Search Results (685)

Thrombosis remains a critical challenge for blood-contacting implants, with early-stage protein adsorption and platelet activation playing decisive roles. In this study, we constructed a TiO₂/CuO semiconductor heterojunction on titanium surfaces to generate a stable built-in electric field, creating a self-activated bioelectric microenvironment without external stimulation. We evaluated its cytocompatibility and hemocompatibility through static in vitro assays. To distinguish the contributions of surface chemistry, topography, and bioelectric cues, we include control groups of Ti (untreated), TNW (TiO₂ network, topography control), and Ti/CuO (CuO nanoparticles without heterojunction, Cu²⁺ release control). The heterojunction significantly enhances human umbilical vein endothelial cell (HUVEC) adhesion and proliferation while simultaneously suppressing fibrinogen adsorption, platelet adhesion/activation (as assessed by morphological changes), and whole-blood cell adhesion. Compared with Ti/CuO, the heterojunction (TCH) induces substantially stronger endothelialization and anticoagulant effects despite similar Cu²⁺ release levels (~0.047 μM, far below the reported pro-angiogenic threshold of ~5.0 μM), indicating a predominant role of the built-in electric field. This study preliminarily demonstrates a previously unrecognized role of bioelectric cues in modulating early blood–material interactions. Following rigorous validation under physiologically relevant dynamic flow conditions and in vivo models, interfacial bioelectric engineering emerges as a promising new strategy for designing anticoagulant biomaterials. Full article

The proviral load of human T-cell lymphotropic virus type 1 (HTLV-1) is an important biomarker associated with the monitoring and risk stratification of adult T-cell leukemia/lymphoma (ATL) and HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). However, the lack of standardized quantification methods limits its broader application. This study evaluated a novel absolute quantification approach based on whole blood volume and compared its performance with established protocols. A total of 66 HTLV-1-infected individuals were analyzed using six qPCR-based methodologies, including volumetric quantification (copies/µL) by absolute quantification and the Tamegão-Lopes method, as well as normalization per 1000 cells (whole blood, buffy coat, PBMCs, and CD4+ T cells). Association and agreement were assessed using Pearson’s correlation, Bland–Altman analysis, concordance correlation coefficients (CCCs), and Deming regression. Absolute quantification showed strong correlation with both the Tamegão-Lopes method and CD4+-based quantification (r = 0.93 and 0.84, respectively; p < 0.001) and high agreement (CCC = 0.866 and 0.811, respectively), with modest systematic bias (−0.273 log₁₀ copies/µL and 0.115 log₁₀ copies/10³ cells, respectively). Leukocyte-normalized methods showed greater discrepancies, likely due to dilution by uninfected cells. These findings show that quantification based on total blood volume is a simplified, operationally feasible alternative for assessing HTLV-1 proviral load. Full article

Human herpesvirus 8 (HHV-8) is the etiologic agent of Kaposi’s sarcoma (KS), primary effusion lymphoma (PEL), multicentric Castleman disease (MCD), and KS-associated immune reconstitution inflammatory syndrome (IRIS-KS). Quantifying HHV-8 DNA in whole blood is clinically relevant, yet laboratory practices remain heterogeneous. Here, we developed and validated an in-house quantitative PCR (qPCR) assay targeting ORF26, optimized for whole blood. Assay calibration used plasmid, BCBL-1 cell–derived, and commercial HHV-8 DNA standards. Analytical validation was performed following the Clinical and Laboratory Standards Institute (CLSI) guidelines and the Minimum Information for Publication of Quantitative Real-Time PCR Experiments (MIQE) guidelines and showed a 95% limit of detection of 65.7 copies/reaction, efficiencies of 90–101% (R² > 0.99), and intra/inter-assay coefficients of variation < 6.5%. Strong correlations were observed among the three calibrators (R² > 0.97).Clinical validation against a composite reference yielded 100% sensitivity, specificity, PPV, and NPV. Viral loads (log₁₀ copies/mL) varied by clinical condition: classic KS and transplant-associated KS showed the lowest medians (2.30–2.23), MCD HIV− and PEL intermediate values (2.83–3.72), and epidemic KS, MCD HIV+, and IRIS-KS the highest (4.12, 4.86, and 5.03, respectively). Viremia > 5 log₁₀ copies/mL was associated with uncontrolled E-KS, MCD HIV+, and IRIS-KS. Longitudinal follow-up revealed viral load decline paralleled clinical improvement. This validated assay provides a robust, affordable tool for HHV-8 quantification in whole blood and supports its integration into diagnostic workflows and patient monitoring. Full article

Incretin receptor agonists (IRAs) such as GLP-1-based therapies improve metabolic and cognitive outcomes and enhance brain insulin signaling. One way that IRAs could have these actions is by affecting the blood–brain barrier (BBB); however, IRA-BBB interactions are poorly studied. Here, we examined the ability of insulin and IRAs to affect each other’s transport across the BBB in lean mice. We found that intracerebroventricular (ICV) administration of the insulin receptor antagonist S961 did not affect the blood-to-brain transport of the bioactive fragment of the IRA, ¹²⁵I-dulaglutide (BAF). In contrast, ¹²⁵I-dulaglutide (BAF) co-administered with intravenous (IV) insulin significantly enhanced ¹²⁵I-dulaglutide (BAF) BBB transport into whole brain, olfactory bulb, parietal cortex, and pons, demonstrating insulin-dependent modulation of IRA BBB transport. Regional transport rates for ¹²⁵I-dulaglutide (BAF) across the brain varied by ~2.5-fold, with the fastest transport into the olfactory bulb, frontal cortex, cerebellum, and pons. Co-administration of IV dulaglutide (BAF) did not alter ¹²⁵I-insulin BBB transport rates (K_i) but did reduce reversible insulin binding (V_i) at the BBB by >50%, suggesting rapid effects on BBB insulin receptors. To explore the effects of chronic IRA administration, lean mice were treated with semaglutide for two weeks. Body weight and food intake were unchanged, but female mice showed reduced fasting levels of serum insulin and GLP-1 and decreased insulin transport into whole brain, while male mice showed a reduction in insulin binding at the BBB. Chronic semaglutide also reduced ¹²⁵I-insulin BBB transport in female mice when studied with in situ perfusion, a procedure that removes the immediate influence of serum factors. Together, these findings demonstrate reciprocal and female-selective interactions between IRAs and insulin at the BBB. Acute insulin enhances the BBB transport of an IRA in female mice, whereas chronic IRA exposure selectively impairs insulin BBB transport in females, highlighting the BBB as a dynamic and hormone-sensitive interface with implications for long-term treatment in mouse models and potential for translation impact in humans. Full article

Usutu virus (USUV) is a mosquito-borne flavivirus, widely distributed in Central Europe, where it causes avian outbreaks with large-scale mortality. Although most human infections are asymptomatic or mild, the reports of USUV neurologic infections are increasing, especially among immunocompromised patients. Cross-reactivity in serological and molecular assays is often seen between USUV and the genetically and antigenically related West Nile virus (WNV). Here, we report the first USUV infection in Greece in an asymptomatic blood donor who tested positive in the automated nucleic acid test during screening for WNV, which is endemic in the country. Following the blood donation surveillance plan, a serum sample taken two weeks post-donation was tested for WNV IgM and IgG antibodies. The borderline index of the IgM antibodies, combined with negative result for IgG antibodies, raised the suspicion of molecular cross-reactivity with USUV. Although the USUV-specific PCR in donor’s plasma was negative, its result was positive following amplification of the virus in cell culture, as USUV RNA was detected in the culture supernatant confirming the USUV infection. Whole genome sequence was taken using an Ion Torrent next-generation sequencing platform. Phylogenetic analysis showed that the Greek strain clusters within the USUV Europe 2A genetic lineage. The detection of USUV human infection in Greece prompts for surveillance studies to elucidate its epidemiology and ecology in the country. Full article

The recent rise in whole blood usage for traumatic hemorrhagic shock has renewed interest in the impact of leukocytes on hemostatic function during cold storage. This study investigated whether tissue factor (TF)-bearing extracellular vesicles (EVs) are released from human monocytic cells during cold storage or upon rewarming and whether this process is mechanistically linked to apoptosis. We further examined the contribution of superoxide anion generated by NADPH oxidase (NOX). Methods: THP-1 cells were incubated at 4 °C for up to 24 h with/without test reagents and subsequently rewarmed at 37 °C. Cells were washed by centrifugation before rewarming as required. TF activity in the cell supernatant was quantified, EVs were analyzed by flow cytometry with size-defined gating, and NOX activity normalized to p22^phox was measured by cytochrome c reduction. Results: TF levels and apoptotic cells increased during cold storage. TF release was enhanced 1–2 h after cell lavage following cold exposure, indicating active shedding of TF-bearing EVs rather than passive leakage from damaged membranes. Flow cytometry demonstrated that TF-bearing EVs were distinct from apoptotic vesicles, with a substantial proportion falling within the microvesicle size range. Cold exposure enhanced NOX activity. Both superoxide dismutase (SOD) and catalase inhibited TF release during cold storage; however, only SOD suppressed TF release after cell lavage. Conclusions: TF-bearing EVs are actively shed from human monocytic cells during and after cold storage via a NOX-dependent, superoxide-mediated mechanism. Extracellular SOD suppressed this procoagulant EV release, suggesting a potential strategy to modulate hemostatic alterations associated with cold-stored blood. Full article

Background: Venous thromboembolism (VTE) remains a leading cause of global morbidity and mortality. The pathophysiological mechanisms leading to VTE are still not fully elucidated. Diagnostic biomarkers for VTE lack specificity, and biomarkers to guide the duration of anticoagulation therapy have not yet entered routine clinical practice. Proteomics has emerged as a high-throughput approach for novel biomarker discovery, offering insights into the complex biological processes across the VTE continuum. This review explores current VTE proteomic research and discusses the challenges and gaps hindering clinical translation. Methods: We performed a narrative review based on a search of Scopus and PubMed for original human proteomic studies published between 1995 and July 2025. Results were limited to whole-blood, plasma or serum-based studies. Results: A total of 1190 studies were retrieved, of which 27 studies were included in this review. Studies were mainly plasma-based. Studies compared VTE patients to non-VTE controls, different VTE subtypes, and various provoked VTE cohorts. Broad themes identified proteomic signatures involving dysregulated coagulation, complement activation, inflammation, and platelet activation. Conclusions: Current proteomic evidence supports VTE as a systemic immunothrombotic disorder that shows key differences even years before developing VTE. Proteomic research in VTE holds the promise to identify biomarkers that may aid in the diagnosis and guide management of VTE. However, most proteomic findings remain exploratory to date and methodologies are varied across studies. Future studies should prioritise the workflow standardisation and validate promising biomarker panels in large-scale, prospective, longitudinal cohorts. Full article

Background/Objectives: Tuberculosis (TB), caused by Mycobacterium tuberculosis (MTB), remains a major global health problem. Drug resistance and the limitations of sputum-based diagnostic methods highlight the need for additional host-response biomarkers. Protein tyrosine phosphatase receptor type O (PTPRO) has been implicated in inflammatory signaling and macrophage immune regulation, but its relationship with TB-related host transcriptional responses remains unclear. This study aimed to identify and preliminarily evaluate a PTPRO-related blood transcriptional signature with potential relevance to TB discrimination and treatment-response assessment. Methods: Genes correlated with PTPRO expression were first screened using TCGA-LUSC as a large human transcriptomic discovery resource. The resulting candidate genes were then filtered in TB-related whole-blood datasets by intersecting genes upregulated in TB compared with healthy controls, pneumonia, and lung cancer. This strategy yielded a five-gene PTPRO-related signature, termed PO5. The signature was evaluated in independent GEO cohorts and further explored by RT-qPCR in H37Ra-infected THP-1-derived macrophages and in a small clinical blood cohort. A PO5-derived TB risk score was calculated for each sample, and receiver operating characteristic analysis was used to assess discriminatory performance. Changes in TB risk scores during anti-TB treatment were also examined. Results: PTPRO expression was increased in TB whole-blood transcriptomic data and in H37Ra-infected macrophages. In public datasets, PO5 showed potential for distinguishing TB from healthy controls, latent TB, pneumonia, and lung cancer. PO5-derived TB risk scores also decreased after anti-TB treatment. In the exploratory clinical cohort, several PO5 genes showed expression changes in the same general direction as those observed in the public datasets, although the small sample size limited the strength of this evidence. Conclusions: PO5 represents a preliminary PTPRO-related blood transcriptional signature with potential relevance to TB discrimination and treatment-response assessment. These findings remain exploratory and require validation in larger prospective multicenter cohorts, together with further mechanistic studies. Full article

The Cape cobra (Naja nivea), one of Africa’s most lethal snakes, can cause rapid, life-threatening paralysis. However, the impact of this venom on platelet function and blood coagulation remains poorly understood. To address this gap, we investigated the enzymatic profiles and the impacts of N. nivea venom on multiple aspects of haemostasis using human whole blood. Our results illustrate that Cape cobra venom significantly increases clotting time in rotational thromboelastometry without affecting other coagulation parameters. This venom significantly inhibits platelet aggregation and activation yet does not exert cytotoxic effects on platelets. The venom was subsequently fractionated using reverse-phase high-performance liquid chromatography, and the most potent purified fraction was identified as a cytotoxin (three-finger toxin) through mass spectrometry. This purified fraction showed an inhibitory effect on platelet activity. These findings highlight that N. nivea venom can induce haemotoxicity in addition to neurotoxicity. Moreover, three-finger toxins may be promising candidates for bioprospecting to develop novel antithrombotic agents. Full article

Patients undergoing cervical conization for cervical intraepithelial neoplasia grade II (CIN II) may develop postoperative bloodstream infections (BSIs), and multidrug-resistant (MDR) Escherichia coli isolates with distinct resistance profiles can complicate antimicrobial management. In this case-based study, two E. coli strains, HBFY-1 and HBFY-2, were recovered from blood cultures obtained from a 38-year-old CIN II patient with postoperative fever. The isolates were characterized by antimicrobial susceptibility testing, whole-genome sequencing, conjugation assays, and comparative genomics against publicly available genomes matched by sequence type and serotype. Fever occurred on postoperative day 2. HBFY-1 was fluoroquinolone-resistant; belonged to ST744/O101:H9; carried the extended-spectrum β-lactamase (ESBL) gene bla_CTX-M-27; was phenotypically confirmed as an ESBL producer; and grouped within a multi-source near-neighbor clade consistent with a conserved fluoroquinolone-associated resistance backbone in ST744/O101:H9. HBFY-2 was carbapenem-resistant; belonged to ST48/O113:H32; carried bla_NDM-5 on an IncY-associated plasmid bin; was phenotypically confirmed as a metallo-carbapenemase producer; and did not harbor any ESBL gene. Within the matched ST48/O113:H32 dataset, bla_NDM-5 was detected only in HBFY-2, which clustered within an Asia-enriched lineage, including China-derived human and swine genomes. The bla_CTX-M-27-associated and bla_NDM-5-associated elements were transferred to E. coli C600 at frequencies of 5.3 × 10⁻² and 4.6 × 10⁻⁶, respectively, and transfer of the bla_NDM-5-associated element imposed no detectable growth penalty under the tested conditions. As this study is based on a single clinical case, the findings should be interpreted cautiously, yet they still highlight the potential value of integrating susceptibility testing with rapid genomic characterization for identifying mobilizable carbapenem-resistance platforms. Full article

Human endogenous retroviruses (HERVs) represent 8% of our genome. They are remnants of ancient infections of germinal cells. HERVs are no longer infectious, but their enhanced expression is implicated in several diseases, including neuropsychiatric disorders. Their transcription is regulated by TRIM28 and SETDB1, which are involved in the regulation of epigenetic processes, in neural cell differentiation, and brain inflammation. We explored the expressions of HERVs and TRIM28/SETDB1 in adolescents affected by anorexia nervosa (AN). Through real-time PCR, we assessed the transcription levels of pol genes of HERV-H, -K, and -W, of env genes of Syncytin 1 (SYN1), Syncytin 2 (SYN2), and of HERV-W, and of TRIM28 and SETDB1 in whole blood of 37 adolescents with AN and in healthy controls (HCs) of comparable age. HERV-H-pol, HERV-K-pol and SETDB1 transcriptional levels were significantly higher in adolescents with AN as compared with HCs, while HERV-W-pol and -env were downregulated in the former. No differences were observed for SYN1, SYN2, and TRIM28 between the two groups. The observed expression pattern of HERVs is specific for AN as compared to other neuropsychiatric disorders. These aberrant expressions suggest a potential role of retroviral elements in the pathophysiology of AN, opening the way for innovative diagnostic and therapeutic strategies. Full article

Saskatoon berry (SB), a traditional food of Indigenous people, has been associated with cardiometabolic benefits in animal models; however, its effects on humans remain unclear. This study investigated the effects of dried SB consumption on cardiometabolic outcomes, gut microbiota, and short-chain fatty acids (SCFAs) profiles in healthy adults. In a 10-week, single-arm, and open-label trial, 20 healthy adults consumed 40 g/day of freeze-dried whole SB. Biochemical measures, physical exams, dietary records, participant feedback, and fecal samples were collected before and after the intervention. Gut microbiota composition and fecal SCFAs were profiled using 16S-rRNA sequencing and gas chromatography–mass spectrometry, respectively. SB intake significantly reduced fasting plasma glucose, total cholesterol (TC), low-density lipoprotein-cholesterol (LDL-c), non-high-density lipoprotein-cholesterol (non-HDL-c), systolic blood pressure, and high-sensitivity C-reactive protein, while increasing dietary fiber intake. Fiber intake was negatively correlated with TC, LDL-c and non-HDL-c (p < 0.05). The relative abundance of fecal Prevotellaceae increased after SB consumption and was positively correlated with multiple fecal SCFAs (p < 0.05–0.0001), while being negatively associated with lipid profiles and blood pressure. No adverse cardiovascular, hepatic, or renal dysfunction were observed; however, the significant increase in sugar intake may pose a risk for elevated blood glucose. Therefore, limiting other high-sugar foods during SB supplementation may be advisable for individuals with glucose intolerance. Overall, SB intake improved glucose and lipid metabolism and lowered blood pressure and inflammatory markers in healthy adults. These cardiometabolic benefits may be mediated by fiber and anthocyanins in SB and through modulation of gut microbiota and SCFA production; however, further confirmation is needed in subsequent randomized controlled trials. Full article

Lactiplantibacillus plantarum LP28 (LP28), isolated from traditional Taiwanese dried tofu, has been demonstrated to have substantial probiotic potential because it increases the production of short-chain fatty acids (SCFAs) and strengthens anti-inflammatory responses. In this study, the safety of LP28 was assessed using both in vitro and in vivo approaches, including whole-genome sequence analysis, the Ames bacterial reverse mutation assay, a chromosomal aberration test, a rodent peripheral blood micronucleus test, a 28-day subacute oral toxicity assay, and an assessment of hemolytic activity. In vitro phenotypic evaluation revealed that LP28 exhibited no hemolytic activity and was susceptible to all the tested antibiotics except kanamycin. In vivo assessments revealed no significant alterations in reticulocyte counts or micronuclei incidence in ICR mice, and SD rats exhibited no subacute toxicity at an oral LP28 dosage of 2000 mg/kg body weight/day for 28 days. Moreover, a whole-genome sequence analysis of LP28 revealed the absence of antimicrobial resistance genes, harmful virulence factors, and genes associated with biogenic amine synthesis. Additionally, the presence of genes involved in stress responses (e.g., acid, bile salt, heat, osmotic, and oxidative stresses) and adhesion-related genes was confirmed. Furthermore, LP28 contains six genes (plnA, plnE, plnF, plnJ, plnK, and plnN) that encode bacteriocin precursor peptides, suggesting the potential for enhanced probiotic effects through the production of antimicrobial plantaricins. These findings highlight the potential of LP28 as a safe and effective probiotic for human consumption. Full article

Background: Human cysticercosis, caused by the larval stage (cysticerci) of the pork tapeworm Taenia solium, is an important zoonotic disease. The disease is prevalent in developing countries where porcine cysticercosis is common and undercooked pork is habitually consumed. Objective: This study aimed to develop an immunochromatography-based test kit for the rapid diagnosis of human cysticercosis using low-molecular-weight antigens purified from cyst fluid of the T. solium Asian genotype to detect specific IgG antibodies in whole blood. The kit was designated as “the cysticercosis whole-blood test kit (iCys WB kit).” Methods: It was evaluated under laboratory conditions using 164 whole-blood samples, of which 21 were from confirmed cysticercosis cases. The results of the iCys WB kit, which detects anti-T. solium (cysticercus) antibodies in simulated whole blood samples, were compared with results from corresponding human serum samples. Results: When using both sample types, iCys WB kit demonstrated an accuracy of 98.8%, a sensitivity of 91.7%, a specificity of 100%, a positive likelihood ratio of 0, a negative likelihood ratio of 0.083, and an ROC area of 0.96. The agreement between results obtained from simulated whole-blood and serum samples showed perfect concordance. Conclusions: The iCys WB kit is a valuable easy-to-handle diagnostic tool and may be applicable for supporting clinical diagnosis at the point of care. Full article

Deaths from the accidental ingestion of poisonous Amanita mushrooms occur every year due to the lack of a specific antidote against α-amanitin poisoning. Intervention and treatment can be promptly carried out to avoid serious consequences when the toxin can be effectively detected in whole blood before liver toxicity develops. Aptamers are molecular recognition units similar to antibodies, capable of specifically recognizing and detecting small molecules such as α-amanitin for which monoclonal antibodies are difficult to prepare. However, α-amanitin has a small molecular size and limited binding sites, which bring difficulties to aptamer selection. Moreover, achieving highly specific detection of α-amanitin in whole blood remains challenging due to the presence of potentially interfering components, such as human serum albumin (HSA). For these problems, we propose an aptamer selection method for small-molecule target α-amanitin, combining target-immobilized and library-immobilized SELEX to select high-affinity aptamers. To exclude HSA interference, counter-selection was introduced to remove HSA-bound sequences. Through these strategies, we successfully selected a highly specific α-amanitin aptamer with nanomolar affinity. Full article