Blood Clot Dynamics and Fibrinolysis Impairment in Cancer: The Role of Plasma Histones and DNA.

BACKGROUND: Blood viscoelasticity and plasma protein levels can play an important role in the diagnosis and prognosis of cancer. However, the role of histones and DNA in modulating blood clot properties remains to be investigated. This study investigates the differences in blood viscoelasticity and plasma protein levels among cancer patients, individuals with other diseases, and healthy individuals. METHODS: Blood samples were collected from 101 participants, including 45 cancer patients, 22 healthy individuals, and 34 individuals with other diseases. Rheological properties of clots formed in vitro by reconstituted elements of fibrinogen or plasma were analyzed with an Anton Paar Rheometer, USA. Plasma protein levels of D-dimer, TPA, EPCR, fibrinogen, and histone H3 were measured through ELISA. Blood clots were formed with or without DNA and histones (H3) by adding thrombin and calcium to plasma samples, and were evaluated for viscoelasticity, permeability, and degradation. RESULTS: Cancer patients show higher blood viscoelasticity and plasma D-dimer levels compared to healthy individuals and individuals with other diseases. Our in vitro analysis showed that the addition of histone to the plasma results in a significant decrease in viscoelasticity and mean fiber thickness of the clot formed thereafter. In parallel studies, using plasma from patients, DNA and histones were detected in fibrin clots and were associated with less degradation by t-PA. Moreover, our results show that the presence of DNA and histones not only increases clots' permeability, but also makes them more prone to degradation. CONCLUSIONS: Plasma histones and DNA affect the structure of the clot formed and induce defective fibrinolysis. Moreover, the increased viscoelastic properties of plasma from cancer patients can be used as potential biomarkers in cancer prognosis.

Fibrinolysis as a causative mechanism for bleeding complications on ECMO: a pilot observational prospective study.

BACKGROUND: Extracorporeal membrane oxygenation (ECMO) is associated with a high risk of bleeding complications. The specific impact of ECMO on fibrinolysis remains unexplored. The objective of the current pilot observational prospective study was to investigate the longitudinal dynamics of fibrinolytic markers - i.e., changes over time - in the context of bleeding events in patients on ECMO. METHODS: Longitudinal dynamics of contact phase components (kininogen and bradykinin) and fibrinolysis markers (tissue-type plasminogen activator [t-PA], plasminogen activator inhibitor-1 [PAI-1], their complexes [t-PA•PAI-1], plasmin-antiplasmin complexes, plasminogen, and D-dimer) were measured in patients undergoing veno-venous and veno-arterial ECMO, before implantation, at 0, 6, and 12 hours post-implantation, and daily thereafter. RESULTS: The cohort consisted of 30 patients (214 ECMO-days). The concentrations of t-PA, D-dimer, plasmin-antiplasmin complexes, PAI-1 and t-PA•PAI-1 complexes were increased, whereas plasminogen decreased compared to normal values. A noteworthy divergence was observed between hemorrhagic and non-hemorrhagic patients: in bleeding patients, D-dimer, plasmin-antiplasmin, t-PA, PAI-1 and t-PA•PAI-1 followed an increasing kinetics before hemorrhage and then decreased to their baseline level; conversely non-bleeding patients showed a decreasing kinetics in these markers. Also, D-dimer and t-PA followed an increasing kinetics in bleeding patients compared to non-bleeding patients (median values for D-dimer dynamics: 1080 vs. -440 ng/mL, p=0.05; t-PA dynamics: 0.130 vs. 0.100 nM, p=0.038), and both markers significantly increased the day before hemorrhage. A t-PA concentration above 0.304 nM was associated with bleeding events (OR 4.92, 95% CI [1.01-24.08], p=0.049). CONCLUSION: Contact activation induces fibrinolysis in ECMO patients, especially in patients experiencing bleeding. This finding supports the role of this mechanism as a possible causal factor for hemorrhages during ECMO and open new avenues for novel therapeutic perspectives. WHAT WE ALREADY KNOW ABOUT THIS TOPIC: Extracorporeal membrane oxygenation (ECMO) is associated with a high risk of bleeding complications due to multiple factors. However, the role of the fibrinolytic system is not well understood in this setting. WHAT THIS ARTICLE TELLS US THAT IS NEW: In patients requiring cardiac and/or pulmonary support with ECMO, D-dimer and tissue plasminogen activator levels were increased with bleeding, findings consistent with fibrinolysis.Although there are multiple causes for fibrinolysis during ECMO, their study suggests that patients who bled had increased contact activation, and may benefit from novel therapeutic agents that inhibit hemostatic activation through this pathway.

Assessment of inter-operator variability in peripheral monocyte subset gating strategy using flow cytometry in patients with suspected acute stroke.

BACKGROUND: Innovative tools to reliably identify patients with acute stroke are needed. Peripheral monocyte subsets, that is, classical-Mon1, intermediate-Mon2, and non-classical-Mon3, with their activation marker expression analyzed using flow-cytometry (FCM) could be interesting cell biomarker candidates. AIM: To assess the inter-operator variability in a new peripheral monocyte subset gating strategy using FCM in patients with suspected acute stroke. METHODS: In BOOST-study ("Biomarkers-algOrithm-for-strOke-diagnoSis-and Treatment-resistance-prediction," NCT04726839), patients ≥18 years with symptoms suggesting acute stroke within the last 24 h were included. Blood was collected upon admission to emergency unit. FCM analysis was performed using the FACS-CANTO-II® flow-cytometer and Flow-Jo™-software. Analyzed markers were CD45/CD91/CD14/CD16 (monocyte backbone) and CD62L/CD11b/HLA-DR/CD86/CCR2/ICAM-1/CX3CR1/TF (activation markers). Inter-operator agreement (starting from raw-data files) was quantified by the measure distribution and, for each patient, the coefficient of variation (CV). RESULTS: Three operators analyzed 20 patient blood samples. Median inter-operator CVs were below the pre-specified tolerance limits (10% [for Mon1 counts], 20% [Mon2, Mon3 counts], 15% [activation marker median-fluorescence-intensities]). We observed a slight, but systematic, inter-operator effect. Overall, absolute inter-operator differences in fractions of monocyte subsets were <0.03. CONCLUSION: Our gating strategy allowed monocyte subset gating with an acceptable inter-operator variability. Although low, the inter-operator effect should be considered in monocyte data analysis of BOOST-patients.

Measuring residual anti-Xa activity of direct factor Xa inhibitors after reversal with andexanet alfa.

INTRODUCTION: Andexanet alfa (AnXa) was developed for anticoagulant effect reversal of direct factor Xa inhibitors (DXaI) (apixaban, rivaroxaban, edoxaban) in emergency situations. Regular anti-Xa assays are not suitable to evaluate anti-Xa activity after AnXa administration because of the high sample dilution resulting in the AnXa-DXaI dissociation which gives inaccurately high DXaI measured concentrations. This study aimed at developing dedicated STA-Liquid anti-Xa test set-ups for accurately measuring DXaI after reversal with AnXa. METHODS: Modified anti-Xa test set-ups, with reduced sample dilution, were developed to overcome regular assays limitations and to improve measured accuracy with results comparable to Portola microplate reference method used in clinical studies. Both regular and optimized assays were used to measure DXaI concentration in AnXa-containing samples. Quality controls, normal pooled plasma spiked with five DXaI and three AnXa concentrations, samples from DXaI-treated patients spiked with AnXa and ex vivo healthy volunteers having received both DXaI and AnXa were used. RESULTS: The lower limit of quantitation of optimized anti-Xa assays was <10 ng/mL with CVs ≤10%. DXaI samples containing 300 ng/mL and 1 µmol/L AnXa resulted in DXaI residual concentrations of 29-72 ng/mL depending on the DXaI (76%-90% reversal), compared to 20-28 ng/mL with reference method (92%-94% reversal) and 135-165 ng/mL with regular assays (about 50% reversal). CONCLUSION: Modified test set-ups are automated alternative to reference method with improved precision and reproducibility. They can be run in all laboratories where regular anti-Xa assays are performed using commercially available reagents.

Evaluation of DOAC Filter, a new device to remove direct oral anticoagulants from plasma samples.

INTRODUCTION: Directs oral anticoagulants (DOACs) can interfere with coagulation assays, especially in thrombophilia workup. To avoid these interferences, a new device, DOAC Filter, allows the removal of DOACs from citrated plasma. This study aims to confirm that DOAC Filter efficiently removes DOACs and to ascertain that coagulation assays are not impacted by filtration. METHODS: Directs oral anticoagulants Filter (Diagnostica Stago, France) is a filtration cartridge in which DOAC molecules are trapped by noncovalent binding, while plasma is filtered through a solid phase. Normal pool plasma (NPP) spiked with DOACs up to 300 ng/mL, with dabigatran etexilate (n = 27), rivaroxaban (n = 35), apixaban (n = 33), and edoxaban (n = 27) or 120 ng/mL for betrixaban (n = 4), and 18 plasma's samples from DOAC-treated patients were used to assess efficacy. The potential impact of DOAC Filter on coagulation assays was evaluated with NPP and plasma's samples from positive and negative lupus anticoagulant (LA) patients. RESULTS: Directs oral anticoagulants concentrations measured after filtration were below the limit of detection (LoD) of DOAC-specific assays for all plasmas tested, except for one apixaban plasma sample, with postfiltration concentration slightly higher than anti-Xa assay LoD (25.1 ng/mL). Coagulation assays results varied between -4 and +8% after filtration and between -6 and +8% for LA plasmas. Such limited variations are not expected to have any clinical impact. CONCLUSION: Directs oral anticoagulants Filter efficiently removes DOACs from plasma and achieves concentrations below DOAC-specific assays LoD, except in the case of one apixaban sample. The integrity of plasma is respected, and the cartridge seems not to impact LA diagnosis.

The close relationship between heparanase and epithelial mesenchymal transition in gastric signet-ring cell adenocarcinoma.

Heparanase (HPSE), a heparan sulfate-specific endo-ß-D-glucuronidase, plays an important role in tumor cell metastasis through the degradation of extracellular matrix heparan sulfate proteoglycans. Suramin, a polysulfonated naphthylurea, is an inhibitor of HPSE with suramin analogues. Our objective was to analyze the HPSE involvement in gastric signet ring cell adenocarcinoma (SRCA) invasion. High expression of HPSE mRNA and protein was found in the tumor and in ascites of SRCA as well as in KATO-III cell line. Beside of collagen-I, growth factors (TGF-ß1 and VEGF-A, except FGF-2) and epithelial mesenchymal transition (EMT) markers (Snail, Slug, Vimentin, α-SMA and Fibronectin, except E-cadherin) were found higher in main nodules of SRCA as compared to peritumoral sites. Among MDR proteins, MDR-1 and LRP (lung resistance protein) were highly expressed in tumor cells. The formation of 3D cell spheroids was found to be correlated with their origin (adherent or non-adherent KATO-III). After treatment of KATO-III cells with a HPSE inhibitor (suramin), cell proliferation and EMT-related markers, besides collagen-1 expression, were down regulated. In conclusion, in SRCA, HPSE via an autocrine secretion is involved in acquisition of mesenchymal phenotype and tumor cell malignancy. Therefore, HPSE could be an interesting pharmacological target for the treatment of SRCA.

Laboratory assessment of rivaroxaban: a review.

Research into new anticoagulants for preventing and treating thromboembolic disorders has focused on targeting single enzymes in the coagulation cascade, particularly Factor Xa and thrombin, inhibition of which greatly decreases thrombin generation. Based on the results of phase III clinical trials, rivaroxaban, a direct Factor Xa inhibitor, has been approved in many countries for the management of several thromboembolic disorders. Owing to its predictable pharmacokinetic and pharmacodynamic characteristics, fixed-dose regimens are used without the need for routine coagulation monitoring. In situations where assessment of rivaroxaban exposure may be helpful, anti-Factor Xa chromogenic assays (in tandem with standard calibration curves generated with the use of rivaroxaban calibrators and controls) could be used. It is important to note that test results will be affected by the timing of blood sampling after rivaroxaban intake. In addition, the anti-Factor Xa method measures the drug concentration and not the intensity of the drug's anticoagulant activity, and a higher than expected rivaroxaban plasma level does not necessarily indicate an increased risk of bleeding complications. Therefore, clinicians need to consider test results in relation to the pharmacokinetics of rivaroxaban and other patient risk factors associated with bleeding.

Evaluation of the prothrombin time for measuring rivaroxaban plasma concentrations using calibrators and controls: results of a multicenter field trial.

This study evaluated the prothrombin time (PT) assay for the measurement of plasma concentrations of rivaroxaban using calibrators and controls. The intra- and interlaboratory precision of the measurement was investigated in a field trial involving 21 laboratories. Each laboratory was provided with rivaroxaban calibrators and control plasma samples containing different concentrations of rivaroxaban, and PT reagents. The evaluation was carried out over 2 consecutive weeks using centrally provided and local PT reagents. A calibration curve was produced each day (for inter-run precision), and day-to-day precision was evaluated by testing 3 control plasma samples. A large interlaboratory variation (in seconds) was observed with local PT reagents. The results were less variable when expressed as rivaroxaban concentrations (ng/mL) or when central PT reagent was used (STA Neoplastine CI Plus). The widely available PT assay, in conjunction with rivaroxaban calibrators, may be useful for the measurement of peak plasma levels of rivaroxaban.

Evaluation of the anti-factor Xa chromogenic assay for the measurement of rivaroxaban plasma concentrations using calibrators and controls.

Rivaroxaban is an oral, direct factor Xa inhibitor. Routine coagulation monitoring is not required, but a quantitative determination of rivaroxaban concentrations might be useful in some clinical circumstances. This multicentre study assessed the suitability of the anti-factor Xa chromogenic assay for the measurement of rivaroxaban plasma concentrations (ng/ml) using rivaroxaban calibrators and controls, and the inter-laboratory precision of the measurement. Twenty-four centres in Europe and North America were provided with sets of rivaroxaban calibrators (0, 41, 209 and 422 ng/ml) and a set of rivaroxaban pooled human plasma controls (20, 199 and 662 ng/ml; the concentrations were unknown to the participating laboratories). The evaluation was carried out over 10 days by each laboratory using local anti-factor Xa reagents as well as the centrally provided reagent, a modified STA® Rotachrom® assay. A calibration curve was produced each day, and the day-to-day precision was evaluated by testing three human plasma controls. When using the local anti-factor Xa reagents, the mean rivaroxaban concentrations (measured/actual values) were: 17/20, 205/199 and 668/662 ng/ml, and the coefficient of variance (CV) was 37.0%, 13.7% and 14.1%, respectively. When the modified STA Rotachrom method was used, the measured/actual values were: 18/20, 199/199 and 656/662 ng/ml, and the CV was 19.1%, 10.9% and 10.0%, respectively. The results suggest that, by using rivaroxaban calibrators and controls, the anti-factor Xa chromogenic method is suitable for measuring a wide range of rivaroxaban plasma concentrations (20-660 ng/ml), which covers the expected rivaroxaban plasma levels after therapeutic doses.