Search Results (512)

Background/Objectives: Postoperative monitoring of microvascular free flaps is critical for early detection of vascular complications and flap survival. Nurses play a central role in this process; however, qualitative evidence on their experiences and challenges remains limited. This study explored nurses’ experiences in free tissue flap care to identify clinical practices, challenges, and improvement needs. Methods: A phenomenological qualitative design was used. Data were collected through semi-structured interviews with nine nurses experienced in free tissue flap care, recruited via purposive and snowball sampling. Interviews were conducted online and lasted 30–45 min. Data were analyzed using content analysis with MAXQDA 2025. Inter-researcher reliability was 97%. Results: The findings were categorized into four main themes and seventeen subthemes: (1) clinical monitoring and evaluation in the care process, (2) challenges and difficulties, (3) emotional and professional reflections, and (4) suggestions for improving care. Nurses reported that flap care requires intensive monitoring, rapid decision-making, and close collaboration with physicians, especially within the first 24–48 h. Monitoring was largely based on observation and experience due to the lack of standardized protocols. Major challenges included high workload, frequent assessments, and donor site management. Emotional burden, stress, and responsibility were also prominent. Conclusions: Free flap care is a complex and demanding process for nurses. The lack of standardized monitoring tools and protocols is a key gap. Developing structured tools, improving training, and strengthening multidisciplinary collaboration may enhance patient safety and care quality. Full article

The potential health hazards caused by microwave exposure have attracted increasing attention. Microwave radiation has been reported to induce oxidative stress in neural tissues, which is considered one of the primary mechanisms underlying its adverse effects on central nervous system function. The hippocampus is sensitive to microwave radiation, whereas underlying cellular and molecular mechanisms remain incompletely understood. In this study, microwave-exposed mice exhibited significantly impaired performance in the Go/No-go, Y-maze, and novel object recognition tests at 6 h and 7 days post-exposure, indicating deficits in hippocampus-dependent working memory. Single-cell RNA sequencing of hippocampal tissues from control and microwave-exposed mice yielded 94,088 high-quality cells across eight major cell types. Astrocyte sub-clustering identified five transcriptionally distinct subpopulations, with Astrocyte_S100a6 and Astrocyte_Son proportions increased and Astrocyte_Serpinf1 decreased in the radiation group. Analysis of astrocyte transcriptional state transitions showed microwave-exposed astrocytes were preferentially distributed toward terminal reactive states with depletion at early homeostatic nodes. Cell–cell communication analysis revealed increased total interactions and interaction strength following radiation. Astrocyte outgoing signaling was increased for pathways associated with vascular remodeling, phagocytic regulation, and neuroinflammation, while pathways related to trophic support were decreased. Incoming signaling showed increased activity in pathways linked to phagocytic recruitment and inflammatory mediation. Taken together, these findings indicate that microwave exposure is associated with hippocampus-dependent working memory deficits accompanied by transcriptional remodeling of astrocyte subpopulation composition, directional astrocyte state transitions toward reactive phenotypes, and broad alterations in astrocyte-centered intercellular communication, providing a cellular and molecular framework for understanding astrocyte involvement in microwave radiation-associated hippocampal dysfunction. Full article

Atherosclerosis begins with endothelial dysfunction, inflammatory activation, and immune-cell recruitment within a spatially organized vascular wall. Conventional static cultures and Transwell systems are advantageous for isolated readouts, but they fail to effectively recapitulate multicellular compartmentalization, extracellular matrix support, and dynamic perfusion within a singular platform. Here, we present a four-channel microfluidic vascular-wall chip designed to reconstitute an endothelial cell-extracellular matrix-smooth muscle cell arrangement and to model early atherosclerosis-related inflammatory endothelial dysfunction. The device comprises a perfusable endothelial channel, a collagen I hydrogel region embedded with human aortic smooth muscle cells, a cell-free matrix region, and a culture-medium supply channel. Under physiological conditions, HUVECs formed a ZO-1-positive endothelial barrier and maintained high cellular viability. Stimulation with TNF-α and IL-1β (10 ng/mL each) elevated IL-6 secretion, promoted the recruitment of THP-1-derived M0-like macrophages, disrupted ZO-1 continuity, and increased FITC-dextran permeability without causing extensive cell death. The chip was subsequently utilized to evaluate metformin and atorvastatin therapies. The combinational treatment produced a more pronounced attenuation of MCP-1 secretion than either monotherapy under the inflammatory background. While this platform does not recapitulate advanced plaque formation, lipid deposition, foam-cell formation, or disturbed arterial shear, it successfully provides a microfluidic model of early inflammatory endothelial dysfunction to facilitate mechanistic studies and preliminary anti-inflammatory drug evaluation. Full article

Background: Frozen embryo transfer (FET) use in assisted reproductive technology (ART) has increased globally, with multiple reviews linking FET—particularly medicated cycles—to higher risks of obstetric complications including hypertensive disorders of pregnancy (HDP). Given that HDP is a sex-specific risk factor for future cardiovascular disease (CVD), this study aimed to assess acute cardiovascular changes in medicated versus natural modified FET cycles. Methods: This was a prospective observational cohort study at a fertility centre in London. Patients were recruited from May 2021 to March 2022. Maternal demographics including age, body mass index, smoking status, ethnicity and parity were recorded. Cardiovascular parameters including blood pressure along with measures of left ventricular systolic and diastolic function, assessed by transthoracic echo, were analysed at baseline in the luteal phase of the preceding cycle and on the day of embryo transfer, in medicated and natural modified FET cycles. Repeat measures analysis of the cardiac variables for the two time points, comparing the two protocols after controlling for maternal demographics, was performed by linear mixed models. Results: Seventy-two healthy patients were included in the analysis; of those, 59 (82%) underwent the medicated protocol. For both protocols, after controlling for maternal demographic characteristics, the left atrial area significantly increased (p = 0.004) from baseline to embryo transfer with a mean difference of 0.98 (95% CI [0.33, 1.63]). When comparing the interaction between the protocols between the two time points, whilst no effect could be seen on haemodynamic variables or left ventricular diastolic/systolic function, medicated FET cycles were associated with a statistically significant improvement in mean average global longitudinal strain (GLS) (p = 0.024) with a mean difference of −2.24 (95% CI [−4.17, −0.31]), whereas natural modified cycles demonstrated a slight shift toward more positive strain values. Conclusions: In this cohort of healthy patients undergoing FET, both protocols were associated with a significant increase in left atrial area from baseline to embryo transfer possibly resulting from an increased preload due to progesterone administration. The improvement in left ventricular average GLS seen in medicated FET cycles may reflect protocol-related physiological effects, potentially mediated by sustained exogenous oestrogen exposure and its influence on vascular loading conditions and myocardial relaxation. Full article

Background: While trefoil factor 3 (TFF3) has been linked to cardiovascular disease, its role in peripheral artery disease (PAD) remains largely unexplored. In this prospective study, we assessed three pre-selected circulating biomarkers and found that TFF3 demonstrated the strongest association with the presence of PAD. Building on this finding, we integrated plasma TFF3 concentrations with clinical characteristics to construct predictive models aimed at identifying individuals with PAD and estimating their risk of major adverse limb events (MALE) over a two-year follow-up period. Methods: A total of 476 individuals were prospectively recruited, including 312 patients with PAD and 164 controls without PAD. At study entry, circulating concentrations of TFF3, oncostatin M (OSM), and brain-derived neurotrophic factor (BDNF) were quantified, and all participants were subsequently monitored for a two-year period. The primary endpoint was the occurrence of MALE within two years, comprising acute limb ischemia, major amputation, or lower extremity revascularization by either open surgical or endovascular approaches. PAD diagnosis served as the secondary outcome and was established by an ankle–brachial index (ABI) ≤ 0.9 or toe–brachial index (TBI) ≤ 0.67 in the presence of reduced or absent pedal pulses. For predictive model development, the cohort was randomly divided into training (70%) and testing (30%) sets. A random forest algorithm incorporating clinical variables and plasma TFF3 levels was developed and optimized using 10-fold cross-validation. Model discrimination was quantified using the area under the receiver operating characteristic curve (AUROC). For prognostic evaluation, patients were classified into low- and high-risk groups based on the optimal ROC-derived probability threshold of 0.60, and MALE-free survival between groups was assessed using Cox proportional hazards regression. Results: Among the three candidate biomarkers evaluated, only TFF3 demonstrated a significant association with PAD. Patients with PAD exhibited higher circulating TFF3 concentrations than those without PAD (7.27 ± 3.36 vs. 5.89 ± 2.67 pg/mL; p < 0.001), whereas OSM and BDNF showed no significant differences between groups. Over the two-year follow-up period, MALE occurred in 28 patients (9%). Predictive models combining plasma TFF3 measurements with clinical variables achieved strong performance for both PAD detection and 2-year MALE risk estimation, yielding AUROCs of 0.79 and 0.85, respectively. Furthermore, patients classified as high risk by the model experienced a significantly increased hazard of MALE during follow-up (HR 1.12, 95% CI 1.10–1.19; p = 0.003). Variable importance analysis revealed that TFF3 was the most influential predictor of MALE, followed by age and smoking history. Conclusions: Combining plasma TFF3 levels with readily available clinical characteristics enabled the development of a predictive model with good discriminatory ability for both PAD diagnosis and estimation of 2-year MALE risk. Such an approach may enhance risk stratification by identifying patients at elevated risk earlier in their disease course, thereby informing decisions related to vascular testing, referral for specialist evaluation, and implementation of targeted treatment strategies. Full article

Background: While cardiovascular diseases (CVD) manifest in adulthood, vascular changes may begin in childhood. Early markers of CVD, such as carotid intima-media thickness (CIMT), have not been well studied in children in the African setting. The potential influence of environmental and genetic factors on the CIMT of African children is not well understood. Objective: This study assessed the cardiovascular risk profiles of Ghanaian children and adolescents in rural and urban settings using carotid intima-media thickness (CIMT) and ultrasound-measured adiposity. Methods: A cross-sectional study was conducted involving 343 asymptomatic, healthy school children (10–16 years) from the Ashanti region of Ghana. Participants were recruited from one urban and one rural school. Data collected included height, weight, blood pressure, and ultrasound measurements of CIMT, subcutaneous, preperitoneal, and Visceral fat. Results: The mean CIMT for the cohort was 0.60 ± 0.07 mm. Urban children had significantly higher BMI (p < 0.001), subcutaneous fat (p = 0.005), and preperitoneal fat (p < 0.001) compared to rural children, yet there was no significant difference in CIMT between the two sites (p = 0.497). Multiple linear regression revealed that peritoneal fat thickness (p = 0.029) and male gender (p < 0.001) were significant predictors of CIMT, whereas BMI and blood pressure were not. Conclusions: Ghanaian children exhibit elevated CIMT values compared to Western pediatric cohorts despite having lower BMI and normal blood pressure. The significant correlation between peritoneal (visceral) adiposity and CIMT suggests that fat distribution is a more sensitive indicator of early vascular remodeling than BMI in this population. This highlights the need for population-specific screening strategies that move beyond BMI. Full article

Background/Objectives: Retinitis pigmentosa (RP) is characterized by progressive degeneration of photoreceptors, with increasing evidence supporting the involvement of inflammation in disease progression. Aqueous humor (AH) reflects the intraocular microenvironment and represents an accessible source for biochemical analysis. This study aimed to characterize the profile of the main inflammatory proteins and bioactive lipids in the AH of RP patients and to compare it with healthy subjects. Methods: The AH was analyzed for cytokines using multiplex immunoassays and for lipid species using liquid chromatography–mass spectrometry. The concentrations of the analyzed molecules were compared between RP patients and the control group and then correlated with age and ellipsoid zone (EZ) width in RP patients. Results: A total of 26 RP patients and 13 controls were recruited. Significantly elevated levels of the pro-inflammatory IL-6 and a significant decrease in vascular endothelial growth factor (VEGF) were found in RP patients compared to controls. In RP patients, lipidomic analysis demonstrated significant increases in medium- and long-chain sphingomyelins (SMs) and very-long-chain unsaturated phosphatidylcholines (PCs). Higher levels of Cer 16:0, PC 32:0, and PC 34:0 were significantly associated with greater EZ preservation in RP patients. Additionally, in RP patients, VEGF and GM-CSF levels increased significantly with age, while IL-8 showed a non-significant decreasing trend. Conclusions: By integrating proteomic and, for the first time, lipidomic analyses of AH, we identified significant alterations in pro-inflammatory cytokines and bioactive lipid species in RP patients compared to controls, further highlighting a link between inflammatory activity, patient age, and disease stage. These preliminary findings need further validation in larger longitudinal cohorts to confirm the clinical utility of these bioactive mediators as potential disease biomarkers. Full article

Diabetic peripheral neuropathy (DPN) remains a leading cause of disability in diabetes, yet current care is largely symptomatic and does not directly address early neurovascular-immune pathology. This narrative review synthesizes clinical, redox, vascular, and immunological evidence into a peripheral nerve neurovascular unit (PNVU)/blood–nerve barrier (BNB)-centered framework for DPN. First, the review outlines the diagnostic and translational endpoint landscape of DPN, emphasizing that commonly used clinical, neurophysiological, small-fiber, and imaging-based tools capture important disease domains but do not directly assess early BNB dysfunction. It then reviews the anatomical and functional basis of the PNVU and BNB, including endoneurial microvascular endothelial cells, pericytes, basement membrane components, immune cells, and tight-junction proteins. Next, it discusses how chronic hyperglycemia and dyslipidemia drive metabolic-to-vascular coupling, redox imbalance, antioxidant defense failure, advanced glycation end products (AGEs), receptor for AGEs (RAGE), and nuclear factor-κB (NF-κB) signaling, endothelial activation, leukocyte recruitment, macrophage polarization, and junctional disassembly, culminating in increased BNB permeability and exposure of peripheral nerves to pro-inflammatory and neurotoxic mediators. Finally, it evaluates incretin-based therapies—including glucagon-like peptide-1 receptor agonists (GLP-1RAs), dipeptidyl peptidase-4 inhibitors (DPP-4 inhibitors, DPP-4is), and emerging multi-agonists—as potential modulators of oxidative and inflammatory stress within this framework. Although semaglutide and related agents show mechanistic plausibility and preclinical promise, direct evidence for incretin-mediated BNB stabilization in human DPN remains limited. By reframing DPN as a redox-driven neurovascular-immune disorder, this review highlights barrier-focused biomarkers, translational endpoints, and hypothesis-generating therapeutic opportunities that require clinical validation. Full article

Background: Peripheral artery disease (PAD) impacts more than 200 million individuals globally. Despite its prevalence, management remains suboptimal, partly due to the lack of reliable blood-based biomarkers. The ankle–brachial index (ABI), the current gold-standard test for PAD, is limited by inter-operator variability, misinterpretation, and reduced accuracy in patients with diabetes. Fatty acid binding protein 3 (FABP3) has emerged as a potential biomarker for PAD; however, its prognostic performance relative to ABI remains unclear. This study compared FABP3 and ABI for predicting PAD outcomes using statistical and machine learning approaches. Methods: A total of 1001 participants were prospectively recruited, including 644 patients with PAD and 357 without PAD. The primary outcome was 2-year major adverse limb event (MALE), defined as a composite of vascular intervention, major amputation, or acute limb ischemia. At enrollment, plasma FABP3 was quantified using a validated multiplex immunoassay. Kaplan–Meier analysis of MALE-free survival was performed across pre-specified FABP3 tertiles (high [>3.55 ng/mL], moderate [1.55–3.55 ng/mL], and low [<1.55 ng/mL]) and ABI tertiles (severe [<0.40], moderate [0.40–<0.70], and mild [0.70–0.90]), with curve separation assessed using log-rank tests. Multivariable Cox proportional hazards modelling was used to evaluate the independent relationships of FABP3 and ABI with 2-year MALE after adjustment for baseline demographic and clinical covariates. To assess predictive performance for 2-year MALE, an extreme gradient boosting (XGBoost) classification model incorporating 10-fold cross-validation was trained using a combination of clinical covariates, plasma FABP3 levels, and ABI. Discriminatory performance was assessed using the area under the receiver operating characteristic curve (AUC). Results: The average participant age was 68 years (SD 12), and 34% (n = 340) were women. Mean ABI was 0.75 ± 0.25 and mean FABP3 concentration was 2.97 ± 2.06 ng/mL. Among the 644 participants with PAD, 558 (86.6%) had complete time-to-event data for MALE status, FABP3, and ABI. Over the median follow-up period of 2 years, 140 (25.1%) participants with PAD experienced MALE. Kaplan–Meier analyses demonstrated significant separation in MALE-free survival across FABP3 tertiles (log-rank p < 0.001). At 24 months, MALE-free survival was 100.0% in the FABP3 < 1.55 group, compared with 71.1% in the FABP3 1.55–3.55 group and 67.7% in the FABP3 > 3.55 group. In contrast, ABI severity groups showed less pronounced separation, with 24-month MALE-free survival rates of 80.3% for mild ABI, 73.2% for moderate ABI, and 71.3% for severe ABI, without a statistically significant overall difference (p = 0.170). In adjusted Cox proportional hazards models, FABP3 demonstrated strong prognostic performance for 2-year MALE. A 1 SD increase in log-transformed FABP3 was independently associated with a higher risk of 2-year MALE (HR 1.90, 95% CI 1.60–2.25; p < 0.001), with minimal change after additional adjustment for ABI (HR 1.90, 95% CI 1.60–2.24; p < 0.001). Machine learning analyses similarly favored FABP3 over ABI, with the FABP3-based model achieving an AUC of 0.773 compared to 0.686 for the ABI-based model. Adding ABI to the FABP3 model did not improve discrimination. Conclusions: Circulating plasma levels of FABP3 are strongly associated with PAD outcomes. Specifically, FABP3 demonstrated a stronger and more robust association with 2-year MALE compared to ABI. This study validates the prognostic value of FABP3 for PAD outcomes in comparison to ABI. Full article

Peripheral artery disease (PAD) is found in 10.9% of patients with ischaemic stroke (IS). This cross-sectional study was performed to investigate the prevalence of PAD and its risk factors among acute IS patients in Singapore. Patients admitted for IS were recruited. Data was collected on sex, age, body mass index (BMI), history of hypertension, diabetes mellitus (DM), hypercholesterolaemia, cigarette smoking, prior stroke (PS) and ischaemic heart disease (IHD). IS was classified as a lacunar infarct (LI) or non-lacunar infarct (NLI) based on neuroimaging. Carotid intima–medial thickening (IMT) and carotid plaques (CP) were determined by ultrasonography. The ankle–brachial Index (ABI) was calculated in both lower limbs; PAD was diagnosed if the ABI was ≤0.9 in any limb. The estimated sample size was 150 subjects. In total, 150 subjects were recruited; the mean age was 62.7 ± 10.2 years, 44.7% were female, and the mean BMI was 24.1 ± 4.1. A total of 63.3% reported hypertension, 42.7% DM, 30.0% hypercholesterolaemia, 38.0% smoking, 18.7% PS, and 6.0% IHD. A total of 30.7% had IMT, 77.3% had CP, and 8.0% had carotid stenosis ≥50%. LI occurred in 64.7%. PAD was diagnosed in 22.0% (95% CI 16.1–29.3). On univariate analysis, based on vascular risk factors alone, PAD was associated with age (p = 0.03), hypercholesterolaemia (p = 0.03), and IHD (p = 0.004). On logistic regression, PAD was only associated with IHD (aOR 6.42, 95% CI 1.25–32.84; p = 0.03). When IMT and CP were added to the model, the association with IHD remained (aOR 5.45, 95% CI 1.03–28.71; p = 0.045). When the results of neuroimaging were added, the association was only with NLI (aOR 2.78, 95% CI 1.09–7.14; p = 0.03). This study found a high prevalence of PAD among Asian patients with IS. It was associated with a non-lacunar infarction. Full article

Cellular senescence drives aging and age-related disease through the accumulation of senescent cells and their senescence-associated secretory phenotype (SASP). Emerging evidence suggests intermittent (“hit-and-run”) senolytic interventions may improve healthspan by reducing senescent cell accumulation and the SASP. Healthy adults aged 45–79 were recruited for a decentralized, single-arm pilot study (NCT06953518) evaluating 2 days of nutraceutical supplementation (Qualia Senolytic). Fingerstick blood samples and validated quality of life (QoL) questionnaire data were collected on days 0 and 7. Primary outcomes were SASP biomarkers measured by the Olink^® Target 48 Cytokine panel, including tumor necrosis factor (TNF), interleukin-1 beta (IL-1β), interleukin-8 (CXCL8), and vascular endothelial growth factor A (VEGFA). Protein data were analyzed using linear mixed models and Wilcoxon signed-rank tests. Seventy-one adults enrolled and 53 (74.6%) provided paired protein samples. No significant changes occurred in primary outcomes. Exploratory unadjusted analyses revealed significant reductions in the established senescence chemokines CXCL9 and CXCL10, as well as CCL8 and CXCL11, and increases in interleukin-17F and oncostatin M. QoL significantly improved without safety concerns, though results are expectation-sensitive. Preliminary findings support the feasibility of this decentralized approach and identify candidate SASP biomarker signals in healthy adults warranting validation in randomized, placebo-controlled trials. Full article

Since the first approval of CTLA-4 blockade for melanoma, immune checkpoint inhibitors (ICIs) have expanded into a major class of cancer therapy, with more than 100 FDA-approved oncological indications across metastatic and earlier-stage disease settings, including use as monotherapy and in combination regimens. Preclinical research has largely focused on myocarditis and atherosclerosis, but a wider set of phenotypes, such as non-inflammatory left ventricular dysfunction (NILVD), arrhythmias, and vasculitis, can be observed, and they are rarely connected within a single mechanistic model. We aim to build a systems-oriented, mechanistic framework of the most widely studied biological processes; it will link the main checkpoint pathways to relevant cardiac and vascular cell types, molecular pathways, immune synapses, and candidate biomarkers. We searched PubMed, Scopus, and Web of Science using combinations of terms for immune checkpoint inhibition and cardiovascular-immune-related adverse events that provide mechanistic insight into cardiac-immune-related adverse reactions (irAEs). An AI-assisted semantic clustering approach was used only to organize the included literature. The integrated framework identifies PD-1/PD-L1 as the dominant mechanistic hub linking T-cell activation, endothelial recruitment, myocardial injury, and vascular inflammation. Across phenotypes, a shared immune core involving checkpoint pathways, cytokine signaling, and leukocyte trafficking coexists with phenotype-restricted mediators that may bias injury toward myocarditis, vascular inflammation, conduction-system disease, or NILVD. KEGG analyses support the enrichment of T-cell receptor signaling, Th17 differentiation, JAK-STAT signaling, cytokine–cytokine receptor interaction, and lipid and atherosclerosis pathways. Candidate biomarkers emerging from the reviewed literature include troponin, IL-6, CXCL9/CXCL10/CXCL13, S100A family proteins, ROCK2, HLA-linked susceptibility signals, and T-cell receptor clonality markers. The AI-assisted clustering broadly recapitulated the expert-defined thematic structure while identifying finer semantic neighborhoods within the literature. This framework provides a support map for further hypotheses about toxicity patterns with current and next-generation checkpoint strategies on the cardiac system, while AI-assisted clustering provides a complementary method for organizing the literature rather than an independent source of biological inference. Full article

Background. Atherosclerosis is a long-standing process that starts in childhood and leads to a number of major adverse cardiovascular events in adulthood. It is therefore crucial that children at potential risk of atherosclerosis-related harmful consequences are identified. Nevertheless, relatively few studies have focused on primary prevention in paediatric patients. Methods. Fifty-four children (mean age 9.0 ± 2.8 years) and 72 parents (mean age 44.0 ± 8.2 years) were recruited. Blood pressure (BP) was measured and lipid panel was checked, together with carotid intima–media thickness (IMT) and several indexes of carotid stiffness. Results. No statistically significant differences in IMT and indexes of carotid stiffness were detected between children and parents, with the exception of the alpha index (p < 0.05). In children, IMT was correlated with the alpha index (p = 0.01). Seventeen children (31%) had a pathological IMT. The diastolic BP difference between children with normal and pathological IMT was statistically significant (p < 0.05). Parents’ total, LDL and HDL cholesterol, as well as triglyceride levels, differed statistically from those of children with both physiological and pathological IMT: p < 0.05 for all differences. Children with hypercholesterolemia had a three-fold higher likelihood of having a pathological IMT than children with normal cholesterol (p < 0.01). Among children with pathological IMT, 59 percent had one and 41 percent had two parents who were affected by pathological IMT. Conclusions. Carotid stiffness was similar in children and their parents, suggesting early familial influences on vascular properties. Many children had a pathological carotid IMT, highlighting how subclinical atherosclerosis is diffuse even at a young age. IMT in children was associated with cholesterol levels, underscoring the importance of early lipid screening and management. The strong association between pathological IMT in both children and their parents supports the hypothesis of a shared genetic or environmental predisposition to early vascular alterations. Full article

Background: Branch retinal vein occlusion (BRVO) represents a segmental retinal ischemic disorder characterized by localized oxidative–inflammatory activation. While redox-driven cytokine responses have been described in central retinal vein occlusion, their role in BRVO-specific macular edema and treatment responsiveness remains unclear. This study investigated whether novel redox-related inflammatory mediators in the aqueous humor are associated with disease severity and structural response to anti-vascular endothelial growth factor (VEGF) therapy in BRVO. Methods: Aqueous humor samples were collected from 30 treatment-naïve patients with BRVO and 19 control patients. Levels of VEGF and the novel redox-related inflammatory factors FMS-related tyrosine kinase 3 ligand (Flt-3L), fractalkine, CXCL-16, and endocan-1 were measured by suspension array, and the severity of macular edema was evaluated by measuring central macular thickness and neurosensory retinal thickness (TNeuro) by spectral-domain optical coherence tomography. Therapeutic response was assessed one month after intravitreal ranibizumab injection (IRI). Results: Aqueous levels of VEGF, Flt-3L, and endocan-1 were significantly higher in the BRVO group, and levels of Flt-3L, CXCL-16, and endocan-1—markers associated with oxidative endothelial damage and leukocyte recruitment—correlated significantly with each other and with aqueous flare values. Notably, baseline Flt-3L levels significantly correlated with the reduction in TNeuro, suggesting that this redox-sensitive signaling molecule is a potential biomarker for treatment sensitivity. Conclusions: These findings suggest that novel inflammatory factors, potentially driven by oxidative-nitrosative stress, play a pivotal role in the pathophysiology of BRVO. Baseline Flt-3L may serve as a predictive biomarker for structural responsiveness to anti-VEGF therapy in BRVO, suggesting that oxidative–inflammatory signaling contributes not only to disease severity but also to therapeutic heterogeneity. Full article

Atherosclerosis is caused by inflammatory processes that alter the permeability of arterial wall cells and leucocyte recruitment, leading to oxidation of low-density lipoproteins in the artery. The use of dietary polyphenols as antioxidants seems promising. Herein, molecular docking-based screening was initially used to predict the interactions of epicatechin and hydroxytyrosol on multiple cytokines that can trigger atherosclerosis development. Computational results show that epicatechin and hydroxytyrosol interact with the cytokines, namely, intercellular adhesion molecule-1, vascular cell adhesion molecule-1, monocyte chemoattractant protein 1 (MCP-1), granulocyte–macrophage colony-stimulating factor, leukocyte differentiation antigen CD36, and oxidized low-density lipoprotein receptor-1. Cytotoxicity of both the bioactive compounds to human monocytic THP-1 macrophages was evaluated by lactate dehydrogenase and crystal violet assays. ROS activity evaluation was done for the phytocompounds followed by monocyte migration assay for MCP-1. The expression levels of selected biomarkers were further assessed by quantitative polymerase chain reaction. Inhibition of these atherosclerotic biomarkers may limit the atherogenic effect. Notably, these two polyphenols at a concentration of 0–125 µg/mL for 24 h showed no cytotoxicity on THP-1 macrophages and exhibited decreased ROS production and MCP-1 levels. The genes implicated in the early stages of inflammation are potential therapeutic targets to effectively reduce atherogenesis and prevent CVD. The interaction between the selected cytokines and the two natural compounds indicates their potential ability to inhibit the inflammation in vitro and exhibit anti-atherogenic effects. Hence, epicatechin and hydroxytyrosol possess significant anti-atherosclerotic effects and, in combination, could contribute positively to the treatment of atherosclerosis. Full article