Search Results (517)

Objectives: Obesity remains a global health challenge, and promoting white adipose tissue browning has emerged as a promising anti-obesity strategy. This study aimed to investigate the anti-obesity effects of denatonium benzoate (DB) and elucidate its underlying mechanisms. Methods: In order to study the anti-obesity effects of DB and its mechanisms, we used in vivo and in vitro obesity models to study whether DB has anti-obesity effects by participating in fat browning. We investigated the role of DB in high-fat diet (HFD)-induced obese C57BL/6J mice using 36 male animals (8 weeks old, 25 ± 2 g), and evaluated the expression of the adipogenic marker genes Fatty acid-binding protein 4 (Fabp4) and Peroxisome Proliferator-Activated Receptor gamma (PPAR-γ); the thermogenic genes uncoupling protein 1 (Ucp1), Transcription Factor A, Mitochondrial (TFAM), Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-Alpha (Pgc1α), and Adrenergic receptor beta 3 (Adrb3); as well as the adipose browning marker genes Deiodinase, Iodothyronine, Type II (Dio2), PR domain containing 16 (PRDM16), and Peroxisome Proliferator-Activated Receptor alpha (PPAR-α) in 3T3-L1 cells and primary adipocytes with DB treatment. Conclusions: These results indicate that the anti-obesity effects of DB may be related to the browning of white fat, providing a novel potential candidate for anti-obesity drug development. Full article

Background: The Pech ethnic group, comprising approximately 6024 individuals in northeastern Honduras, represents one of the country’s smallest indigenous communities with a rich cultural heritage extending to pre-Columbian times. Despite their historical significance, no population genetic studies have been conducted on this group, and population-specific databases are essential for accurate forensic applications. Methods: Allele frequencies for 23 autosomal short tandem repeat (STR) loci were determined in 100 unrelated Pech individuals (58 females, 42 males) from communities in the departments of Olancho, Colón, and Gracias a Dios. DNA was extracted from blood samples collected on FTA cards and amplified using the PowerPlex Fusion 6C System. Statistical parameters were calculated using Genepop v4.2 and Arlequin v5.3.2.2. Results: All loci exhibited substantial polymorphism. No statistically significant deviations from Hardy–Weinberg equilibrium were detected after Bonferroni correction (α = 0.0022). Expected heterozygosity ranged from 0.4033 (TH01) to 0.8563 (FGA). The combined power of discrimination exceeded 99.9999%, and the combined chance of exclusion was 99.9999%. Conclusions: This study presents the first genetic characterization of the Pech population, providing essential reference data for forensic identification, paternity testing, and population genetics research. The dataset fills a critical gap in the Honduran forensic genetic infrastructure and contributes to understanding indigenous Central American genetic diversity, enabling accurate forensic analyses for individuals of Pech ancestry in compliance with CODIS and ESS standards. Full article

Obesity is characterized by abnormal adipose tissue expansion and energy metabolism imbalance. Browning of white adipose tissue (WAT), wherein white adipocytes acquire thermogenic properties similar to brown adipose tissue, represents a key mechanism for increasing energy expenditure. Although ginseng (Panax ginseng C.A. Meyer) is widely recognized as a health-promoting botanical, its role in WAT browning has not been fully elucidated. This review summarizes evidence that ginseng and its bioactive components regulate major thermogenic pathways, including β-adrenergic/cyclic adenosine monophosphate-protein kinase (cAMP-PKA) signaling, AMP-activated protein kinase (AMPK), and the peroxisome proliferator-activated receptor γ (PPARγ)/coactivator 1α (PGC-1α) axis, thereby upregulating key markers such as uncoupling protein 1 (UCP1), PR domain containing 16 (PRDM16) and type II iodothyronine deiodinase (DIO2). These effects promote mitochondrial function and fatty acid oxidation, reduce lipogenesis, alleviate inflammation, and improve insulin sensitivity, collectively fostering a microenvironment conducive to browning. Furthermore, fermentation has been found to enhance the bioactivity and thermogenic efficacy of ginseng. Recent evidence indicates that gut microbiota and their metabolites—such as short-chain fatty acids, unsaturated fatty acids, and bile acids—play a notable role in ginseng-induced thermogenesis via receptors including G-protein-coupled receptor 41/43 (GPR41/43), takeda G-protein-coupled receptor 5 (TGR5), and farnesoid X receptor (FXR). These multi-organ interaction networks involving the gut–fat, gut–liver, and gut–brain axes reflect the role of ginseng in integrating systemic metabolism. In summary, this review discusses the multi-level regulatory network through which ginseng promotes WAT browning, providing a mechanistic basis for its potential application in body weight and metabolic health management. Full article

Urban green spaces (UGSs) are considered a key component of the urban ecosystem because they promote sustainable development and can improve people’s quality of life. The present study aimed to analyze human perceptions of services and disservices provided by UGSs in the city of Puerto Maldonado (southeastern Peruvian Amazon) and their relationships with socioeconomic variables. A questionnaire was designed to quantify the degree of user agreement regarding 14 services and 15 disservices provided by UGSs. Cultural and ecosystem services received the highest level of agreement. Thus, providing shade and reducing air temperature, improving air quality, beautifying the urban environment, and regulating rainwater were the four most important services of UGSs. However, the respondents perceived that the main concerns generated by UGSs were reduced visibility for drivers and damage to infrastructure. There were significant but weak associations among four socioeconomic factors and residents’ perception. Likewise, the age, education, and income level of respondents were significantly related to perceived levels of most UGS services and disservices. The findings are valuable because they provide relevant information for developing sustainable public policies for urban areas and to align them to maintain and enhance the services provided by UGSs and diminish their potential disservices. Full article

The natural resources and local communities of Madre de Dios, Peru, face severe environmental degradation due to illegal mining, deforestation, and the expansion of agricultural activities, threatening one of the most ecologically sensitive regions of the Amazon. This research proposes a low-carbon and bioclimatic architectural design for a Sustainable Interpretation and Research Center dedicated to the conservation of the ecosystems of Manu National Park. The study is based on an analysis of the surrounding environment in terms of flora, fauna, and climate, applying bioclimatic strategies focused on sustainability and supported by specialized digital tools (Revit 2024, Canva, Global Mapper 2024, SketchUp 2024, Photoshop 2022, and Illustrator 2022). The project presents a bioclimatic architectural design that integrates constructive techniques ensuring thermal comfort in a warm-humid climate, while promoting the use of clean technologies such as photovoltaic solar systems generating 15,571.8 kWh per year and a rainwater harvesting system collecting 70,675 L annually. The infrastructure is built with bamboo and locally sourced wood, renewable materials that ensure durability and low environmental impact. In addition, the design includes the reforestation of 17.92% of the total area and 3.46% of public spaces, incorporating native species such as Brazil nut, rosewood, and capirona to reinforce local biodiversity. Overall, this research demonstrates how low-carbon construction, renewable materials, and bioclimatic design can contribute to sustainable development, environmental awareness, and the preservation of natural ecosystems in tropical regions. Full article

In modern smart dairy farms, precise feed management and accurate monitoring of dairy cows’ feeding behavior are crucial for improving production efficiency and reducing feeding costs. However, in practical applications, complex environmental factors such as varying illumination, frequent occlusion, and dense multi-targets pose significant challenges to real-time visual perception. To address these issues, this paper proposes a lightweight multi-target detection model, BFDet-YOLO, for the joint detection of dairy cows’ feeding behavior and feed density levels in pasture environments. Based on the YOLOv10 framework, the model incorporates four targeted improvements: (1) a bidirectional feature fusion network (BiFPN) to address the insufficient multi-scale feature interaction between dairy cows (large targets) and feed particles (small targets); (2) a lightweight downsampling module (Adown) to preserve fine-grained features of feed particles and reduce the risk of small target miss detection; (3) an attention-enhanced detection head (SEAM) to mitigate occlusion interference caused by cow stacking and feed accumulation; (4) an improved bounding box regression loss function (DIoU) to optimize the localization accuracy of non-overlapping small targets. Additionally, this paper constructs a pasture-specific dataset integrating dairy cows’ feeding behavior and feed distribution information, which is annotated and expanded by combining public datasets with on-site monitoring data. Experimental results demonstrate that BFDet-YOLO outperforms the original YOLOv10 and other mainstream target recognition models in terms of detection accuracy and robustness while maintaining a significantly streamlined model scale. On the constructed dataset, the model achieves 95.7% mAP@0.5 and 70.7% mAP@0.5:0.95 with only 1.85 M parameters. These results validate the effectiveness and deployability of the proposed method, providing a reliable visual perception solution for intelligent feeding systems and smart pasture management. Full article

Background: In tropical regions, dengue and leptospirosis coexist and share a nonspecific clinical onset that hinders timely diagnosis. Coinfection may worsen the clinical course and increase mortality. Objective: To estimate the prevalence of dengue, leptospirosis, and coinfection among patients with febrile syndrome in Madre de Dios (Peru) and to identify associated clinical factors. Methods: Observational, analytical, cross-sectional, retrospective study conducted at a primary-level health facility. Clinical and laboratory records of patients with febrile syndrome seen in 2024 were analyzed. Categorical variables were summarized as frequencies (%) and numeric variables as mean ± SD or median [IQR]. Comparisons used chi-square or Fisher’s exact test, Student’s t test, or the Mann–Whitney U test, as appropriate. Associations were estimated using Poisson regression models with robust variance, adjusted for sex, reporting prevalence ratios (PRs) and 95% CIs. Analyses were performed in R 4.0.2. Results: A total of 226 patients were included. Positivity was 19.0% for dengue (43/226), 66.8% for leptospirosis (151/226), and 5.8% for coinfection (13/226). In the bivariate analysis, dengue was associated with higher temperature (p < 0.001), lower mean arterial pressure (p = 0.007), mucosal bleeding/ecchymosis (p = 0.049), and lower fluid intake (p = 0.021); temperature was also higher in coinfection (p = 0.021). In Poisson models, dengue was associated with tachycardia (PR = 5.69; 95% CI: 1.95–13.07; p < 0.001), temperature (PR = 1.61 per °C; 1.23–2.12; p = 0.001), bilateral polyarthralgia (PR = 2.55; 1.14–5.04; p = 0.012), and mucosal bleeding/ecchymosis (PR = 3.31; 0.94–8.37; p = 0.027). Leptospirosis was associated with male sex (PR = 0.78 vs. female; 0.65–0.94; p = 0.010) and fever (PR = 2.38; 1.17–6.03; p = 0.035). Leptospira–dengue coinfection was related to higher temperature (PR = 1.75 per °C; 1.05–3.01; p = 0.036). Conclusions: Simple clinical signs such as fever/elevated temperature, tachycardia, bilateral polyarthralgia, and mucosal bleeding can help prioritize suspicion of dengue, leptospirosis, or coinfection; guide requests for dual testing (dengue–Leptospira), early hydration in dengue, and timely initiation of antibiotic therapy in leptospirosis. These findings support the development of integrated triage algorithms and strengthening access to molecular diagnostics in high-burden febrile syndrome settings. Full article

Background: Cardiac rehabilitation (CR) is a fundamental pillar in the therapeutic pathway of patients with cardiovascular disease, contributing significantly to improving quality of life and reducing the risk of cardiovascular event recurrence. Over the past decades, this approach has progressively evolved, integrating multidisciplinary strategies based on scientific evidence. This study aimed to conduct a detailed analysis of the anthropometric, clinical, and functional characteristics of patients enrolled in the CR Unit of the San Giovanni di Dio and Ruggi D’Aragona University Hospital in Salerno, with particular attention to therapeutic changes, drug titration, and cognitive assessment. Methods: Specifically, the anthropometric, clinical, laboratory, and instrumental data of 95 patients (age 66.56 ± 0.99 years, 75% male) who underwent the CR program between 2023 and 2025 were analyzed. Results: Patients with various diagnoses were enrolled in the CR program: 17% heart failure, 18% cardiac surgery, 20% acute coronary syndrome, 16% chronic coronary syndrome, 29% dyspnea. The patients had numerous comorbidities and risk factors: 73% arterial hypertension, 77% dyslipidemia, 35% diabetes mellitus, 33% smoking, 13% thyroid dysfunction, 47% CAD, 18% CKD, 16% COPD. At baseline, Cardiopulmonary exercise test (CPET) showed a moderately reduced functional capacity (VO₂ peak pre-CR: 14.29 ± 0.53 mL/min/kg; VO₂% predicted pre-CR: 62.19 ± 2.43%), and a significant improvement was recorded in meters at 6 min walk test (6MWT) post-CR (pre-CR: 306.02 ± 9.93 m vs. post-CR: 378.88 ± 13.37 m; p < 0.05). Notably, 22% of patients had a Qmci score < 49.4 points, indicating an MCI. Finally, the cardiovascular therapy was titrated and adapted; specifically, we recorded a significant increase in the use of SGLT2i therapy (pre-RC 22.00% vs. post-RC 34.00%; p < 0.05). Conclusions: In conclusion, CR proved to be safe and effective in enrolled patients; further studies will be needed to investigate the therapeutic modifications implemented during CR programs in more detail. Full article

Underground utility tunnels face corrosion, cracks, and leakage after long-term use, endangering urban safety. Traditional methods have strong subjectivity, high miss rates, and poor real-time performance, failing refined management needs. This paper proposes an attention-enhanced YOLOv11 rather than YOLOv10 because its C3k2 backbone and dynamic anchor head already surpass YOLOv10 by 1.8% mAP for pipeline defect detection in utility tunnels. It uses homomorphic filtering to improve low-light image quality; replaces the last two C3k2 modules of the original YOLOv11 with a Multi-Scale Feature Aggregation Module to capture micro-cracks via expanded receptive fields; introduces a bidirectional weighted feature pyramid network in the neck (with C2PSA/BRA attention) for cross-scale feature fusion and background suppression, which yields both fine-grained micro-crack sensitivity and global false-target suppression; and adopts DIoU loss in the detection head to reduce slender defect localization errors. Experiments on 5000 utility tunnel defect images show the improved algorithm achieves 93.2% precision, 92.4% recall, and 92.6% mAP—outperforming the original YOLOv11, Faster R-CNN, and YOLOv5. Ablation experiments confirm module effectiveness, cutting relative error by 75% compared with the baseline. This algorithm can accurately identify multiple types of defects in complex utility tunnel environments, providing technical support for the safe and efficient operation and maintenance of urban infrastructure. Full article

Subsistence family farming in Peru is increasingly constrained by ecosystem degradation, climate variability, and limited access to productive services, particularly where environmental exposure is high. This study develops an Agro-productive and Territorial Vulnerability Index (IVAPT) to evaluate environmental, ecosystem, and socioeconomic vulnerability of subsistence agriculture at the district level nationwide. The index integrates district-level agricultural survey data (ENA-2024) with multi-temporal MODIS NDVI series (2000–2024) and comprehensive climatic, topographic, land-cover, and accessibility indicators, processed through multivariate statistics. Three objective weighting schemes (ENTROPY, CRITIC, PCA) construct thematic sub-indices of Environmental Exposure (EnvExp), Ecosystem Condition (EcoCond), and Socioeconomic Capacity (SocioCap). Results show more than half of Peru’s 1552 districts fall within moderate to very high vulnerability, with highest concentration in the Amazon region (Loreto, Ucayali, Madre de Dios), Andean-Amazonian transitions, and highland districts (Huancavelica, Apurímac, Ayacucho, Puno) where biophysical constraints, ecosystem pressure, and socioeconomic isolation converge. Dimensional spatial complementarity EnvExp peaking on coast, EcoCond in Amazon, SocioCap in Andes demonstrates effective vulnerability reduction requires dimension-specific interventions. Despite divergent weighting schemes, spatial patterns remained consistent, validating identified hotspots. IVAPT provides a reproducible framework supporting evidence-based territorial planning and targeted investments in water infrastructure, ecosystem restoration, and climate adaptation. Full article

Acute lung injury (ALI) is a clinically severe respiratory disorder, of which autophagy is the crucial mechanism. Exosomes have the potential to treat ALI, but the role of adipose-derived exosomes (ADEs) in the autophagy of ALI remains unclear. Using an LPS-induced ALI model, the effects of ADE isolated from a lean or diet-induced-obese (DIO) mouse and ADE-carried miRNAs were investigated. After administration of ADEs, the levels of autophagy-related molecules were determined by qRT-PCR, Western blotting, and immunohistochemical staining. Then, a miRNA targeting HMGB1 was screened by bioinformatic analysis and a dual-luciferase reporter assay, and its effect on the HMGB1-driven autophagy in an ALI mouse was investigated as ADEs. The data showed that LPS caused lung injury and activated HMGB1-driven autophagy. The ADEs from a lean mouse or DIO mouse significantly alleviated histopathological lesions, and they inhibited HMGB1-driven autophagy by down-regulating LC3, Beclin-1, and Atg5; the effects of ADEs were not significantly different between a lean and DIO mouse. Of the miRNAs carried by ADE, moreover, miR-142a-3p could specifically bind to HMGB1 mRNA, and up-regulation of pulmonary miR-142a-3p suppressed HMGB1-driven autophagy and relieved lung injuries. Our results indicated that miR-142a-3p and ADEs mitigate LPS-induced ALI by inhibiting HMGB1-driven autophagy, providing new insights on the prevention and treatment of ALI. Full article

Diabetes mellitus (DM) is recognized as a major contributor to impaired testicular function and compromised male fertility. In the present study, the protective effects of the natural flavonoid diosmin (Dios) against diabetes-induced testicular injury were investigated using a rat model of streptozotocin (STZ)-induced diabetes. Diabetes was induced in rats via a single intraperitoneal injection of STZ at a dose of 50 mg/kg body weight. Dios was administered at doses of 25 and 50 mg/kg body weight for eight weeks. Diabetic rats displayed marked testicular dysfunction, evidenced by reduced serum testosterone levels, deteriorated sperm parameters, and pronounced histopathological alterations in testicular tissues. Biochemical analysis revealed elevated levels of oxidative stress markers, including malondialdehyde and protein carbonyls, along with decreased levels of reduced glutathione and diminished activities of catalase and superoxide dismutase in the testicular tissues. Furthermore, diabetes exacerbated testicular inflammation, as indicated by increased immunoexpression of NF-κB p65 and levels of pro-inflammatory cytokines. Likewise, diabetes induced testicular apoptosis, demonstrated by increased Bax and caspase-3 levels and decreased Bcl-2 levels. Treatment of diabetic rats with Dios significantly attenuated sperm parameters and testicular architecture and mitigated oxidative stress, inflammatory responses, and apoptotic cell death. Additionally, Dios enhanced antioxidant defense mechanisms and restored the Sirt1/Nrf2/HO-1 signaling pathway in the testicular tissues of diabetic rats. These results suggest that Dios may serve as an adjuvant therapeutic agent for diabetes-associated testicular dysfunction. Full article

In recent years, heavy metal emissions in Lhasa have been increasing, which has an impact on the local water environment. The negative effects of copper (Cu²⁺) on aquatic ecosystems have attracted much attention, as even low concentrations of Cu²⁺ can exert toxic effects on aquatic organisms. However, the impact of Cu²⁺ on native fish species from the Lhasa River remains poorly understood. In this study, Schizopygopsis younghusbandi (S. younghusbandi) larvae were exposed to Cu²⁺ at concentrations of 0. 5, 5, 50, and 500 μg/L for 7 or 14 days to evaluate its toxic effects on thyroid function and the antioxidant system. The results indicate that whole-body total thyroxine (T4) and triiodothyronine (T3) levels were significantly decreased following Cu²⁺ exposure. This decrease was accompanied by a marked increase in dio1 and dio2 gene expression and decreased expression of thyroid hormone synthesis genes (nis, tg, ttf1 and pax8) after exposure to Cu²⁺. Furthermore, the activity of superoxide dismutase (SOD), catalase (CAT), and glutathione reductase (GR) and the content of lipid peroxidation were increased, while the content of glutathione (GSH) was decreased. In addition, the survival rates and body lengths of S. younghusbandi larvae were significantly reduced following 7- and 14-day Cu²⁺ exposure. The Integrated Assessment of Biomarker Response (IBR) analysis further revealed dose- and time-dependent effects of Cu²⁺ on the larvae. In conclusion, the findings demonstrate that Cu²⁺ exposure induced disruption of thyroid endocrine and antioxidant systems and caused developmental toxicity in S. younghusbandi larvae. Full article

Background: As a widely used chemotherapeutic agent, cisplatin frequently induces acute kidney injury (AKI), which severely compromises patient survival and limits its clinical use. While the natural flavonoid diosmetin (Dio) shows promise in mitigating cisplatin-induced nephrotoxicity, its clinical translation is challenged by poor solubility, low bioavailability, and incompletely elucidated mechanisms. This study aimed to overcome these limitations by developing a novel drug delivery system using the microalgae Dunaliella salina (D. salina, Ds) to load Dio (Ds-Dio), thereby enhancing its efficacy and exploring its therapeutic potential. Methods: We first characterized the physicochemical properties of Ds and Dio, and then Ds-Dio complex was synthesized via co-incubation. Its nephroprotective efficacy and safety were systematically evaluated in a cisplatin-induced mouse AKI model by assessing renal function (serum creatinine, blood urea nitrogen), injury biomarkers, histopathology, body weight, and organ index. The underlying mechanism was predicted by network pharmacology and subsequently validated experimentally. Results: The novel Ds-Dio delivery system has been successfully established. In the AKI model, Ds-Dio significantly improved renal function and exhibited a superior protective effect over Dio alone; this benefit is attributed to the enhanced bioavailability provided by Ds carrier. In addition, Ds-Dio also demonstrated safety performance, with no evidence of toxicity to major organs. Network pharmacology analysis predicted the involvement of PI3K/AKT pathway, which was experimentally verified. Specifically, we confirmed that Ds-Dio alleviates AKI by modulating the PI3K/AKT pathway, resulting in concurrent suppression of NF-κB-mediated inflammation and activation of NRF2-dependent antioxidant responses. Conclusions: This study successfully developed a microalgae-based drug delivery system, Ds-Dio, which significantly enhances the nephroprotective efficacy of Dio against cisplatin-induced AKI. The nephroprotective mechanism is associated with modulation of the PI3K/AKT pathway, resulting in the simultaneous attenuation of oxidative stress and inflammation. Full article

Salinity has been recognized as one of the major environmental stresses that restrict the growth and quality of celery (Apium graveolens L.). Therefore, this study investigates the impact of different NaCl concentrations on celery growth and photosynthetic characteristics, as well as the potential regulatory role of exogenous trehalose application in mitigating the stress-induced effects. The results indicated that an increase in NaCl concentration from 50 to 200 mM markedly inhibited the growth of celery plants compared to that under control conditions. The application of different concentrations of trehalose mitigated the inhibitory effects of salt stress (100 mM NaCl) on celery growth and photosynthesis. Among the different trehalose treatments, T3 (10 mM trehalose) exhibited the most significant effects, increasing the aboveground biomass, belowground biomass, plant height, chlorophyll a, chlorophyll b, total chlorophyll, and net photosynthetic rate compared to that of salt stress alone, respectively. Furthermore, trehalose treatments enhanced the various fluorescence parameters, including the maximum efficiency of PSII photochemistry (Fv/Fm), coefficient of photochemical quenching (qP), fluorescence intensity, and photosynthetic performance index (PIabs) under salt stress. Meanwhile, trehalose reduced intercellular carbon dioxide concentration, excess excitation energy (1-qP)/NPQ, heat dissipation per unit area (DIo/CSm), and energy dissipated per reaction center (DIo/RC). Additionally, the results of principal component analysis (PCA) and membership function comprehensive evaluation indicate that an appropriate concentration of trehalose positively alleviates the salnitiy-induced effects in celery. Overall, the T3 demonstrated the most promising effects on mitigating the effects of salt stress by decreasing the excess excitation energy of PSII in celery leaves through the heat dissipation pathway. This reduction lowers the excitation pressure on the reaction centers, enhances the activity of PSII reaction centers per unit cross-section, and improves photosynthesis activity, thereby improving the growth of celery plants under salt stress. Full article