Search Results (402)

Nicotinamide mononucleotide (NMN), a direct precursor of the essential coenzyme nicotinamide adenine dinucleotide (NAD⁺), confers anti-aging effects and multiple health benefits. Engineered microorganisms represent a promising platform for sustainable industrial production of NMN. Here, the previously reported NMN-producing strain NMN008 was engineered to co-utilize glucose and glycerol for the biosynthesis of NMN from nicotinamide (NAM). First, the glycolytic genes pgi and pykA/pykF were sequentially deleted to disrupt glucose catabolism through the glycolytic pathway, thereby potentially improving precursor availability for NMN biosynthesis. Second, a feedback-resistant glycerol kinase mutant (glpK*) was introduced to enhance glycerol utilization, aiming to compensate for the growth defects associated with impaired glycolysis. These modifications enabled glycerol to primarily support cell growth and energy metabolism, while improving glucose allocation toward NMN biosynthesis by reducing its competitive consumption through glycolysis. As a result, the final strain achieved an NMN titer of 32.92 g/L in a 2 L bioreactor, representing a 26.28% increase in NMN production and a substantial 34.48% improvement in carbon conversion efficiency. Our research provides an effective strategy to achieve industrial-scale production of NMN, laying a foundation for the widespread application of NMN. Full article

Vocational high school students represent a substantial yet understudied population in school-based mental health research. Drawing on positive psychology and bioecological theory, this study examined whether personal growth initiative (PGI) shows a statistical indirect effect with respect to the relationships between multidimensional school climate and mental health outcomes among Chinese vocational students. Participants were 14,006 students from 112 vocational high schools. Two-level path models simultaneously entered different climate dimensions to estimate their unique associations with PGI, depressive symptoms, and Subjective well-being (SWB) at the within- and between-school levels, controlling for gender and socioeconomic status. Within schools, Safety, Interpersonal Relationships, Rules and Norms/Career Development Support, and Teaching and Learning/Diversity were positively associated with PGI, which in turn was associated with lower depressive symptoms and higher SWB. Wald tests indicated that Safety showed the strongest overall association with depressive symptoms, whereas Interpersonal Relationships showed the strongest overall association with SWB. At the between-school level, school-average climate and school-average PGI were associated with both outcomes, although these findings should be interpreted cautiously given the limited between-school power and substantial overlap among aggregated climate indicators. Overall, the findings are consistent with PGI being an important student-level pathway linking school climate to mental health in vocational education. Full article

A series of 6-azaindole pyridinium derivatives were synthesized, structurally characterized, and evaluated for their antimicrobial (against Staphylococcus aureus, Escherichia coli, and Candida albicans) and anticancer properties (against NCI 60 panel). Hemocompatibility was evaluated using the hemolytic index, while ADME properties were estimated using in silico methods. Structure–activity relationship analysis indicated that para-substitution of the phenyl ring, particularly with halogen or methoxy groups, influences antimicrobial activity, selectivity toward Gram-positive bacteria, and hemocompatibility. Compounds 2b and 2c showed the most notable antimicrobial effects, including inhibition of microbial adhesion at hemocompatible concentrations. Compound 2b exhibited growth inhibition against cancer cells, showing 57% percent growth inhibition (PGI) against the MDA-MB-468 breast cancer cell line at 10 mM. Overall, these results highlight 6-azaindole pyridinium salts as a promising class of compounds for further investigation. Full article

Extra virgin olive oil (EVOO) is a key component of the Mediterranean diet, valued for its bioactive constituents and associated health benefits. This study evaluated the influence of four agronomic and processing factors—harvest month, destoning, fruit washing, and bottling delay—on the chemical composition of Kolovi EVOOs from the PGI Lesvos region. A total of 34 oils were produced under standardized conditions and analyzed for phenolic compounds, tocopherols, pigments, and squalene using UPLC-QTOF-MS and HPLC-DAD. The oils were characterized by consistently high nutritional quality, with most samples fulfilling EFSA health claim thresholds for hydroxytyrosol, tyrosol and its derivatives, and α-tocopherol. Harvest month was the most influential parameter: early harvested oils (October) contained significantly higher levels of phenolics, α-tocopherol, and lutein, whereas later harvests (November) were richer in squalene. Destoning produced modest changes, with slightly higher phenolics in non-destoned oils and reduced lipophilic antioxidants in destoned samples. Fruit washing selectively decreased hydrophilic phenolics, while lipophilic compounds were largely unaffected. Bottling delays of up to 48 h under protective conditions had negligible effects on composition, aside from minor increases in specific phenolic derivatives. These findings suggest that early harvesting and careful consideration of destoning are the most effective strategies for supporting the antioxidant profile of Kolovi EVOOs, while other practices can be adjusted with limited impact on quality. Full article

Enriching bakery products with highly nutritious ingredients, such as microalgae and insect powder, is a promising strategy for developing functional foods. This study aimed to evaluate the effects of spirulina, chlorella, and cricket powder on the quality of sponge cakes. The assessed parameters included color, nutritional value, mineral composition, antioxidant activity, predicted glycemic index (pGI), and sensory properties. The addition of microalgae significantly reduced the L* value and altered the color shade of the sponge cakes, while the insect powder caused milder color changes. The enriched samples contained higher levels of protein (by up to 14%) and minerals, including calcium, magnesium, iron, and zinc. Antioxidant activity was enhanced across all variations, particularly in sponge cakes with insect powder, which showed the highest TPC (47.96 mg GAE), DPPH· (0.107 mM TE), and ABTS·⁺ (0.208 mM TE) levels. Cakes containing spirulina exhibited the highest total flavonoid content (63.95 mg EPI). Additionally, the enriched samples demonstrated a statistically significant reduction in the pGI. Among all the supplemented samples, the sponge cake with cricket powder received the highest consumer acceptance. Overall, enriching sponge cakes with microalgae and cricket powder improved their nutritional value and antioxidant properties, with insect powder offering the best balance between sensory quality and functionality. Full article

Urban green infrastructure plays a crucial role in enhancing environmental resilience in cities, particularly in arid regions characterized by water scarcity, soil salinity, and high climatic stress. However, arid coastal cities remain insufficiently studied with regard to spatially explicit assessments of the structure and dynamics of green infrastructure. This study evaluates the state and spatial organization of urban green infrastructure in Aktau, Kazakhstan, over the period 2015–2025, with the most recent satellite observations obtained in June 2025. Sentinel-2 satellite imagery was used to calculate seasonal Normalized Difference Vegetation Index (NDVI) and Soil-Adjusted Vegetation Index (SAVI) values, and zonal statistics were applied to assess intra-urban differentiation across functional zones. In addition, inventory-based indicators—Green Planting Density (GPD), Structural Composition of Greenery (SCG), and Protective Green Infrastructure (PGI)—were integrated to complement the remote sensing analysis. The results indicate a moderate overall increase in mean NDVI values (from 0.21 to 0.28), with the most significant growth observed in central and coastal areas (ΔNDVI = +0.12; ΔSAVI = +0.21), while industrial and newly developed zones exhibit only limited changes. Despite these localized improvements, the spatial configuration of green infrastructure remains fragmented, reflecting a persistent center–periphery asymmetry in urban greening. These results underline the importance of irrigation practices and spatially targeted greening strategies for improving vegetation conditions in arid urban environments. The proposed integrated approach combining satellite-derived vegetation indices and inventory-based indicators can serve as a useful tool for monitoring urban green infrastructure and supporting evidence-based planning in arid coastal cities. Full article

Introduction: Pelvic floor disorders (PFDs) are a very widespread clinical phenomenon and are known to affect millions of women worldwide, significantly impairing their quality of life. New technologies and innovations such as electrotherapy and photobiostimulation are currently revolutionizing what concerns conservative treatment, allowing clinicians to tailor therapy to every woman. The aim of this study was to evaluate the feasibility of use of electrotherapy and photobiostimulation in PFD management and the initial results of treatment in clinical practice. Methods: This prospective study (IRB code: GSM-RF 2025) aimed to analyze the impact of the innovative DAFNE system to treat PFDs through electrotherapy and photobiostimulation. We enrolled patients with mild pelvic organ prolapse and stress urinary incontinence who desired a conservative treatment for their conditions. The following validated scales were used for assessing baseline quality of life before and after treatment: Urinary Distress Inventory-6 (UDI-6), Pelvic Organ Prolapse Distress Inventory-6 (POPDI-6), Female Sexual Function Index-6 (FSFI-6), 0–100 VAS Scale, and Vaginal Health Index. Electrotherapy was delivered through 4 gold rings, providing Functional Electrical Stimulation (FES), Transcutaneous Electrical Nerve Stimulation (TENS) and/or Microcurrent Electrical Neuromuscular Stimulation (MENS). The photobiostimulation system consisted of 24 LEDs per wavelength (420 nm UVA; 630 nm RED; 870 nm NIR/INFRARED) positioned at 360° along the entire length of the handpiece for antimicrobial purposes, microcirculation improvement, and anti-inflammatory action. The cycle of treatment consisted of 3–5 sessions, according to necessity. Overall improvement was measured through the Patient Global Impression of Improvement (PGI-I). Statistical analysis was performed using Student’s t-Test. A value of p < 0.05 was considered as significant. Results: In the period of interest, 32 women were treated with the DAFNE system. The mean age was 57.0 ± 16.6 years. Indications for treatment were stress urinary incontinence (16/32), mild pelvic organ prolapse (14/32), or both (2/32). The mean number of treatments per patient was 4. Quality of life improved as a consequence of the treatment according to the considered scales. Specifically, 87.5% of patients considered themselves improved. Conclusions: The DAFNE system has been successful in managing mild pelvic organ prolapse and stress urinary incontinence, improving quality of life scores. Embracing new technologies such as electrotherapy and photobiostimulation appears to be successful in conservatively managing a variety of PFDs. Full article

Background/Objectives: Rhodobacter sphaeriids is considered a promising biomanufacturing platform due to its capacity to convert CO₂ into value-added products. To enhance the yield of CO₂-derived products, understanding extracellular metabolite dynamics during autotrophic growth is essential. However, the extracellular metabolite profiles of R. sphaeroides under autotrophic conditions have not been reported. Methods: In this study, we performed a comprehensive analysis of extracellular metabolites produced under autotrophic conditions using capillary electrophoresis time-of-flight mass spectrometry (CE-TOFMS) and liquid chromatography time-of-flight mass spectrometry (LC-TOFMS). Results: A total of 62 putative metabolites were detected, of which 23 were measured above the quantification limit. Metabolites involved in glycolysis and gluconeogenesis constituted the largest proportion of extracellular metabolites, with lactic acid exhibiting the highest accumulation levels. To investigate the transcriptional changes associated with metabolite accumulation, we analyzed gene expression and observed the downregulation of glycolytic genes, including pgi, gapB, and lctB, whereas cfxA, encoding fructose-1,6-bisphosphate aldolase, was upregulated under autotrophic conditions compared to heterotrophic conditions. Conclusions: These results suggest that the carbon assimilation metabolic flux in R. sphaeroides shifts toward the CBB cycle and lactic acid overflow metabolism under autotrophic conditions. Collectively, these findings provide new insights into metabolic regulation during autotrophic growth and offer a basis for reducing extracellular byproduct formation and improving CO₂-based biological production in R. sphaeroides. Full article

Gingival inflammation represents one of the most prevalent oral inflammatory conditions worldwide and remains a major contributor to oral morbidity. While its classical etiologies are well established, less attention has been paid to inflammatory responses that arise secondary to pulpal injury and tissue damage. Experimental models that allow controlled evaluation of these responses may provide relevant insight into pulp-associated gingival inflammatory processes. Current pharmacological approaches for inflammatory conditions in dentistry, including non-steroidal anti-inflammatory drugs (NSAIDs) and glucocorticoids, are widely used and generally effective. However, their use may be associated with adverse effects in specific clinical contexts, particularly under prolonged or high-dose regimens, highlighting the importance of continued investigation of additional pharmacological strategies. Within this context, pharmacological modulation of inflammatory pathways represents a relevant strategy for exploring alternative therapeutic approaches in pulp-associated gingival inflammation. Accordingly, there is a need to investigate novel molecules with therapeutic potential, such as resiniferatoxin, which has demonstrated anti-inflammatory properties in both in vitro and in vivo experimental models. This study aims to evaluate the anti-inflammatory effect of resiniferatoxin during inflammation of gingival tissue after mechanical pulp damage in a murine experimental model. Six groups of six BALB/c mice were formed as follows: five control groups: a healthy group (H_CG), a healthy group treated with resiniferatoxin (RTX_HG), a group with pulp damage at 14 h (PG_I), two groups with pulp damage treated with ibuprofen (PGI_IBU), dexamethasone (PGI_DEX) at 14 h, and an experimental group with pulp damage treated with resiniferatoxin (PGI_RTX) at 14 h. Gingival inflammation was evaluated after pulp damage was induced through mechanical pulp exposure of the upper first molar. The histopathological parameters of the gingival tissue of all groups were evaluated by hematoxylin and eosin (H&E) staining, while the plasma levels of PGE₂ and TNF-α were quantified by ELISA assay. A significant increase in plasma PGE₂ and TNF-α levels was observed at 14 h after pulp damage. Subsequently, when treatment with resiniferatoxin was administered, it was observed that this significantly decreased (* p < 0.05) the plasmatic levels of PGE₂ and TNF-α, as well as the number of inflammatory cells infiltrated in the gingival tissue 14 h after the pulp damage, similar to treatments with ibuprofen and dexamethasone. Resiniferatoxin exerts an anti-inflammatory effect after pulp damage, significantly decreasing plasma levels of PGE₂ and TNF-α, as well as the number of inflammatory cells infiltrated in the gingival tissue, which places resiniferatoxin as a potential drug, in this case, for the treatment of gingival inflammation. Full article

Background/Objectives: Genitourinary syndrome of menopause (GSM) is a chronic, progressive condition that deeply affects sexual wellbeing and vaginal health. As many women—especially cancer survivors—seek non-hormonal alternatives, energy-based devices have gained increasing interest. However, comparative data between different technologies remain limited. This retrospective, non-randomized study aimed to directly compare the effectiveness and tolerability of fractional diode laser and monopolar radiofrequency (RF) in women with GSM. Methods: The study included 91 women treated with diode laser (n = 43) or RF (n = 48). Baseline evaluation comprised the Female Sexual Function Index (FSFI-19), Vaginal Health Index (VHI), and symptom severity. Post-treatment assessment included FSFI-19, VHI, Patient Global Impression of Improvement (PGI-I), and procedural discomfort (VAS 0–100). Results: Both modalities resulted in clear clinical benefits. Among women treated with the diode laser, FSFI total scores rose from 11.0 ± 8.4 to 15.3 ± 9.8 (p < 0.001), while VHI improved from 12.6 ± 3.0 to 15.9 ± 3.6 (p < 0.001). Similarly, RF treatment increased FSFI scores from 8.9 ± 7.4 to 14.3 ± 9.5 (p < 0.001) and VHI from 13.5 ± 3.0 to 16.5 ± 3.3 (p < 0.001). The overall degree of improvement was comparable between groups (ΔFSFI: 4.3 ± 6.5 vs. 5.4 ± 7.1; ΔVHI: 3.3 ± 2.9 vs. 3.0 ± 3.0). Despite this, a higher proportion of patients in the RF group reported PGI-I scores < 4 (95.5% vs. 74.3%; p = 0.010), in parallel with significantly lower procedural discomfort compared to laser treatment (VAS 14.1 vs. 53.6; p = 0.001). No adverse events were observed. Conclusions: Vaginal diode laser and monopolar RF proved to be effective, non-hormonal interventions capable of improving sexual function and restoring vaginal health in women with GSM. However, RF demonstrated superior tolerability, suggesting it may provide a more comfortable therapeutic experience without sacrificing clinical effectiveness. Full article

The valorization of agro-industrial by-products represents a key strategy for promoting sustainable resource use and recovering high-value bioactive compounds. This study investigated the extraction of carotenoids from processing residues of Capsicum annuum L. cv Senise, a sweet pepper with Protected Geographical Indication (PGI) status, using supercritical CO₂ extraction (SC-CO₂). Experiments were conducted under nine pressure–temperature combinations (250–450 bar; 40–60 °C) for 60 min, and the results were compared with those obtained by conventional solvent extraction. The extraction yield ranged from 21.5 to 23.5 g/kg_DW, with the highest total carotenoid content (386 mg/kg_DW) achieved at 450 bar and 60 °C (SFE9), corresponding to a 70.2% recovery relative to the solvent method. HPLC analysis identified capsanthin (5.88 mg/g) as the predominant carotenoid in this extract, followed by zeaxanthin (2.16 mg/g), lutein (0.71 mg/g), β-cryptoxanthin (0.70 mg/g), β-carotene (0.58 mg/g) and capsorubin (0.38 mg/g). Overall, the results demonstrate that the green extraction of Senise pepper waste offers a sustainable approach to obtaining valuable natural pigments. Full article

This study focuses on identifying wine-growing subzones within the PDO Amyndeon and PGI Drama wine-growing zones in Northern Greece, with the aim of assessing their suitability for producing high-quality red wines from the Xinomavro (Vitis vinifera L.) and Cabernet Sauvignon (Vitis vinifera L.) grape varieties, respectively. The initial delineation of suitability zones was carried out using readily available satellite data on soil, topography, and climate, in four different suitability categories. To validate how effectively these categories distinguished actual wine-growing regions, we compared them against two years of field data collected from experimental vineyards. The results showed that this methodology was able to discern the most suitable areas for both varieties and regions with an acceptable relation to real grape and wine attributes as confirmed by the collection of data from the pilot vineyards. The overall performance of this method will ultimately depend on the validity of the expert knowledge used to define the most critical parameters and their range. According to the results of this study, and given the relevance of the proposed suitability criteria, this method has the potential to provide an alternative solution for subzone delineation in cases where wine analytical and sensory data are not available. Full article

Background: Sleep is a complex physiological process, crucial for cognitive functioning, emotional regulation, and overall health. Recent advances in genomics and neuroimaging have illuminated the intricate relationship between genetics, sleep architecture, and brain changes. This study investigated the association between sleep duration genetics, through a Sleep Duration Polygenic Index (Sleep PGI), and brain changes (total cortical thickness, white matter volume, gray matter volume, white matter hyperintensities volume) in cognitively healthy adults aged 20–80 years old. Methods: Using longitudinal data from the Reference Ability Neural Network (RANN) and Cognitive Reserve (CR) studies, we examined the impact of Sleep PGI on brain measures (total cortical thickness, gray matter volume, white matter volume, WMH volume) over time. Generalized Estimated Equations were used for the statistical analysis. Analysis was performed in the total sample (n = 94) and in three age-groups (young, middle, old). Results: Across age, higher Sleep PGI was associated with higher temporal WMH volumes over time. In models considering an interaction of age between Sleep PGI and time in study, age emerged as a significant moderator for outcomes of hippocampal volume, cortical white matter volume, and WMH volume (total, parietal) as outcomes. Conclusions: Sleep duration polygenic score was associated with changes in the brain in cognitively healthy adults. Genetic predisposition for longer sleep duration was associated with more favorable longitudinal trajectories against brain decline, a result mostly driven by younger adults. These findings underscore the importance of maintaining optimal sleep duration and the potential for personalized interventions to improve sleep and brain health. Full article

The invasion of Prosopis juliflora poses a growing threat to dryland ecosystems and pastoral livelihoods across East Africa. This study presents an integrative approach that combines satellite remote sensing, machine learning, and citizen science to detect and map the spatial extent and socio-ecological impacts of Prosopis juliflora in Baringo County, Kenya. We evaluated the performance of three satellite platforms, Sentinel-1, Sentinel-2, and PlanetScope, using a Random Forest classifier trained on field collected presence–absence data and vegetation indices. Sentinel-2 outperformed the other sensors, achieving a classification accuracy of 90.65%, with key variables including the Visible Atmospherically Resistant Index (VARI), the Ratio Vegetation Index (RVI), and red-edge bands emerging as the most important predictors. Through Participatory GIS (PGIS), a citizen-science based approach, we engaged gender-disaggregated community groups to capture local perceptions of invasion hotspots and blocked access to grazing routes and water sources, enhancing contextual understanding and validating model outputs. The comparison of satellite-derived maps and PGIS outputs revealed strong spatial congruence, particularly along water bodies, roads, and croplands. Our findings demonstrate the potential of combining Earth observation and citizen science to generate actionable knowledge for managing invasive species in data scarce dryland environments. This hybrid framework supports inclusive and spatially targeted interventions for rangeland restoration and ecosystem resilience. Full article

In the context of strategies for the promotion of a sustainable wine industry, the utilization of production regulations under the European Geographical Indications system is seldom contemplated. Furthermore, when such texts are considered, the focus is typically on rules for viticulture or winemaking, rather than on articles governing the boundaries of a PDO or PGI. The present study examines the manner in which regulatory innovation, when viewed from a strictly geographical perspective, can promote the sustainable growth of the sparkling wine districts of Franciacorta and Oltrepò Pavese, which are located in the Italian Lombardy region. Through a comparative analysis of Franciacorta and Oltrepò Pavese, we explore how regulatory frameworks, land-use constraints, and production capacities interact to shape environmental, social, and economic sustainability. Franciacorta’s premium positioning and global reputation are constrained by its limited geographic area, making expansion environmentally and socially challenging. In contrast, Oltrepò Pavese has substantial production potential, particularly for Pinot Noir-based classic-method sparkling wines but suffers from a fragmented identity and weak market recognition. Benchmarking the Prosecco PDO evolution, we propose a sustainability-oriented growth model integrating multiple territories under harmonized rules, termed “Grande Franciacorta”. This framework would enable controlled growth, reduce land pressure in high-density areas, enhance regional competitiveness, and support long-term ecological stewardship. This study outlines managerial implications for producers, emphasizing multi-tier product architectures, dynamic capabilities, and coordinated governance mechanisms. Policy recommendations highlight the need for regulatory frameworks that embed sustainability criteria, optimize land use, and consolidate regional reputation to ensure the long-term viability of high-quality sparkling wine production. Full article