Search Results (2,308)

Pertussis is a highly contagious respiratory infection caused by Bordetella pertussis and remains a persistent global health challenge despite widespread vaccination. This review aims to analyze the immune pathogenesis of B. pertussis infection and to identify key immunological limitations of current acellular pertussis vaccines that contribute to ongoing transmission. A narrative review of the literature was conducted, focusing on mechanisms of host–pathogen interaction, immune evasion, and vaccine-induced immunity. Evidence indicates that although acellular vaccines effectively reduce disease severity, they fail to prevent nasopharyngeal colonization and transmission, largely due to insufficient induction of mucosal immunity, T helper 1 (Th1) and T helper 17 (Th17) responses, and airway tissue-resident memory T cells. In contrast, natural infection induces broader immune responses, including secretory IgA production and robust cellular immunity, which are associated with improved bacterial clearance. Emerging next-generation vaccine strategies, including mucosal, outer membrane vesicle-based, and live-attenuated platforms, demonstrate enhanced ability to reduce bacterial colonization in preclinical and clinical models. In conclusion, effective control of pertussis transmission will require vaccine approaches that replicate infection-induced immunity at the respiratory mucosa, emphasizing the need for redesigned immunization strategies. Full article

Annona cherimola is a plant species widely used in Mexican traditional medicine, particularly in the management of diabetes. This study aimed to investigate the antihyperglycemic properties of the petroleum ether extract of A. cherimola leaves (PEEAcL), as well as to evaluate their effects on glycated hemoglobin and toxicity. In addition, the work was directed to determine its potential as an SGLT-1 and α-glucosidase inhibitor. The effect as a potential SGLT-1 and α-glucosidase inhibitor of PEEAcL was evaluated utilizing intestinal glucose absorption (IGA), oral glucose tolerance (OGT), oral sucrose tolerance (OST) and intestinal sucrose hydrolysis (ISH) tests. PEEAcL administered at doses of 200 mg/kg showed significant antihyperglycemic activity after 1 h of treatment, and the maximum effect was seen at 4 h in male and female diabetic mice. In the OST, OLT, and OGT tests, PEEAcL generated a reduction in the postprandial glucose peak at 2 h after the administration of a carbohydrate load, showing an effect comparable to that of acarbose and canagliflozin. In the IGA trial, PEEAcL significantly reduced glucose uptake in the small intestine. Similarly, in the ISH, PEEAcL recorded a significant reduction in glucose concentration in the external aqueous medium. Taken together, these results suggest that the antihyperglycemic effect of PEEAcL could be mediated, at least in part, by inhibition of SGLT-1 and the enzyme α-glucosidase. Full article

Reliable high-precision positioning in railway tunnels is essential for intelligent train operation and safety monitoring, yet GNSS signals are severely degraded by blockage and multipath. This paper proposes a deployment-oriented numerical framework to optimize pseudolite layouts in tunnels by explicitly modeling visibility obstruction and controlling worst-case geometry along the train trajectory. A high-fidelity 3D tunnel–train model is established, in which line-of-sight (LoS) availability is screened under vehicle occlusion and trajectory-level geometric quality is evaluated accordingly. Instead of optimizing only the average PDOP, the proposed framework minimizes the trajectory 90th-percentile PDOP (qPDOP) to suppress tail-risk geometric degradation, while interpreting PDOP as an error amplification factor that directly affects positioning reliability under measurement noise and local multipath. The core contribution is a Voronoi-partition-constrained improved genetic algorithm (IGA) for tunnel pseudolite deployment. Voronoi partitioning enforces segment-wise coverage by requiring at least one pseudolite in each partition cell and avoids clustering-induced blind zones. Meanwhile, the IGA incorporates improved search and constraint-handling mechanisms to satisfy practical engineering requirements, including feasible installation regions, minimum spacing, mounting-face balance (ceiling/side walls), communication range, and continuous satellite visibility. Comparative simulations and ablation studies demonstrate that the proposed method achieves more uniform coverage and significantly improves full-trajectory geometric stability, reducing high-quantile PDOP and mitigating local spikes in occlusion-sensitive sections under cost-constrained sparse deployments. The proposed framework provides a practical and flexible toolchain for designing positioning-oriented pseudolite infrastructures in underground transportation environments. Full article

IgA nephropathy is the most common primary glomerulonephritis worldwide and a leading cause of chronic kidney disease and kidney failure, with geographic and ancestral variation and a course ranging from asymptomatic urinary abnormalities to progressive loss of kidney function. This narrative review links the multi-hit model to risk stratification, biomarkers, current management, and emerging therapies, and highlights implementation gaps. Risk assessment is longitudinal, prioritizing proteinuria and estimated glomerular filtration rate trajectories and integrating Oxford MEST-C, prediction tools, and biomarker and multi-omics approaches, while recognizing limitations in histologic reproducibility and model calibration. Current management is anchored in optimized supportive care aimed at sustained proteinuria reduction and kidney protection, including intensive blood pressure control with maximal tolerated renin–angiotensin system blockade, dietary sodium restriction and lifestyle measures, and sodium–glucose co-transporter 2 inhibitors for eligible patients. For selected higher-risk patients with persistent proteinuria despite optimized supportive care, immunomodulatory strategies are discussed, including systemic corticosteroids and targeted-release budesonide (Nefecon), emphasizing structured toxicity risk mitigation and cautioning against assuming interchangeability among alternative oral budesonide formulations. Emerging therapies are organized around mechanism-aligned targets across the BAFF/APRIL axis, complement pathways, and endothelin-based approaches, with growing interest in sequencing and combination regimens layered on supportive care. Key gaps include reliance on surrogate endpoints, limited long-term durability and safety data, and uneven evidence for special populations. Full article

Background/Objectives: Serum protein electrophoresis (SPE) is a widely used laboratory test for the detection and monitoring of monoclonal gammopathies, including multiple myeloma (MM). Although SPE is usually recommended in the presence of specific clinical or laboratory abnormalities, monoclonal gammopathies may occasionally develop rapidly and without typical symptoms. This case report aims to emphasize the diagnostic value of SPE in identifying an unexpected and fast-evolving monoclonal gammopathy. Methods: We report the clinical and laboratory eight-month follow-up of a 58-year-old male who initially underwent SPE for unrelated clinical conditions. Serial SPE analyses were performed using capillary zone electrophoresis. When abnormalities emerged, immunotyping and serum free light chain (FLC) assays were conducted. The diagnostic workup was completed with bone marrow aspiration, flow cytometry, and imaging studies according to current international diagnostic criteria. Results: The initial SPE (November 2023) showed a normal protein profile. After eight months, follow-up SPE revealed a prominent monoclonal spike in the gamma region (2.9 g/dL), associated with increased total serum proteins (91 g/L; range 64–82 g/L), elevated IgA levels (20.0 g/L; range 0.4–3.5 g/L), and a markedly abnormal κ/λ FLC ratio (54.00; range 0.31–1.56). Bone marrow analysis demonstrated >18% plasma cell infiltration, confirming the diagnosis of IgA-κ MM. The patient underwent standard therapy followed by autologous stem cell transplantation, achieving disease remission. Conclusions: This case highlights that clinically relevant monoclonal gammopathies may arise rapidly in the absence of classical diagnostic features. Routine SPE represents a cost-effective and accessible screening tool that can identify subtle protein abnormalities, prompting the timely use of more specific and invasive diagnostic procedures for aggressive plasma cell disorders. Full article

This study investigates the regulatory effects of dietary supplementation with DMG-Na on growth performance, immunity, and intestinal development in IUGR lambs. A total of 45 lambs were used: thirty IUGR (3.10 ± 0.16 kg) lambs were randomly assigned to IUGR or IUGR + DMG-Na (0.1% in milk replacer from days 7–56) groups, with fifteen normal birth weight lambs as CON (4.32 ± 0.17 kg). At 56 days of age, eight lambs per group were slaughtered for sample collection. Compared to CON, IUGR lambs showed a significantly lower final body weight and average daily gain (ADG) (p < 0.01); IUGR also severely compromised intestinal structure, markedly decreasing villus height and villus height-to-crypt depth ratio across all small intestinal segments (p < 0.01); immune function was impaired, with highly significantly lower jejunal secretory IgA (sIgA) (p < 0.01); and antioxidant capacity was diminished, evidenced by reduced jejunal GSH, catalase (CAT) and glutathione reductase (GR) activities (p < 0.05) and increased jejunal MDA content (p < 0.01). Compared to IUGR, IUGR + DMG-Na group had highly significant increased final body weight and significant increased ADG (p < 0.01); it enhanced intestinal morphology, notably increasing villus height and villus height-to-crypt depth ratio in the duodenum and jejunum (p < 0.01); immune markers improved, with elevated jejunal sIgA (p < 0.05); and antioxidant status was restored, demonstrated by increased jejunal GSH and CAT activities (p < 0.05) and decreased jejunal MDA content (p < 0.01). In conclusion, DMG-Na effectively counteracted IUGR-induced deficits by promoting intestinal development, immunity, and antioxidant capacity, ultimately improving growth performance. Full article

Background/Objective: This study is a cross-sectional investigation of long-term immune responses measured at different time intervals after COVID-19 infections, vaccinations, or combined exposure. The focus is on immune reactivity against recombinant spike (S) and nucleocapsid (N) protein antigens. Materials and Methods: Serum antibody levels were assessed up to four to four and a half years after infection or immunization, including virus-specific immunoglobulin G (IgG), IgA and IgM antibodies, as well as neutralizing antibodies against the S-protein. Cellular immunity was assessed by analyzing peripheral blood mononuclear cells (PBMC; n = 43 in first cohort, n = 32 in second cohort), including T-helper memory and cytotoxic subsets, and cytokine production after in vitro stimulation with recombinant SARS-CoV-2 proteins. A multiplex cytokine assay was used to analyze effector and regulatory immune responses. Results: Virus-specific IgG antibodies persisted for years after exposure to SARS-CoV-2, with IgG against the receptor-binding domain (RBD) correlating most strongly with neutralizing activity. Vaccinated individuals demonstrated higher IgA responses, whereas antibodies to the N-protein were associated with previous infection. No IgM antibodies were detected in any subjects, suggesting an immune response based on memory rather than ongoing infection. PBMCs from individuals with a history of both COVID-19 exposure and vaccination exhibited enhanced responsiveness, characterized by increased frequencies of memory T cells compared to vaccination alone. Stimulating with the S-protein induces higher cytokine production, including IFN-gamma, TNF-alfa, and IL-12(p70), compared with stimulation by the N-protein. Cytokines such as IL-10 and TGF-beta are also elevated, suggesting immune regulation rather than persistent inflammation. Conclusions: SARS-CoV-2 infection and vaccination are associated with persistent humoral and cellular immune responses detectable several years after exposure. Individuals with hybrid immunity exhibit broader and functionally enhanced immune reactivity, indicating more robust long-term immune memory. Future studies should focus on the long-term consequences of hybrid immunity and optimize other vaccine strategies, including recombinant antigen vaccines. Full article

Background: Non-typeable Haemophilus influenzae (NTHi) is a major cause of acute respiratory tract infections and chronic airway disease, despite its clinical importance, no licensed vaccine is available, largely due to the extensive genetic and antigenic diversity among circulating isolates. We previously identified conserved outer membrane proteins capable of inducing systemic protection against NTHi. Methods: In this study, we evaluated whether a multi-antigen protein vaccine composed of conserved NTHi antigens (P5 and P26) could protect against pulmonary infection. Transgenic mice expressing human transferrin and factor H were immunized via the intraperitoneal or intranasal route and challenged intranasally with a clinical NTHi isolate. Bacterial clearance, antigen-specific mucosal and systemic antibody responses, and recruitment of innate immune cells to the airways were assessed. Results: Both immunization routes significantly reduced bacterial loads compared with controls. Vaccination induced robust mucosal and systemic IgG and IgA responses and enhanced early recruitment of macrophages, monocytes, dendritic cells, and neutrophils to the airways. Intranasal immunization elicited strong mucosal antibody responses and was associated with improved local bacterial clearance. Conclusions: These findings demonstrate that multi-antigen vaccines targeting conserved NTHi proteins can elicit effective mucosal and systemic immunity and represent promising candidates for the prevention against NTHi respiratory infections. Full article

This study aims to develop a machine learning model that can accurately detect cyberattacks. We compare the performance of Support Vector Machine (SVM), Logistic Regression (LR), and Random Forest (RF) in predicting cyberattacks. Furthermore, we investigate whether using Information Gain Attribute Evaluation (IGAE) for feature selection improves the performance of the algorithms. This work provides a clear comparison of the algorithms and shows the most suitable one for classifying cyberattacks. In addition, this study combines LR and RF using a voting classifier along with IGAE and compares its performance with that of the rest of the algorithms. We investigate whether combining algorithms increases the accuracy of the results. The results show that the most accurate algorithm is RF, followed by LR and SVM. Contrary to initial expectations, the findings further indicate that the application of IGAE marginally reduces algorithm accuracy across the tested classifiers, suggesting that feature selection through information gain is not universally beneficial in cyberattack detection tasks. These findings contribute to the growing body of knowledge on effective machine learning methodologies for cybersecurity applications. Full article

Respiratory infections remain a leading cause of morbidity and mortality worldwide, highlighting the urgent need to better understand host defense mechanisms in the respiratory tract. Recent advances in sequencing technologies have challenged the traditional view of the lungs as sterile organs and revealed the presence of a distinct, low-biomass microbial community known as the lung microbiota. These microbial populations interact closely with airway epithelial cells and immune cells to maintain respiratory homeostasis and regulate host immune responses. In healthy lungs, microbial communities dominated by Firmicutes, Bacteroidetes, and Proteobacteria contribute to immune regulation through interactions with innate and adaptive immune pathways. Microbiota-derived signals are detected by pattern recognition receptors, activating signaling pathways that regulate cytokine production, immune cell recruitment, and T-cell differentiation. In the respiratory mucosa, microbial stimulation can also induce epithelial and antigen-presenting cells to produce B-cell activating factor (BAFF) and a proliferation-inducing ligand (APRIL), which promote immunoglobulin A (IgA) class-switch recombination and support mucosal antibody responses. During pulmonary infection, disruption of microbial communities can lead to dysbiosis that amplifies inflammatory responses, impairs epithelial barrier integrity, and increases susceptibility to secondary bacterial infections. In addition to local microbial interactions, the gut–lung axis represents a key communication pathway linking intestinal microbiota with respiratory immunity through microbial metabolites such as short-chain fatty acids (SCFAs) and immune signaling networks. This review summarizes current insights into microbiota–immune crosstalk in the lung during pulmonary infection and discusses how these interactions may inform mucosal vaccine development. A deeper understanding of host–microbiota interactions may enable microbiome-informed vaccines and therapeutic strategies to improve protection against respiratory diseases. Full article

Crohn’s disease (CD) is frequently accompanied by T-cell lymphopenia and impaired mucosal immunity, conditions that may predispose to intestinal microsporidiosis by Encephalitozoon cuniculi. This prospective case–control study examined the interplay between IL-7/IL-7 receptor (IL-7R) signaling and anti-E. cuniculi immune responses in 50 CD patients and 50 matched healthy controls. Serum IL-7 and anti-E. cuniculi IgG, IgM, IgA and IgE were quantified by ELISA, while intestinal expression of IL-7, CD127 (IL-7Rα) and CD132 (IL-7Rγ) was assessed by RT-PCR. Protein levels of IL-7 and caspase-3 were evaluated by Western blot, and lymphocyte subsets and apoptosis by flow cytometry. CD patients showed reduced anti-E. cuniculi IgG and IgM levels but increased seropositivity, indicating compromised humoral quality despite greater exposure. Compared with controls, CD was associated with decreased serum IL-7, increased mucosal IL-7, downregulated CD132, and diminished caspase-3, suggesting a disrupted IL-7/IL-7R-apoptosis pathway. In CD, IgA- and IgE-skewed responses correlated differentially with caspase-3 and CD56⁺ γδ T cells, while E. cuniculi seropositivity independently predicted a shorter surgery-free interval. These findings identify a profound dysregulation of the IL-7/IL-7R-CD132-caspase-3 axis in CD and implicate E. cuniculi exposure as a potential marker of impaired mucosal immunity and adverse outcomes. Full article

This work presents a methodology for integrating Computer-Aided Design (CAD), specifically using Rhinoceros 6, with Isogeometric Analysis (IGA) for vibroacoustic simulations. Since CAD models typically provide only boundary representations, the 3D domain is reconstructed through an immersed IGA approach. The methodology is first illustrated in a 1D setting and then extended to a 3D case. The vibroacoustic coupling strategy is also described, enabling an efficient analysis of coupled fluid–structure vibrations. The proposed framework ensures direct CAD/CAE integration, thereby reducing preprocessing efforts. Full article

Hormonal contraception is used by hundreds of millions of women worldwide and remains one of the most effective reversible methods of pregnancy prevention. Cardiovascular (CV) safety concerns, particularly venous thromboembolism (VTE), ischemic stroke, myocardial infarction, and blood pressure elevation, are important considerations when choosing forms of contraception. Estrogen-containing combined hormonal contraceptives (CHCs) increase the relative risk of VTE; however, among healthy young nonsmokers, absolute event rates remain low. Risk is strongly modified by estrogen dose, progestin type, route of administration, and individual factors such as age, smoking, migraine with aura, hypertension, obesity, inherited thrombophilia, the postpartum period, and concomitant prothrombotic medications. Progestin-only contraceptives and levonorgestrel-releasing intrauterine systems (LNG-IUSs) generally show a more favorable thrombotic profile and are preferred options for women with contraindications for estrogen. This review summarizes current evidence on the method-specific CV risks of hormonal contraception, highlights the mechanisms underlying these effects, and provides practical guidance for clinical decision-making. Full article

Background: Cysteine proteases of Clonorchis sinensis are potential diagnostic antigens, yet the performance of individual members within this diverse enzyme family requires systematic evaluation. This study aimed to assess the diagnostic potential of four recombinant cysteine proteases (rCsCP1–4) for human clonorchiasis. Methods: An indirect ELISA was developed to measure serum reactivity (IgG, IgG subclasses, IgA) against rCsCP1–4. The assay was validated using 180 microscopy-confirmed positive and 148 negative control sera. Samples were randomly split into training and validation sets (7.5:2.5). Diagnostic performance of single antigens and their combinations was evaluated using univariate and multivariate logistic regression and compared with a commercial kit. Key metrics included the area under the curve (AUC), sensitivity, specificity, accuracy, F1-score, and Kappa coefficient. Results: Four single antigen–antibody pairs showed high performance: rCsCP1-IgG4 (AUC = 0.928), rCsCP2-IgA (AUC = 0.863), rCsCP3-IgG1 (AUC = 0.920), and rCsCP4-IgG4 (AUC = 0.958). Among these, rCsCP1-IgG4, rCsCP3-IgG1, and rCsCP4-IgG4 outperformed the commercial kit, achieving higher sensitivity (92.0%, 96.0%, 96.0% vs. 86.0%), specificity (87.5%, 81.3%, 90.6% vs. 78.1%), accuracy (92.0%, 88.9%, 94.1% vs. 86.0%), and F1-scores (0.902, 0.902, 0.939 vs. 0.829). The Kappa values for rCsCP1-IgG4 (0.768) and rCsCP4-IgG4 (0.773) indicated substantial agreement with the microscopic standard. Multi-antigen combinations (triple or quadruple) further enhanced performance, achieving sensitivity and specificity > 98% with an AUC approaching 1.0. Conclusions: This study identifies rCsCP1 and rCsCP4, particularly in combination with IgG4 detection, as highly promising diagnostic targets for clonorchiasis. Multi-antigen combinations significantly improved diagnostic performance compared to single-antigen assays, offering a strategy for high-precision diagnosis. Furthermore, the efficacy of the rCsCP2-IgA pair suggests that detecting fecal secretory IgA could be a novel avenue for non-invasive, self-testing applications. Full article

Background and aim: Celiac disease (CD) is a systemic autoimmune disorder triggered by gluten ingestion, and the only effective treatment is strict adherence to a gluten-free diet (GFD). Many factors, including limited dietary diversity and poor adherence, are associated with an increased risk of specific micronutrient deficiencies and malnutrition. This study aims to evaluate the relationship between adherence to GFD, celiac antibody levels, micronutrient levels, and nutritional status in children with CD. Methods: This retrospective study was conducted on 402 children aged 2–18 years with a diagnosis of CD confirmed positive by anti-tTG IgA and duodenal biopsy, all of whom had been on GFD for at least six months. Demographic, anthropometric, clinical, serological, and biochemical data (including hemogram, serum iron, ferritin, vitamin D, folate, and B12 levels), and GFD adherence were collected from medical records. Results: Most individuals are girls (64.9%), with a mean age of 10.6 ± 4.20 years. Chronic malnutrition was observed in 29.4% of patients. Acute malnutrition was identified in 27.8% of children, and wasting was observed in 6.7%. Iron deficiency anemia was the most frequently encountered micronutrient deficiency among the patients (23.9%). The prevalence of stunting was significantly higher among individuals with positive tTG-IgA levels and poor adherence to the GFD. Conclusions: Poor adherence to the GFD and positive tTG-IgA levels were associated with higher rates of stunting, underlining the need for individualized dietary follow-up and regular monitoring of both nutritional status and serological response in children with CD. Full article