Search Results (2,333)

Objectives: Varicella is a highly contagious viral disease affecting children. The SV-1 cell line-based varicella attenuated live vaccine (SV-1VarV) is the first vaccine produced using the human diploid SV-1 cell substrate. This study evaluated the real-world safety of SV-1VarV among school-aged children in Jiangsu Province, China. Methods: A retrospective descriptive study was conducted using data from the Jiangsu Provincial Immunization Program Information System and the Chinese National Adverse Event Following Immunization Information System (CNAEFIS). Children aged 7–12 years who received SV-1VarV between July 2024 and March 2025 were included. The incidence, clinical characteristics, and demographic patterns of Adverse Events Following Immunization (AEFI) were analyzed. Reporting rates were calculated per 100,000 doses. Statistical analyses included chi-square tests, Cochran–Armitage trend tests, and Poisson regression analyses (α = 0.05). Results: A total of 366 AEFI cases were reported following 1,096,117 administered doses (33.4/100,000 doses), of which 364 were adverse reactions (33.2/100,000). General reactions accounted for 97.8% (mainly fever and local reactions), and abnormal reactions accounted for 2.2% (0.73/100,000). No serious adverse events or vaccine quality-related events occurred. Adverse reaction reporting rates declined with increasing age (p < 0.001) and were higher in males than females (36.7 vs. 29.2/100,000; p = 0.001). Poisson regression indicated that older age was independently associated with a lower risk of adverse reaction reporting, whereas sex and dose number were not significantly associated. Conclusions: SV-1VarV demonstrated a favorable safety profile during large-scale use in children aged 7–12 years. Most reactions were mild, self-limiting, and consistent with expected post-vaccination responses. These findings provide robust real-world evidence supporting the continued and expanded use of SV-1VarV in school-aged children to optimize varicella immunization strategies. Full article

Background/Objectives: Conventional next-generation sequencing (NGS) workflows often require more than two weeks to complete, delaying treatment decisions and limiting access to precision oncology in community settings. This report aimed to demonstrate the feasibility of performing rapid, comprehensive cell-free DNA (cfDNA)-based genomic profiling by introducing a fully automated NGS workflow in a community hospital environment. Case Presentation: A postoperative patient with pancreatic ductal adenocarcinoma and liver metastasis underwent cfDNA-based liquid biopsy using plasma collected in PAXgene^® Blood ccfDNA Tubes. Gene analysis was performed using the Oncomine Precision Assay GX5 on the Ion Torrent Genexus™ System (Thermo Fisher Scientific). Three pathogenic hotspot mutations—KRAS G12R, TP53 M246I/M246K, and GNA11—and one copy number gain in PIK3CA were identified, whereas no variants were detected in a healthy volunteer control. The total turnaround time from plasma separation to report generation was approximately 27 h, requiring only 40 min of total hands-on time. Discussion: This rapid, automated workflow enabled comprehensive cfDNA analysis within a clinically practical timeframe, overcoming key limitations of conventional multi-step NGS workflows that typically require external sample shipment and specialized personnel. The results confirm the technical feasibility of conducting high-quality molecular testing in a regional hospital setting. Conclusions: This report demonstrates that fully automated cfDNA-based NGS can achieve clinically meaningful genomic profiling within 27 h in a community hospital. This advancement addresses the time and cost barriers of traditional NGS analysis and represents a significant step toward promoting precision medicine in community healthcare. Full article

Background: Gastrointestinal (GI) mucosal injury is a frequent complication of long-term nonsteroidal anti-inflammatory drug (NSAID) use. Effective mucosal healing requires coordinated epithelial migration, proliferation, and angiogenesis, which may be influenced by focal adhesion kinase (FAK). This study aimed to determine whether our newly developed FAK activators promote intestinal mucosal healing by enhancing angiogenesis and whether FAK activation increases resistance to reinjury. Methods: Ischemic jejunal ulcers were induced in C57BL/6 mice. After 24 h, mice received intraperitoneal injections of the FAK activator ZINC40099027 (ZN27, 900 µg/kg every 6 h) or vehicle for 2, 4, or 14 days. Ulcer areas were quantified, and liver and kidney function were assessed. Ulcer and adjacent tissues were analyzed by immunofluorescence staining for angiogenesis and proliferation markers. In vitro, human umbilical vein endothelial cells (HUVECs) were treated with ZN27 to evaluate proliferation, migration, angiogenesis, and intracellular signaling. In a reinjury model, male C57BL/6J mice received continuous infusion of the FAK activator M64HCl (25 mg/kg/day) or vehicle for 7 days, with a single subcutaneous injection of indomethacin (10 mg/kg) on day 1 to induce GI injury. Fourteen days after the first dose of indomethacin, the mice received a second indomethacin challenge, and one day later, total ulcer areas in the pyloric opening and small intestine were quantified. Results: Ulcer areas were significantly smaller in ZN27-treated mice compared with vehicle-treated controls at 3 and 5 days, accompanied by increased expression of angiogenesis and proliferation markers. In vitro, ZN27 enhanced HUVEC migration via FAK activation in an ERK1/2-dependent manner and increased the number of angiogenic sprouts. In the reinjury model, treatment with M64HCl during the initial indomethacin-induced injury resulted in significantly smaller ulcer areas in both the pyloric opening and small intestine after the second indomethacin challenge compared with controls. Conclusions: FAK activation accelerates ischemic ulcer healing, in part by enhancing angiogenesis. Moreover, FAK activation during an initial injury reduces susceptibility to recurrent NSAID-induced intestinal injury, perhaps because it promotes initial higher-quality ulcer repair. Full article

Antisense genes (usually suffixed by -AS) represent a class of long non-coding RNAs (lncRNAs) transcribed from the opposite strand of annotated human genes or exon(s). A total of ~2236 human antisense genes exist in the human genome. Their genomic locations with respect to the corresponding sense genes, their dysregulated expression patterns in cancer specimens, and clinical associations with patient outcomes reveal their potential importance in clinical settings. As of today, there lacks a comprehensive review of HNC-associated antisense genes/transcripts to help move forward the antisense field for genetic biomarker development or future drug research. In total, 2.3% (52/2236 antisense genes) of all known human antisense genes have been investigated in head and neck cancer (HNC). Thus, we perform a comprehensive review of the genomic aberrations (mutations, copy number changes, RNA-expression dysregulation, and single nucleotide polymorphisms) associated with HNC patient prognosis, disease progression, cancer cell signaling, drug sensitivity, and radio-resistance. Four antisense genes, namely HOXA10-AS, LEF1-AS1, MSC-AS1, and ZEB2-AS1, have been clinically cross-validated and have consistently demonstrated to be associated with patient outcomes in multiple independent cohorts by different research teams, with clear evidence for the prioritization of clinical biomarker development in HNC. Single nucleotide polymorphisms (SNPs) of antisense genes with evidence for HNC risk or outcomes should be further validated in different ethnic groups, for potential global HNC applications. Full article

Alzheimer’s disease (AD) is marked by cognitive decline, and also by retinal degeneration. Having in mind that docosahexaenoic acid (DHA, 22:6n − 3) is a safe, low-cost, and pivotal fatty acid for brain health and sustained cognitive function, this study exploits environmentally friendly non-fish sources as potential dietary supplements enriched with DHA to prevent or reverse AD. Forty 5xFAD transgenic male mice, aged five weeks old, were randomly distributed by five body weight-matched dietary groups (with eight animals each) and fed isocaloric diets based on the AIN-93M standard formulation for rodents for 6 months. Except for the control feed (without supplementation), each diet contained a modified lipidic fraction supplemented with 2% of the following: (1) linseed oil (LSO, rich in alpha-linolenic acid (ALA, 18:3n − 3)); (2) cod liver oil (fish oil, FO, rich in both DHA and eicosapentaenoic acid (EPA, 20:5n − 3)); (3) Schizochytrium sp. microalga oil (Schizo, with 40% of DHA); and (4) commercial DHASCO (DHASCO, with 70% of DHA). The aim of this study was to measure retinal neural layer thickness, calculate ganglion cell layer (GCL) density, and assess retinal injury by means of immunohistochemical staining for β-amyloid plaques deposition, TAU protein levels, and IBA1, as hallmark features of AD progression, in order to elucidate the effects of different dietary DHA treatments in Alzheimer’s retinas. Although no statistical differences were observed across retinal layer thicknesses depending on the diet (p > 0.05), there was a consistent pattern for slightly increased retinal thickness in 5xFAD mice fed fish oil relative to the others for the measurement of total layers, in general and for the inner segment/outer segment layer, the outer nuclear layer, the outer plexiform layer, the inner nuclear layer, and the inner plexiform layer, in particular. The ganglion cell layer (GCL) density was increased in 5xFAD mice fed the DHASCO oil diet relative to the control (p < 0.05), suggesting a benefit of DHA supplementation on the number of viable ganglion cells. No positive staining was observed for β-amyloid plaques deposition or the neuroinflammatory marker, IBA1, corroborating previous findings in human AD retinas. Conversely, the internal retinal layers showed intense TAU immunostaining. Immnunostained TAU area was significantly reduced in 5xFAD mice fed a fish oil diet compared to control (p < 0.05), although the number of TAU-positive cells did not differ across diets (p > 0.05). The retinal protected integrity derived from the benefits of DHA supplementation found, either from fish oil or DHASCO oil, underscores the potential of retinal biomarkers as non-invasive indicators of cognitive decline and overall brain health, opening new avenues for investigating AD pathophysiology in the retina. Full article

Unexplained infertility and idiopathic recurrent pregnancy loss (RPL) have a prevalence of 1–5% of women of reproductive age in different populations. There are a few reports comparing the circulating immune cell populations and subpopulations in these medical entities in admixed populations. The study aimed to assess the different leukocyte, mononuclear cell populations, and T lymphocyte subpopulations and HLADR expression, as a marker of activation, in an admixed group of Venezuelan women: 80 controls, 73 women with RPL (53 primary, 20 secondary), and 26 infertile (20 primary, six secondary). Endometriosis was clinically ruled out in all patients and controls. Total leukocytes were 10–12% higher (p < 0.0001) in the infertile group, while neutrophils were 11% in the infertility group (p < 0.0001). In contrast, lymphocytes, CD3CD4 cells, NK cells, and HLADR+ cells were elevated (10–15, 18–22, 50–60, and 700–800% increase, respectively) in all patient groups. Changes in B cell numbers and monocyte counts were also observed. HLADR expression was significantly increased (p < 0.0001) in T cells, CD56+ cells, and monocytes of all patients. In infertile patients, a correlation was recorded between HLADR and T memory cells. Marked differences in peripheral blood leukocytes, NK cells, monocytes, T-cell populations, and HLADR suggest a proinflammatory effect. HLADR can be used as a simple biomarker to monitor pharmacological treatment in these patients. Full article

Dendritic cell (DC) immunotherapy is a promising approach for treating cancers such as melanoma and prostate cancer. Although DC-based vaccines can elicit potent anti-tumor immune responses, dosing schedules in both preclinical and clinical settings are often chosen empirically rather than through quantitative optimization. In this work, we develop an enhanced mathematical model of tumor-immune dynamics that incorporates a more realistic tumor growth law and an estimated immune-response delay, enabling the systematic design of DC vaccination protocols. Tumor-growth and immunotherapy parameters were calibrated using experimental melanoma data and two metaheuristic optimization methods: Genetic Algorithm and Particle Swarm Optimization. Using the calibrated model, we derived vaccination schedules consisting of three injections totaling $2.4 \times {10}^6$ DCs. Despite using the same total dose as the baseline four-injection protocol, the optimized schedules reduced tumor burden by approximately $52\%$ over a 5000-h window, as measured by the area under the tumor-time curve, while also lowering the number of administrations. These results demonstrate that effective tumor control can be achieved without increasing treatment intensity and with substantially fewer vaccinations than previously assumed. Prior optimization studies often required cumulative doses exceeding $1 \times {10}^7$ cells to obtain comparable therapeutic effects. In contrast, our findings show that metaheuristic algorithms can produce dose-efficient and biologically grounded schedules that significantly enhance treatment performance. This work highlights the value of computational optimization as a decision-support tool for designing efficient and clinically meaningful DC immunotherapy protocols. Full article

Background: To meet the urgent need for novel antibacterial agents that are active also against worrying superbugs, natural pentacyclic triterpenoids, including totally inactive betulin (BET) and betulinic acid (BA), as well as ursolic acid (UA), active on Gram-positive bacteria, have been chemically modified, achieving compounds 1–7. Methods: Triterpenoid derivatives 1–7 and all synthetic intermediates were characterized by chemometric-assisted FTIR and NMR spectroscopy, as well as by other analytical techniques, which confirmed their structure and high purity. Minimum inhibitory concentration values (MICs) of 1–7, BET, BA and UA were determined by the broth dilution method, using a selection of Gram-positive and Gram-negative clinically isolated superbugs. Results: Performed experiments evidenced that compounds 4–7 had potent antibacterial effects against Gram-positive methicillin-resistant Staphylococcus aureus and S. epidermidis (MRSA and MRSE), as well as against vancomycin-resistant Enterococcus faecalis and E. faecium (VRE). The antibacterial effects of 4–7 were due to the insertion of a triphenyl phosphonium (TPP) group and were higher than those reported so far for other BET, BA and UA derivatives, especially considering the complex pattern of resistance of the isolates used here and their clinical source. Conclusions: For the first time, by inserting TPP, a real activity (MICs 2–16 µg/mL) was conferred to inactive BET and BA (MICs > 1024 and 256 µg/mL). Moreover, the antibacterial effects of UA were improved 16- and 32-fold against MRSE and MRSA (MICs = 2 vs. 32 and 64 μg/mL). Future Perspectives: Based on these very promising microbiologic results, new experiments are currently underway with the best-performing compounds 5 and 7 (MICs = 2 μg/mL) on an enlarged number of Gram-positive isolates, to confirm their MICs. Moreover, investigations about their possible antibiofilm activity, time-killing curves and cytotoxicity on eukaryotic cells will be carried out to define their pharmacological behavior and clinical potential. Full article

Lung adenocarcinoma (LUAD), the most prevalent subtype of non-small cell lung carcinoma (NSCLC), commonly metastasizes to the brain, particularly in advanced stages. Since brain metastases (BMs) are a leading cause of morbidity and mortality in LUAD patients, their early detection is critical, necessitating the identification of reliable biomarkers. Gangliosides (GGs), a class of bioactive glycosphingolipids involved in cell signaling, adhesion, and immune regulation, have emerged as promising candidates for diagnostic and therapeutic targeting in LUAD-associated brain metastases (BMLA). In this context, ion mobility spectrometry mass spectrometry (IMS-MS) was employed here to analyze GG alterations in BMLA tissues compared to healthy cerebellar control. The results revealed marked differences, including a reduction in the total number of species, altered sialylation profiles, and variations in fatty acid chain length and sphingoid base hydroxylation. GM3, a monosialodihexosylganglioside, was significantly overexpressed in BMLA, supporting its role in tumor progression via immune evasion and oncogenic signaling. Elevated levels of the brain-specific GT1 ganglioside further point to its possible role as a metastasis-associated biomarker, while the presence of asialogangliosides, absent in normal brain, suggests adaptation to the brain microenvironment. Structural modifications such as O-acetylation, fucosylation, and CH₃COO⁻ were more frequent in BMLA, being associated with aggressive tumor phenotypes. Ceramide profiles revealed increased levels of proliferative C16- and C24-ceramides and decreased pro-apoptotic C18-ceramide. Additionally, GM3(d18:1/22:0) and GD3(d18:1/16:0), identified as potential BMLA biomarkers, were structurally characterized using (−) nanoelectrospray ionization (nanoESI) IMS collision-induced dissociation tandem MS (CID MS/MS). Collectively, these findings highlight the clinical potential of GGs for early diagnosis and targeted therapy in BMLA. Full article

As a nutritionally important amino acid, cysteine (Cys) could attenuate oxidative damage on growth performance and intestinal barrier function in piglets. However, the mechanism of Cys in attenuating intestinal injury remains unclear. The aim of this study was to investigate the mechanism of Cys in defending against intestinal inflammation in piglets. A total of twenty-four piglets were divided into four groups and fed a diet with or without 0.1% BPA or Cys for a 28 d feeding trial. The results showed that Cys supplementation reinstated the jejunal barrier by increasing cell proliferation and the goblet cell number, and decreased cell apoptosis upon BPA exposure. Cys supplementation also decreased serum and jejunal pro-inflammatory cytokine and immunoglobulin levels in BPA-challenged piglets. Furthermore, Cys mitigated inflammation by normalizing the activation of the toll-like receptor 4 (TLR4)-JNK/MAPK-nuclear factor-kappa B (NF-κB) pathway caused by BPA. Additionally, dietary Cys supplementation restored the levels of butyrate, valerate and isovalerate in cecum contents that were decreased by BPA exposure. Meanwhile, Cys supplementation normalized the abundances of Prevotellaceae and Romboutsia upon BPA exposure. In conclusion, Cys is critical to nutrition through attenuating intestinal inflammation by regulating gut microbial balance and suppressing the TLR4-JNK/MAPK-NF-κB pathway. Full article

This study examines the in-plane compression behavior of sandwich panels produced with additive manufacturing. This study focuses on two types of honeycomb unit cell topologies with larger dimensions: a hexagonal one and a re-entrant one. For each panel geometry, two material configurations were examined: Onyx (a nylon-based composite) and Onyx reinforced with 10% continuous carbon fibers (CCFs) by mass. The objective was to assess the influence of fiber reinforcement on the mechanical performance and deformation response of the panel structures. In-plane compression tests were conducted to determine the stiffness, strength, and failure modes of the specimens. Additionally, the digital image correlation (DIC) technique was used to capture full-field strain distributions and analyze local deformation mechanisms during loading. The results revealed distinct mechanical responses between the two geometries: the re-entrant structure exhibited auxetic behavior and enhanced energy absorption characteristics. Although reinforced honeycomb panels have an average load capacity that is 35% higher, they fail at a displacement that is approximately 55% smaller compared to unreinforced panels. Despite accounting for only 25% of the total number of layers and 10% of the panel’s mass, the reinforcement achieved superior strength. Re-entrant panel testing showed a 25% force increase in favor of the reinforced variant. They fail at a displacement that is 36.5% greater than that of reinforced honeycombs. This demonstrates a more compliant response while also maintaining 4.9% greater strength, indicating the superior behavior of auxetic reinforced sandwich panels. Introducing CCF reinforcement increased the load-bearing capacity and reduced localized strain concentrations without altering the overall deformation pattern. These findings suggest that enhancing materials can increase the strength and flexibility of 3D-printed re-entrant structures, providing valuable insights for lightweight design and optimized material use in structural applications. Full article

Background: Prostacyclin (PGI₂), an abundantly produced bioactive lipid by oviductal epithelial cells, supports preimplantation embryo development by buffering oxidative stress. However, the mechanism linking PGI₂ signaling to embryonic redox control remains unclear. We investigated whether Iloprost (Ilo), a stable PGI₂ analogue, enhances preimplantation embryo development by alleviating oxidative stress via activation of the Nrf2/Keap1 pathway, and whether these effects depend on Nrf2 activity using the inhibitor brusatol. Methods: Porcine embryos were treated with Ilo to model oviductal PGI₂ signaling during in vitro culture. Developmental competence was evaluated by cleavage and blastocyst formation rates, and blastocyst quality by total cell number and TUNEL assays. Oxidative status was quantified by fluorescence detection of reactive oxygen species (ROS), and Nrf2 activation was assessed by nuclear localization and antioxidant-related gene expression. Results: Embryos treated with Ilo showed significantly increased blastocyst formation, reduced ROS, and upregulated antioxidant genes. Immunofluorescence confirmed increased nuclear translocation of Nrf2, indicating activation of the Nrf2/Keap1 signaling pathway. In contrast, embryos treated with brusatol showed reduced blastocyst formation, increased ROS, and downregulated antioxidant-related gene expression, whereas co-treatment with Ilo reversed these effects. Conclusions: This study demonstrates that PGI₂ protects embryos by activating Nrf2/Keap1 signaling, establishing this axis as a key antioxidant defense during embryonic development and highlighting its potential to improve embryo culture systems. Full article

Background: Long-term non-invasive ventilation (LT-NIV) can prolong life expectancy and may reduce the number of exacerbations in patients with COPD. The eosinophilic phenotype has recently gained significant attention as a treatable trait in COPD. However, it is less known how this phenotype relates to exacerbations and mortality in patients who are set up on LT-NIV. Methods: A total of 191 patients with COPD (65 ± 8 years, 55% women) who were setup on LT-NIV and followed-up (28/15–49/months) at our tertiary centre were analysed. The eosinophilic phenotype was defined by using an accepted cutoff for blood eosinophil count (≥300 cells/µL). Results: A total of 37 patients had the eosinophilic phenotype (66 ± 9 years, 60% women). There was a higher reduction in the number of exacerbations (1.0/−1.0–3.2/ vs. 0.05/−1.4–1.63/, p < 0.01) and a trend for a reduction in the rate of hospitalisations (1.0/−1.0–2.0/ vs. 0.0/0.0–1.0/, p = 0.07) post-NIV setup in the eosinophilic group. Most importantly, patients with high eosinophil counts had longer overall survival (34/15–74/ vs. 28/15–47/ months, p = 0.02, adjusted for covariates). Conclusions: The eosinophilic COPD phenotype seems to show better clinical responses to long-term NIV than patients without this trait. Further mechanistic studies are warranted to analyse this association. Full article

Background and Objectives: Periodontitis leads to progressive destruction of periodontal tissues and, despite advances in regenerative approaches, clinical outcomes remain inconsistent. Lasers have been proposed as adjuncts in regenerative periodontology because of their antimicrobial, hemostatic, and photobiomodulatory properties. However, available evidence remains heterogeneous. This scoping review aims to systematically map clinical and experimental evidence on the role of lasers in periodontal tissue regeneration. Materials and Methods: The review was conducted in accordance with the PRISMA-ScR guidelines. PubMed, Scopus, and Web of Science were searched up to September 2025 without time restrictions. Eligible studies included in vitro, ex vivo, in vivo and clinical research assessing the application of lasers for periodontal healing. Reviews, conference abstracts and studies unrelated to regeneration were excluded. Results: The electronic search retrieved 314 records, of which 193 unique articles were screened after duplicates removal and 17 full texts were assessed. A total of 15 studies met the eligibility criteria and were included in the review. Included studies comprised 5 in vitro investigations, 2 ex vivo studies, 1 in vivo animal study, 4 case reports and 3 RCTs, published between 2015 and 2025. In vitro and ex vivo evidence demonstrated that laser irradiation enhanced cell proliferation, differentiation, growth factor release, and root surface conditioning. The in vivo study confirmed increased angiogenesis and bone formation after Er:YAG PBM. Clinical studies, including RCTs and case reports, reported improvements in PD reduction, clinical attachment gain, and radiographic bone fill, particularly when lasers were applied as adjuncts to regenerative techniques or biomaterials. Conclusions: Available evidence suggests that lasers can positively modulate biological processes and enhance the outcomes of regenerative periodontal procedures. However, the limited number of high-quality clinical trials, variability in laser types and parameters, and heterogeneity in protocols limit the strength of current conclusions. Further standardized RCTs with long-term follow-up are needed to clarify the clinical relevance of lasers in periodontal regenerative outcomes. Full article

It remains unclear how metabolites produced by vaginal peroxide-producing lactobacilli influence parameters supporting cervical cancer cell survival. The aim of our study was to investigate the functional response of HeLa cells to cell-free metabolites of vaginal lactobacilli producing peroxide under conditions of oxidative stress. HeLa cells were treated with cell-free metabolites of lactobacilli isolated from the vaginal fluid of healthy women. Subsequently, their resistance to oxidative stress (total number of surviving, apoptotic, and necrotic cells), dehydrogenase activity with the MTT assay, and mitochondrial potential were measured. Pretreatment with cell-free lactobacilli metabolites significantly reduced HeLa cell survival under oxidative stress in most cases; dehydrogenase activity and mitochondrial potential changed to a lesser extent. All HeLa cells pretreated with cell-free lactobacillus metabolites that died due to oxidative stress died apoptotic death. These effects of cell-free lactobacilli metabolites are not always determined by lactic acid levels. These data reveal a new mechanism by which vaginal lactobacilli exert local antitumor protection by inducing controlled cell death in transformed cells. Full article