Search Results (127)

Quorum sensing (QS) represents a promising target for anti-virulence therapy; however, effective pharmacological intervention requires a detailed understanding of regulatory network architecture and environmental context. In Klebsiella pneumoniae, the orphan LuxR-type receptor SdiA lacks a cognate LuxI synthase and instead detects exogenous acyl-homoserine lactones (AHLs), positioning it as an inter-species signal integrator. Here, we demonstrate that SdiA functions as a context-dependent regulator whose impact on biofilm formation and virulence gene expression is gated by environmental AHL availability. Using isogenic ΔluxS, ΔsdiA, and ΔluxSΔsdiA mutants in a clinical bloodstream isolate, we show that under AHL-limited conditions, SdiA promotes baseline biofilm development, whereas in the presence of exogenous C6-HSL, it restrains excessive biofilm maturation. Two-way ANOVA confirmed significant genotype, treatment, and interaction effects, establishing that SdiA-mediated regulation is signal contingent. We further investigated the halogenated thiolactone meta-bromo-thiolactone (mBTL), previously described as a QS inhibitor in Pseudomonas aeruginosa. In K. pneumoniae, mBTL acts as a context-selective modulator rather than a simple inhibitor. Under AHL-limited conditions, mBTL phenocopied ΔsdiA, reducing biofilm formation and inducing overlapping transcriptional profiles. In contrast, under AHL-replete conditions, mBTL opposed SdiA-dependent gene expression, consistent with competitive antagonism of ligand-bound receptor. RNA-seq analysis revealed substantial concordance between ΔsdiA and WT + mBTL under AHL-free conditions, with the inversion of transcriptional directionality in the presence of C6-HSL. The findings redefine SdiA as a conditional quorum-sensing integrator and identify mBTL as a ligand-context-dependent modulator of LuxR-type signaling. Our results highlight the necessity of evaluating anti-virulence compounds across relevant signal environments and introduce receptor state-selective modulation as a strategic framework for targeting hybrid quorum-sensing systems in polymicrobial pathogens. Full article

The growing demand for clean-label bakery products requires a deeper understanding of how functional ingredients and physicochemical properties shape consumer perception. This study characterized nine commercial clean-label breads formulated with alternative flours, oilseeds, and functional ingredients by integrating instrumental analyses (color, porosity, free amino acids, total phenolic content, antioxidant activity) with consumer evaluation using hedonic testing and Check-All-That-Apply (CATA). Sixty-five consumers evaluated the breads under blind conditions. Results showed that flour type and seed inclusion significantly affected color, structure, and bioactive compound levels. Breads with higher phenolic content and antioxidant activity (GB-B, GB-C, GB-D, PB-I) exhibited more complex aroma profiles, whereas breads with higher porosity (GB-A, PB-G) were perceived as softer. Taste and texture showed the strongest correlation with overall liking (r > 0.84). CATA and penalty analysis identified soft, easy to chew, sweet, and umami as key drivers of liking, while dry, adhesive, bran odor, and bitter negatively impacted acceptance. Data revealed that consumer preference depends on the balance between structural attributes, flavor development, and nutritional composition. These findings provide actionable insights for the formulation of clean-label breads that balance health benefits and sensory acceptance. Full article

Background: Preoperative fasting is one of the most difficult stages of hospitalization for children and their caregivers. The popularization of preoperative oral polycarbohydrate preparations is an important element influencing the comfort of hospitalized children. The aim of the study was to assess the effect of carbohydrate administration on perioperative blood glucose (PBG), the occurrence of complications in the pre- and postoperative periods, and satisfaction in children and adolescents. Material and methods: The study was a comparative-observational one, and the following research methods were used: an author’s diagnostic questionnaire, observation, and analysis of medical documentation. The research group consisted of 50 patients from the Pediatric Orthopedic Department who received an oral polycarbohydrate solution up to 2 h before anesthesia. The control group consisted of 50 patients who fasted for more than 6 h before anesthesia. The study was conducted between February and May 2024. Results: The patients were assessed using a measurement of venous blood glucose taken immediately before the administration of premedication. Parents completed a questionnaire regarding their child’s perioperative period. Conclusions: The glucose level in patients who received a polycarbohydrate preparation is higher than in children who did not. The administration of polycarbohydrate preparations influences the feeling of thirst and hunger in the postoperative period in children and adolescents. Oral administration of a polycarbohydrate preparation up to 2 h before anesthesia does not cause regurgitation in children and adolescents. Patients who received an oral polycarbohydrate preparation tolerated the waiting period before anesthesia better. Preoperative fasting is, apart from the insertion of venous access, the most stressful situation for children and adolescents during hospitalization. The supply of oral polycarbohydrate preparations has a positive effect on pediatric patients in the perioperative period. Full article

Pulsed laser deposition (PLD) is widely used for functional film fabrication, but traditional nanosecond-laser-induced thermal effects and interface roughness severely limit the quality of multilayer structures. To address this critical challenge, a picosecond pulsed laser with collinear pulse train output was adopted for TiO₂/ZnO multilayer preparation, achieving dual advantages of thermal diffusion suppression and roughness reduction. A systematic investigation was conducted on the properties of TiO₂ and ZnO films, establishing a “constant-deposition-rate multi-pulse regulation” strategy that yielded low roughness (4.43 nm for TiO₂, 3.27 nm for ZnO) and optimized refractive index matching. Through 500 °C oxygen annealing, TiO₂’s refractive index was enhanced to 2.6, forming a large refractive index difference (Δn = 0.77) with ZnO (~1.83) for efficient photonic band gap (PBG) regulation. Integral annealing was identified as the optimal post-treatment, enabling the four-layer TiO₂/ZnO multilayer to reach a maximum reflectance of 75% with excellent structural uniformity. The multifunctional applications of the multilayers exhibit excellent ability in photocatalytic degradation of tetracycline hydrochloride (TCH) and fluorescence enhancement of CdSe quantum dots (QDs). This work pioneers a high-quality PLD-based multilayer fabrication route and opens new avenues for its application in environmental remediation and optoelectronic devices. Full article

Newcastle disease (ND), caused by avian orthoavulavirus 1 (AOAV-1), poses a global threat to poultry and wild birds. In early 2025, an outbreak of pigeon paramyxovirus type 1 (PPMV-1, genotype VI AOAV-1) was detected in a wildlife rehabilitation centre in northern Portugal, affecting Streptopelia decaocto, Streptopelia risoria, and Columba livia. Birds showed acute neurological signs and died rapidly. Necropsy revealed brain and pulmonary congestion, splenomegaly, and cloacal lesions, while histopathology demonstrated hepatocellular necrosis, hemorrhage, and eosinophilic intracytoplasmic inclusions in hepatocytes and renal tubular cells. Matrix (M) gene PCR using standard primers was negative, but metagenomic sequencing identified genotype VI as being closely related to strains from Iran and Cyprus. Partial fusion (F) gene analysis revealed the velogenic RRQKRF motif. These findings confirm the circulation of highly virulent PPMV-1 in Portugal, highlight that standard, recommended primers may fail to detect some genetically diverse strains, and emphasize the role of Columbidae as reservoirs with potential transmission to domestic poultry. Full article

Grouting materials are essential for trenchless road repair. However, conventional cement-based grouting materials suffer from considerable shrinkage and low early-age strength. To address these challenges, this study utilizes industrial solid wastes (phosphogypsum and slag) for the synergistic synthesis of a phosphogypsum–slag-based geopolymer (PBG). Using PBG as a binder and fine sand as an aggregate, a sustainable grouting material was developed. The influence of binder-to-sand and water-to-solid ratios on PBG workability was systematically evaluated, identifying the optimal water-to-solid ratio. Based on this, the effects of the binder-to-sand ratio on mechanical strength at various curing ages, durability, and leaching of toxic substances were analyzed. The mechanism of strength development mechanism and immobilization behavior of toxic substances were revealed through SEM. The results indicate that the material exhibits excellent performance when the water-to-solid ratio is 0.28 and the binder-to-sand ratio ranges from 0.70 to 0.75. The material exhibits fluidity of 160–240 mm, initial setting time > 30 min, and final setting time < 400 min, a bleeding rate < 0.4%, and 28-day compressive strength ≥ 9.0 MPa. Both the impermeability and freeze–thaw resistance of PBG grouting material improve with a higher binder-to-sand ratio. Toxic substance leaching complies with Class III groundwater quality standards. Carbon footprint analysis indicates that the material significantly reduces carbon emissions. Full article

Background: Denture stomatitis (DS) represents an oral fungal infection induced by Candida albicans, impacting approximately 70% of the individuals who use removable acrylic dentures. Researchers suggest that the high level of the Candida species, particularly Candida albicans (C. albicans), is the predominant etiological factor of DS. Consequently, the development of a soft liner with antifungal activity might significantly enhance its therapeutic applicability. This in vitro study evaluates the impact of phosphate bioactive glass reinforced heat-cured acrylic-based soft liner on the candidal activity in this material. Method: Specimens (10 mm × 2 mm disc-like) were required for the selected test; PBG-Sr nano-powder was synthesized and added to the soft liner at percentages of 1 wt.%, 3 wt.%, 5 wt.%, and 7 wt.%. The candidal adherence test was investigated, and characterization was performed by X-ray diffraction analysis, field emission scanning electron microscopy, energy dispersive X-ray spectroscopy mapping, and particle size analysis. The resulting data were analyzed with one-way ANOVA followed by Dunnett’s test. Results: Candidal adherence in the 1 wt.%, 3 wt.%, 5 wt.%, and 7 wt.% PBG-Sr subgroups had decreased values in comparison to the control (0 wt.%), with the 7 wt.% subgroup demonstrating the lowest count of C. albicans (0.027), close to the nystatin group. Conclusions: PBG-Sr can diminish C. albicans adhesion in soft lining materials, and a soft liner containing PBG-Sr (7 wt.%) showed the most effective activity against C. albicans in the soft liner. Soft liners infused with bioactive glass may have the potential to assist those struggling with denture stomatitis, providing patients with enhanced therapeutic qualities. Full article

Microorganisms exhibit metabolic versatility, which enables their multifaceted application, including in pollutant detoxification, waste recycling, and environmental restoration. Agricultural processing generates substantial byproducts rich in carbon, nitrogen, and sulfur, which require proper handling to mitigate ecological challenges and reduce carbon footprints. The generation of recalcitrant keratinous biomass and its slow degradation in the environment have prompted technological interventions for sustainable solutions. Fundamentally, chemical, thermal and mechanical processing methods have been utilized in managing keratinous waste. These approaches are not only energy-intensive but also yield low-quality products and exacerbate environmental challenges. Multidimensional research on the microbial-assisted conversion of keratinous waste into valuable products, which aligns with circular economy principles, is underway. The biodegradation of keratinous resources has predominantly employed culturable single microbial strains; however, few studies have recently investigated microbial consortia as a promising strategy. The use of microbial consortia leverages the high cultural stability and complementary metabolic pathways of microbes to achieve excellent keratin biodegradation. Therefore, this study examined the latest advancements in transforming keratinous waste into high-quality protein hydrolysates using microbial strains. It detailed various types of microbial consortia and their roles in the valorization of keratinous biomass, while highlighting some knowledge gaps for future studies. The study also explored the role of ancillary microbial enzymes in facilitating the conversion of keratinous biomass into value-added products. Full article

The vascular 5-HT sympatho-modulation may involve inhibitory or potentiating pathways: nitric oxide (NO), endothelium-dependent hyperpolarization (EDH)-K⁺ channels, prostanoids, angiotensin II (Ang-II), or endothelin. Compared to males, female rats show differences in the serotonergic sympatho-regulation; therefore, we aimed to study the involvement of indirect pathways via 5-HT_1D-mediated inhibition and 5-HT_2A/3-mediated potentiation of vascular noradrenergic neurotransmission in females. An i.v. bolus of different inhibitors/blockers of modulators/mediators (NO, K⁺ channels, prostanoids, Ang-II, or endothelin) was administered prior to the infusion of the agonists, L-694,247 (5-HT_1D), TCB-2 (5-HT_2A), or 1-PBG (5-HT₃), in female pithed rats. In these conditions, the vascular sympathetic outflow was electrically stimulated to assess the vasopressor responses. The L-694,247 vascular sympatho-inhibition was abolished by a non-selective K⁺ channel blocker, tetraethylammonium. The 1-PBG sympatho-excitatory vascular effect was not modified by any of the inhibitors tested, whereas TCB-2 sympatho-potentiation was blocked solely by losartan (Ang-II type 1 receptor antagonist). Moreover, Ang-II levels were increased after TCB-2 infusion in females. The EDH pathway mediates the 5-HT_1D-induced sympatho-inhibition, while the 5-HT_2A-evoked sympatho-excitatory effect is associated with Ang-II. In contrast, the 5-HT₃ sympatho-potentiation does not involve any indirect pathway. These findings advance current understanding of the complex interactions between 5-HT and vascular homeostasis in female rats. Full article

Keratinous wastes, generated from various industries such as poultry processing, slaughterhouses, and salons, accumulate in the environment due to their slow degradation caused by high disulfide cysteine bonds. Traditional methods of managing these wastes, including incineration, composting, open-air burning, and landfilling, have several disadvantages, such as environmental pollution, release of toxic compounds, and breeding of pathogenic and multidrug-resistant microorganisms. Microbial keratinases, produced by bacteria, fungi, and actinomycetes, offer an eco-friendly alternative for valorizing keratinous waste into valuable peptides and amino acids. The biodegradation of keratinous biomass involves four sequential steps: adhesion, colonization, production of keratinolytic enzymes, and breakdown of the keratin substrate. Optimization of culture conditions, such as pH, temperature, substrate concentration, and metal ions, can enhance keratinase production for industrial applications. Keratinases have multifaceted applications in various sectors, including cosmetics, organic fertilizers, leather treatment, animal feed, detergents, and pharmaceuticals. This review highlights the need to explore keratinolytic strains further and improve keratinase yields to develop sustainable solutions for keratinous waste management and generate value-added products, promoting a circular economy. The techno-economic considerations and current limitations in industrial-scale keratinase production are also discussed, emphasizing the importance of future research in this field. Full article

The accumulation of plastic waste has intensified the pursuit of biodegradable alternatives, yet standard methods such as CO₂ evolution, oxygen demand, and mass loss fail to fully capture microbial physiological responses during degradation. This study introduces a biochemical assay-based approach to quantify proteins, lipids, and carbohydrates in soil as indicators of microbial activity during polymer biodegradation. For microcrystalline cellulose (MCC), proteins, lipids, and carbohydrates increased by 2.09-, 6.47-, and 11.22-fold, respectively (all p-values < 0.001), closely aligning with CO₂ evolution trends. Non-biodegradable poly(vinyl chloride) (PVC) exhibited no significant changes. Synthesized poly(butylene glutarate) (PBG) also showed significant biomolecule accumulation (up to 2.70-fold) alongside CO₂ production. Biomolecule quantification complements CO₂-based methods by revealing microbial proliferation and metabolic activity that persist beyond the mineralization plateau, offering a more comprehensive assessment of biodegradability. Full article

The growing demand for sustainable, nutritionally adequate plant-based foods has driven innovation in meat analogues. This study presents a novel approach to upcycling potato juice protein—a by-product of starch production—into plant-based gyros (PBG) enriched with iron and dietary fiber. Four formulations (PBG1–PBG4) were developed using a blend of potato, rice, wheat, and pea proteins, and fortified with either ferritin-rich sprout powder or ferrous sulfate. Comprehensive analyses were conducted to assess nutritional composition, mineral content, glycoalkaloid safety, antioxidant activity, texture, water mobility, sensory appeal, and microbiological stability. All variants met high-protein labeling criteria and exhibited favorable fiber and mineral profiles. In vitro digestion significantly enhanced antioxidant bioaccessibility, particularly phenolic acids. Sensory evaluations favored ferritin-enriched variants, which also demonstrated superior texture and consumer acceptance. Microbiological assessments confirmed safety for up to 10 days under refrigeration. These findings highlight the potential of potato juice protein as a sustainable, functional ingredient in next-generation plant-based meat analogues. Full article

Background/Objectives: The advancing technological developments of recent decades have also changed the stress profile of pilots of high-performance aircraft (HPA) immensely. Pilots are exposed to different gravitational (G)-forces and are only able to fly with anti-G suits that compensate for the physiological loss of cerebral perfusion by applying external pressure to the body, and positive pressure breathing during G [PBG]. The present study therefore aims to investigate long-term effects of PBG on the lung capacity of fighter pilots. Methods: In a retrospective data analysis (1972–2024), the clinical findings of all German military pilots were analyzed. In total, 1838 subjects were included in the analysis, divided into three groups: HPA with PBG, HPA without PBG, and fixed-wing aircraft. Results: Lung function analysis showed that no significant decrease in FVC was found in the HPA group with PBG, but a decrease was found in the HPA group without PBG. FEV1 and FEV1/FVC decreased significantly in all groups. Multiple regression analyses indicated that the variables age and aircraft type were significant predictors of the changes in FVC and FEV1, but not for the Tiffeneau index. Conclusions: Our study showed that the lung function of HPA pilots who were exposed to both PBG and repeated increased G-forces did not deteriorate to a significantly greater extent compared with other pilots without these conditions; in some cases, it even deteriorated to a lesser extent. Overall, age has primarily been shown to be the predisposing factor for a deterioration in lung function parameters over time. Full article

Potato tuber (Solanum tuberosum L.) was prone to greening and quality deterioration during postharvest storage due to various factors, affecting the regulation of chlorophyll biosynthesis. In the present study, potato tubers were placed at 600 lux and 25 °C after sodium alginate—xanthan gum—glycerin composite coating. During storage, the apparent color changes and a* value of the surface were observed and determined, meanwhile the contents of nutrients, chlorophyll, and its intermediates in photosynthetic metabolism were analyzed. The results showed that after 9 d, compared to the control group, the sodium alginate coating treatment significantly inhibited greening, delayed the decline of appearance quality and nutrients including dry matter, starch, reducing sugar, soluble protein, and ascorbic acid. Furthermore, the sodium alginate coating promoted the contents of 5-aminolevulinic acid (ALA) (1.33 fold), porphobilinogen (PBG) (1.06 fold), and uroporphyrinogen III (Uro III) (1.07 fold), meanwhile, inhibited the production of protoporphyrin IX (Proto IX) (13.86%), Mg-protoporphyrin IX (Mg-Proto IX) (14.15%) and protochlorophyllide (Pchlide) (25.97%), which were key intermediates in the chlorophyll synthesis, indicating that the sodium alginate coating delay the greening by blocking the conversion of Uro III to Proto IX. These results provided valuable insights for the postharvest preservation of potato tuber. Full article

Objective: This retrospective study aims to assess the impact of bite-raising on patients’ quality of life and to compare the outcomes of anterior versus posterior build-ups. Materials and Methods: A total of 94 young adolescents treated with fixed orthodontic were selected and divided into two groups: the anterior bite raisers group (ABG) and the posterior bite raisers group (PBG). To enable comparison with untreated individuals, a control group (CG) of 50 subjects was also included. Pain intensity was assessed using a Visual Analog Scale (VAS), while oral health-related quality of life (OHRQoL) was measured through the OHIP-14 questionnaire (Italian validated version) before treatment and during each appointment for the first 3 months after build-ups placement. Results: Patients undergoing orthodontic treatment without bite raisers (CG) reported lower OHIP-14 scores compared to those with anterior (ABG) and posterior (PBG) bite raisers. In both ABG and PBG, the most commonly reported side effects included difficulty eating, oral pain, and feelings of embarrassment in social situations—similar to those reported by the control group. However, participants in the ABG also reported challenges in pronouncing certain words. Furthermore, the ABG experienced higher levels of physical pain, physical disability, and psychological discomfort compared to both the PBG and CG. Patients in the ABG reported more build-ups detachments or breakages than patients in PBG (ABG 32% vs. PBG 18%, p < 0.01). Build-ups were removed due to adequate overbite correction significantly before in the ABG (4.2 ± 0.9 months) than in the PBG (6.1 ± 1.4 months, p < 0.01). Conclusions: Anterior bite raisers have a significantly greater impact on patients’ quality of life compared to posterior bite raisers, leading to increased difficulties in eating and speech, higher levels of physical pain and disability, greater psychological discomfort, and more intense pain following build-ups placement. Full article