘Murcott’ mandarins during cold storage (5 ± 1 °C, 90–95% RH) for 60 days followed by 4 days of shelf life. Fruits were treated with distilled water (control), GA (10%), GA + imazalil (2000 ppm), GA + carvacrol (200 ppm), and GA + caffeine (200 ppm). Key quality parameters, including weight loss, decay incidence, firmness, electrolyte leakage, malondialdehyde (MDA), total soluble solids, titratable acidity, ascorbic acid, total phenolics, total flavonoids, and antioxidant enzyme activities of catalase (CAT) and peroxidase (POX), were evaluated. The results demonstrated that GA-based coatings, particularly GA + carvacrol, significantly reduced weight loss and decay while maintaining firmness and visual quality compared to the control. Coated fruits exhibited lower electrolyte leakage and MDA levels, indicating improved membrane integrity and reduced lipid peroxidation. In addition, the treatments enhanced antioxidant capacity, as reflected by increased phenolic and flavonoid contents and higher CAT and POX activities. Multivariate analysis further confirmed the strong association between coating treatments and improved quality attributes. In conclusion, GA coatings enriched with carvacrol or caffeine effectively improved postharvest quality and extended the shelf life of ‘Murcott’ mandarins, highlighting their potential as safe and eco-friendly alternatives to conventional postharvest treatments. Full article