Scalable production of tissue-like vascularized liver organoids from human PSCs.

The lack of physiological parity between 2D cell culture and in vivo culture has led to the development of more organotypic models, such as organoids. Organoid models have been developed for a number of tissues, including the liver. Current organoid protocols are characterized by a reliance on extracellular matrices (ECMs), patterning in 2D culture, costly growth factors and a lack of cellular diversity, structure, and organization. Current hepatic organoid models are generally simplistic and composed of hepatocytes or cholangiocytes, rendering them less physiologically relevant compared to native tissue. We have developed an approach that does not require 2D patterning, is ECM independent, and employs small molecules to mimic embryonic liver development that produces large quantities of liver-like organoids. Using single-cell RNA sequencing and immunofluorescence, we demonstrate a liver-like cellular repertoire, a higher order cellular complexity, presenting with vascular luminal structures, and a population of resident macrophages: Kupffer cells. The organoids exhibit key liver functions, including drug metabolism, serum protein production, urea synthesis and coagulation factor production, with preserved post-translational modifications such as N-glycosylation and functionality. The organoids can be transplanted and maintained long term in mice producing human albumin. The organoids exhibit a complex cellular repertoire reflective of the organ and have de novo vascularization and liver-like function. These characteristics are a prerequisite for many applications from cellular therapy, tissue engineering, drug toxicity assessment, and disease modeling to basic developmental biology.

SARS-CoV-2 vaccines are not associated with hypercoagulability in apparently healthy people.

Background: SARS-CoV-2 adenoviral vector DNA vaccines have been linked to the rare but serious thrombotic postvaccine complication vaccine-induced immune thrombotic thrombocytopenia. This has raised concerns regarding the possibility of increased thrombotic risk after any SARS-CoV-2 vaccines. Objectives: To investigate whether SARS-CoV-2 vaccines cause coagulation activation leading to a hypercoagulable state. Methods: This observational study included 567 health care personnel; 521 were recruited after the first dose of adenoviral vector ChAdOx1-S (Vaxzevria, AstraZeneca) vaccine and 46 were recruited prospectively before vaccination with a messenger RNA (mRNA) vaccine, either Spikevax (Moderna, n = 38) or Comirnaty (Pfizer-BioNTech, n = 8). In the mRNA group, samples were acquired before and 1 to 2 weeks after vaccination. In addition to the prevaccination samples, 56 unvaccinated blood donors were recruited as controls (total n = 102). Thrombin generation, D-dimer levels, and free tissue factor pathway inhibitor (TFPI) levels were analyzed. Results: No participant experienced thrombosis, vaccine-induced immune thrombotic thrombocytopenia, or thrombocytopenia (platelet count <100 × 109/L) 1 week to 1 month postvaccination. There was no increase in thrombin generation, D-dimer level, or TFPI level in the ChAdOx1-S vaccine group compared with controls or after the mRNA vaccines compared with baseline values. Eleven of 513 (2.1%) participants vaccinated with ChAdOx1-S had anti-PF4/polyanion antibodies without a concomitant increase in thrombin generation. Conclusion: In this study, SARS-CoV-2 vaccines were not associated with thrombosis, thrombocytopenia, increased thrombin generation, D-dimer levels, or TFPI levels compared with baseline or unvaccinated controls. These findings argue against the subclinical activation of coagulation post-COVID-19 vaccination.

Effects of a 1-Year Physical Activity Intervention on Markers of Hemostasis among Breast Cancer Survivors: A Randomized Controlled Trial.

Introduction Physical activity may reduce the development of breast cancer. Whereas hypercoagulability has been linked to adverse outcomes in breast cancer patients, the effects of physical activity on their hemostatic factors are unknown. The study aimed to assess whether long-term (1 year) physical activity can affect hemostatic factors in breast cancer patients. Methods Fifty-five women (35-75 years) with invasive breast cancer stage I/II were randomized to a physical activity intervention ( n = 29) lasting 1 year or to a control group ( n = 26), and analyzed as intention to treat. Fibrinogen, factor VII antigen, tissue factor pathway inhibitor, and von Willebrand factor (VWF) antigen as well as prothrombin fragment 1 + 2, the endogenous thrombin potential and D-dimer, were measured in plasma before intervention (baseline), and then after 6 and 12 months. Results Maximal oxygen uptake (measure of cardiorespiratory fitness) decreased the first 6 months among the controls, but remained stable in the intervention group. We found no significant differences between the two study groups regarding any of the hemostatic factors, except a significantly higher increase in factor VII antigen in the intervention group. The effect of the intervention on VWF was, however, significantly affected by menopausal stage, and a significant effect of the intervention was found on VWF among postmenopausal women, even after adjustment for dietary intake. Conclusion Long-term physical activity had no effect on the majority of the hemostatic factors measured, but led to increased plasma concentrations of factor VII antigen and prevented an increase in VWF concentration after breast cancer treatment in postmenopausal women. The clinical impact of these findings for risk of vascular thrombosis warrants further studies.

Utility of coagulation analyses to assess thromboprophylaxis with dalteparin in intensive care unit patients.

BACKGROUND: The aim of this study was to evaluate the utility of coagulation analyses to assess thromboprophylaxis with dalteparin in intensive care unit (ICU) patients. METHODS: Prospective observational study of ICU patients receiving dalteparin prophylaxis at Oslo University Hospital in Norway. Trough and peak antithrombin, protein C, anti-factor Xa activity (aFXa), d-dimer, thromboelastography, calibrated automated thrombogram and microparticles were analysed. Levels were compared in patients with and without venous thromboembolism (VTE), major bleeding, acute kidney injury (AKI) with use of renal replacement therapy (RRT) and variable dalteparin dose. RESULTS: Among 50 included patients (76% male, mean age 62 years) five (10%) developed VTE and eight (16%) major bleeding. Median through aFXa level was 0.03 (0.02-0.05) IU/mL, and 48 (96%) of patients were within and two (4%) above target range. Peak aFXa level was 0.21 (0.13-0.29) IU/mL, the number of patients below, within and above prophylactic range were 21 (42%), 25 (50%) and four (8%). Peak aFXa levels were similar in patients with and without VTE (0.18 vs 0.21 IU/L, P = .72), major bleeding (0.22 vs 0.21 IU/mL, P = .38) and AKI with RRT (0.18 vs 0.24, P = .13), but lower in patients receiving dalteparin 5000 IU od compared to 7500 IU od (0.19 vs 0.30 IU/mL, P < .01). CONCLUSIONS: Intensive care unit patients receiving dalteparin prophylaxis had half of patients within prophylactic peak aFXa target range. Peak aFXa levels was affected by administered dalteparin dose, but not presence of VTE, major bleeding or AKI with RRT.

Markers of endothelial cell activation and neutrophil extracellular traps are elevated in immune thrombocytopenia but are not enhanced by thrombopoietin receptor agonists.

INTRODUCTION: Patients with immune thrombocytopenia (ITP) are at increased risk of thrombosis, which seems to be further enhanced by treatment with thrombopoietin-receptor-agonists (TPO-RAs). The underlying mechanisms of thrombosis in ITP are not fully understood. Endothelial cell activation and neutrophil extracellular traps (NETs) play important roles in thrombosis, however, their roles in ITP itself, or in TPO-RA-treatment, have not yet been fully explored. We aimed to investigate whether endothelial cell activation and NETs are involved in the hypercoagulable state of ITP, and whether TPO-RA-treatment enhances endothelial cell activation and NET formation. MATERIAL AND METHODS: We measured markers of endothelial cell activation including intercellular adhesion molecule-1 (ICAM-1), vascular adhesion molecule-1 (VCAM-1) and thrombomodulin in 21 ITP patients, and E-selectin in 18 ITP patients. Markers of NET formation, citrullinated histone H3-DNA (H3Cit-DNA) and cell-free DNA (cfDNA), were measured in 15 ITP patients. All markers were measured before, and 2 and 6 weeks after initiation of TPO-RA-treatment in ITP patients, and in matched controls. RESULTS: Higher levels of ICAM-1, thrombomodulin, and H3Cit-DNA were found in ITP patients, both before and after TPO-RA-treatment, compared with controls. No differences were found for VCAM-1, E-selectin or cfDNA. TPO-RA-treatment did not further increase markers of endothelial cell activation or NET formation. CONCLUSIONS: This study showed that ITP patients have increased endothelial cell activation and NET formation, both of which may contribute to the intrinsic hypercoagulable state of ITP. TPO-RA-treatment, however, did not further increase endothelial cell activation or NET formation indicating that other drug-associated prothrombotic mechanisms are involved.

Effect of hormone replacement therapy on atherogenic lipid profile in postmenopausal women.

BACKGROUND: Women develop cardiovascular disease (CVD) approximately 7-10 years later than men, but progress with similar risk after menopause. Recent studies suggest that hormone replacement therapy (HRT) is cardioprotective when initiated early after menopause, but the mechanisms involved are still unclear. OBJECTIVE: In the current study, we aimed to examine the effects of HRT treatment on the plasma atherogenicity in postmenopausal women. We studied the total lipid profile in blood samples collected in a randomized, double-blinded, placebo controlled clinical trial of women with a history of venous thrombosis (VT), the EVTET study. METHODS: One-hundred and forty postmenopausal women <70 years were included in EVTET and randomized either to active treatment (one tablet of 2 mg estradiol and 1 mg norethisterone acetate daily) (n = 71) or placebo (n = 69). Blood samples were taken at baseline and after 3 months and subjected to routine assessment of hemostatic factors and lipids. RESULTS: Our study show that HRT compared to placebo significantly reduced plasma levels of Lp(a), ApoA1, ApoB, total cholesterol (TC), HDL-C, LDL-C, TC/HDL-C and LDL-C/HDL-C ratio at 3 months. No effect was observed on ApoB/ApoA1 ratio or triglycerides. The change in Lp(a) was significantly and inversely correlated with the change in estradiol (r = -0.32; P = 0.001) and positively correlated to the change in lipids, tissue factor pathway inhibitor activity and antigen, protein C and fibrinogen (r between 0.26 and 0.45, p < 0.01). CONCLUSION: In sum, this study confirms a strong effect of HRT on atherogenic lipids with a large reduction in the pro-thrombotic Lp(a), suggesting an overall favorable effect on thrombogenicity after HRT replacement therapy in post-menopausal women at risk of VT.

Effect of thrombopoietin receptor agonists on markers of coagulation and P-selectin in patients with immune thrombocytopenia.

Thrombopoietin-receptor-agonists (TPO-RA) are effective treatments of immune thrombocytopenia (ITP). Previous long-term TPO-RA clinical trials have shown that thrombotic events occurred in 6% of TPO-RA-treated ITP patients. To explore the increased risk of thrombosis, the effects of TPO-RA on markers of coagulation and P-selectin were studied. The study comprised two ITP cohorts and controls. Cohort 1 included 26 patients with sequential samples acquired before and during treatment with TPO-RA. Cohort 2 included a single sample in 18 patients on TPO-RA for more than one year. Thrombin generation (endogenous thrombin potential (ETP)) prothrombin fragments 1 + 2 (F1+2), D-dimer, and plasminogen-activator-inhibitor-1 (PAI-1) were measured as well as soluble P-selectin (sP-selectin). Sequential expression of encoding genes for P-selectin (SELP) and PAI-1 (SERPINE1) was determined in four patients in cohort 1. Significantly higher levels of F1+2, D-dimer, and PAI-1 were found in ITP patients before TPO-RA treatment and in patients on long-term TPO-RA treatment than in controls. Pre-treatment levels of sP-selectin did not differ from controls. Analysis of longitudinal trends showed an increase in platelet count, sP-selectin, and PAI-1 after initiation of TPO-RA, followed by gradual decline. Platelet count and sP-selectin remained at higher levels throughout the study, whereas PAI-1 did not. Levels of other studied parameters did not show significant changes after initiation of treatment. Expression of SELP was up-regulated after initiation of TPO-RA, while the expression of SERPINE1 showed no significant changes. In conclusion, elevated pre-treatment levels of F1+2, D-dimer and PAI-1 are compatible with ITP being an intrinsically pro-thrombotic condition. After TPO-RA treatment, there were no significant changes in markers of coagulation activation or fibrinolysis, except for an initial increase in PAI-1 and a significant increase in sP-selectin both of which may contribute to increased thrombotic risk associated with TPO-RA treatment in ITP.

Relationship between sex hormone binding globulin and blood coagulation in women on postmenopausal hormone treatment.

: Postmenopausal hormone therapy increases the risk of venous thrombosis. Sex hormone binding globulin (SHBG) is a suggested marker of 'total estrogenicity'. The study objective was to evaluate the impact of hormone therapy on SHBG and the association with coagulation variables. The study populations comprised 202 healthy postmenopausal women randomized to treatment with low-dose or conventional-dose hormone therapy, tibolone or raloxifene (RET-study) and 140 women with a history of venous thrombosis randomized to conventional-dose hormone therapy or placebo (EVTET-study). SHBG was determined in serum collected at baseline and after 12 weeks. In healthy women, conventional-dose hormone therapy increased SHBG with mean 9.7 (95% confidence interval 4.8-14.5) nmol/l, low-dose hormone therapy by mean 5.9 (0.4-11.5) nmol/l, raloxifene by mean 7.2 (3.9-10.4) nmol/l, while tibolone reduced SHBG with mean -25.1 (-29.9 to -20.4) nmol/l. SHBG correlated with protein S, tissue factor pathway inhibitor (TFPI) and protein C at baseline, and with protein S and TFPI after 12 weeks, but the change in SHBG from baseline to 12 weeks was only associated with the change in activated protein C (APC) resistance. In women with a history of venous thrombosis, the mean increase in SHBG was 13.6 (8.4-18.9) nmol/l in the conventional-dose hormone therapy group, with no change in the placebo group. Baseline SHBG was higher among women who developed recurrent venous thrombosis on conventional-dose hormone therapy. SHBG correlated with several coagulation inhibitors, but the change in SHBG induced by postmenopausal hormone therapy was only associated with the change in APC resistance.

Normalization of disrupted clock gene expression in males with tetraplegia: a crossover randomized placebo-controlled trial of melatonin supplementation.

STUDY DESIGN: Crossover double blind, randomized placebo-controlled trial. OBJECTIVES: Circadian oscillators are located both in the brain and in peripheral organs. Melatonin, the main brain-derived hormone governing circadian variations, is highly associated with daylight patterns. However, in subjects with tetraplegia the melatonin levels are blunted. Here we studied peripheral oscillators in peripheral blood mononuclear cells (PBMCs) in males with tetraplegia by examining how exogenous melatonin may influence the expression of clock gene mRNAs. SETTING: Sunnaas Rehabilitation Hospital, Nesoddtangen, Norway. METHODS: Six males with tetraplegia received 2 mg of melatonin or placebo 4 days before the study period. We also included six able-bodied men sleeping or kept awake during the night. Plasma samples were collected four times during a 24-h period. The mRNA expression levels of the clock genes PER1, PER2, BMAL1, and REV-ERBα were quantified in PBMCs using quantitative RT-PCR. RESULTS: The mRNA expression levels of PER-1 and -2 and REV-ERBα were increased at 04:00 h compared with the able-bodied controls (p < 0.05). Melatonin supplementation changed mRNA peak-time toward the time of supplementation. CONCLUSIONS: Several peripheral clock genes displayed distorted expression levels in tetraplegia. Supplementation with melatonin changed the mRNA expression levels of these genes toward those observed among able-bodied. SPONSORSHIP: Financial support was provided from the Throne Holst Foundation, Sunnaas Rehabilitation hospital and the University of Ferrara (FAR2016).

Determinants of acquired activated protein C resistance and D-dimer in breast cancer.

BACKGROUND: We have previously reported acquired activated protein C (APC) resistance and elevated plasma D-dimer levels in breast cancer patients. Here, we aimed to identify phenotypic and genetic determinants that contribute to the acquired APC resistance and increased D-dimer levels in breast cancer. Healthy controls served as reference. We also addressed whether higher APC resistance or D-dimer levels could be potential markers of clinicopathological breast cancer characteristics. MATERIALS AND METHODS: 358 breast cancer patients and 273 healthy controls were enrolled and hemostatic plasma parameters were determined; factor (F) V, FVIII, FIX, FX, fibrinogen, von Willebrand factor (VWF), normalized APC sensitivity ratio (n-APC-sr), protein C, protein S, antithrombin, tissue factor pathway inhibitor (TFPI), and D-dimer. Common single nucleotide polymorphisms were genotyped in coagulation-related genes in the breast cancer patients. RESULTS: The phenotypic hemostatic factors explained 25% and 31% of the variability in acquired APC resistance and D-dimer levels, respectively, in the breast cancer patients. Fibrinogen (ß=-0.35, P<0.001), protein C (ß=0.28, P<0.001), and FIX (ß=0.22, P=0.026) were identified as determinants of n-APC-sr (in FV Leiden non-carriers), whereas TFPI (ß=0.28, P<0.001), antithrombin (ß=-0.25, P<0.001), and FX (ß=0.15, P=0.040) were the major determinants of D-dimer. Moreover, borderline higher APC resistance (>75th percentile) was found in patients with triple negative tumors (odds ratio (OR) 1.97, 95% CI 0.99-3.90). CONCLUSIONS: This study reports phenotypic hemostatic parameters that determine acquired APC resistance and D-dimer levels in breast cancer patients. The explanatory power was modest, however, our findings are hypothesis generating and may contribute to further understand the background for cancer associated-coagulopathy and thrombosis.

The role of inflammation in post-thrombotic syndrome after pregnancy-related deep vein thrombosis: A population-based, cross-sectional study.

Previous studies suggest that inflammation may play a role in the pathophysiology of post-thrombotic syndrome (PTS). The aims of the present study were to evaluate markers of inflammation as possible predictors for PTS after pregnancy-related deep vein thrombosis (DVT). We included 182 women with a pregnancy-related DVT during 1990-2003 and 314 controls. All women answered a questionnaire and donated a blood sample in 2006. PTS was diagnosed when a self-reported Villalta score was above 4. The following predictors of PTS were included: high sensitivity C-reactive protein (hsCRP), interleukin (IL)-6, IL-8, IL-10, monocyte chemotactic protein (MCP)-1, transforming growth factor (TGF)-ß1, platelet derived growth factor (PDGF)-BB, and the two adhesion molecules intercellular adhesion molecule (ICAM)-1 and vascular cell adhesion molecule (VCAM)-1. High values were defined as above median value among controls. We found that 41% of cases were diagnosed with PTS 3-16years after index pregnancy. In univariate analyses, high values of hsCRP, IL-6, and IL-10 were significantly associated with PTS with ORs 2.3 (95% CI; 1.2-4.2, p=0.008), 1.9 (1.0-3.5, p=0.04), and 10.8 (1.3-89.8, p=0.01), respectively. Only hsCRP, which has previously been found to be independently associated with PTS, was independently associated with PTS in a multivariate logistic regression model, when adjusting for proximal DVT occurring postpartum, age above 33years, and smoking (adjusted OR 2.4; 95% CI 1.2-4.8, p=0.01). We conclude that hsCRP was associated with PTS 3-16years after pregnancy-related DVT.

Reduced peak, but no diurnal variation, in thrombin generation upon melatonin supplementation in tetraplegia. A randomised, placebo-controlled study.

Tetraplegic patients have increased risk of venous thrombosis despite anti-thrombotic prophylaxis. Moreover, they have blunted plasma variations in melatonin and altered diurnal variation of several haemostatic markers, compared with able-bodied. However, whether healthy individuals and tetraplegic patients, with or without melatonin, display abnormalities in thrombin generation during a 24-hour (h) cycle, is unknown. We therefore used the Calibrated Automated Thrombogram (CAT) assay to examine diurnal variations and the possible role of melatonin in thrombin generation. Six men with long-standing complete tetraplegia were included in a randomised placebo-controlled cross-over study with melatonin supplementation (2 mg, 4 consecutive nights), whereas six healthy, able-bodied men served as controls. Ten plasma samples were collected frequently during a 24-h awake/sleep cycle. No significant diurnal variation of any of the measured CAT indices was detected in the three study groups. Whereas endogenous thrombin potential (ETP) was independent (p > 0.05) of whether the tetraplegic men received melatonin or placebo, melatonin decreased (p = 0.005) peak values in tetraplegia compared with those given placebo. Able-bodied men had lower (p = 0.019) ETP and Lag-Time (p = 0.018) compared with tetraplegics receiving placebo. Neither the Time-to-Peak nor the Start-Tail was affected (p > 0.05) by melatonin in tetraplegia. In conclusion, indices of thrombin generation are not subjected to diurnal variation in healthy able-bodied or tetraplegia, but peak thrombin generation is reduced in tetraplegic men receiving oral melatonin.

Enhanced thrombin generation and reduced intact protein S in processed solvent detergent plasma.

BACKGROUND: Standardized solvent/detergent (S/D)-treated plasma has been developed as an improved alternative to fresh frozen-plasma (FFP) in the management of severe bleeds. This study aimed at exploring compositional modifications that may influence the general applicability of S/D-treated plasma. MATERIALS AND METHODS: S/D-treated plasma and FFP were compared in procoagulant microparticles and concentration of coagulation factors and inhibitors. Compositional differences were correlated with hemostatic and fibrinolytic characteristics as measured by PT, APTT, thrombin generation and thromboelastography. RESULTS: Procoagulant microparticles were absent in S/D-treated plasma. Procoagulant factors were within the normal range. Antithrombin, TFPI and protein S antigen may be normal or slightly reduced depending on the duration of the S/D-treatment, but S/D-treated plasmas had only 12-14% intact functional protein S. Thrombin generation was subsequently increased, especially at low tissue factor concentration (1 pM). Plasma coagulation times in PT and APTT were normal, but 1.5-fold reduced in thromboelastography at low TF (1 pM). α2-antiplasmin was reduced with a concomitant 3-4 fold shortened clot lysis time measured by thromboelastography in the presence of TF (10 pM) and tissue-type plasminogen activator (0.2µg/ml). Enhanced fibrin degradation could be normalised with tranexamic acid. CONCLUSIONS: S/D-treatment seems to induce a procoagulant phenotype that results from a strongly reduced level of intact single chain protein S. Whether this may correct the apparent hemostatic imbalance as suggested from the increased fibrinolysis remains to be established. Our findings may bear implications in patients with deficiencies of natural anticoagulants. Co-administration of tranexamic acid appears beneficial to control enhanced fibrinolysis.

A microarray study on the effect of four hormone therapy regimens on gene transcription in whole blood from healthy postmenopausal women.

BACKGROUND: Postmenopausal hormone therapy is associated with many diseases and conditions, e.g., cardiovascular diseases and asthma, but the underlying molecular mechanisms are incompletely understood. The aim of the current study was to investigate the effect of four different postmenopausal hormone therapy regimens on gene transcription. MATERIALS AND METHODS: Twenty-four healthy postmenopausal women (six women in four groups) were randomly allocated to conventional-dose 17ß-estradiol/norethisterone acetate (NETA), low-dose 17ß-estradiol/NETA, tibolone, or raloxifene hydrochloride. RNA was isolated from whole blood before and after 6weeks of treatment. The changes in mRNA were assessed with a microarray chip. RESULTS: The genes FKBP5, IL13RA1, TPST1, and TLR2 were up-regulated and among the most significantly changed genes in the groups treated with conventional-dose 17ß-estradiol/NETA and tibolone. Up-regulation of TPST1 was associated with reduction of tissue factor pathway inhibitor in plasma. Nine biological pathways were associated with conventional-dose 17ß-estradiol/NETA, most significantly the pathways for asthma, toll-like receptor signaling, cell adhesion molecules, and MAPK signaling. Transcriptional changes with false discovery rate below 0.10 were found in 10 genes in the conventional-dose 17ß-estradiol/NETA group, 7 genes in the tibolone group, and zero genes in the women on low-dose 17ß-estradiol/NETA. No genes or pathways were associated with raloxifene treatment. CONCLUSIONS: The difference between low-dose and conventional-dose17ß-estradiol/NETA indicates an effect of dose on transcriptional response. Several genes and pathways related to cell adhesion molecules and immunity related cell surface receptors were influenced by conventional-dose 17ß-estradiol/NETA.

Resistance to activated protein C is a risk factor for pregnancy-related venous thrombosis in the absence of the F5 rs6025 (factor V Leiden) polymorphism.

Resistance to activated protein C (aPC) is most commonly due to the F5 rs6025 (factor V Leiden) polymorphism, which increases the risk of venous thrombosis. In the present population-based study of 313 cases and 353 controls, we investigated whether reduced sensitivity to aPC was associated with a history of pregnancy-related venous thrombosis. Calibrated automated thrombography was used to determine the sensitivity to aPC, and normalized aPC sensitivity ratio (n-aPC-sr) was calculated. Pregnant women and women using oral contraceptives and/or anticoagulants were excluded due to the effect on the n-aPC-sr. In women without the F5 rs6025 polymorphism, free tissue factor pathway inhibitor (TFPI), free protein S and protein C activity were associated with n-aPC-sr. Unadjusted odds ratio for venous thrombosis for women with n-aPC-sr in the 4th quartile as compared with n-aPC-sr below the 4th quartile was 2·4 (95% confidence interval 1·7-3·6). Adjusting for free protein S, free TFPI and age did not influence the odds ratios. Also in carriers of the F5 rs6025 polymorphism the risk for venous thrombosis was increased for women with higher n-aPC-sr. Our findings substantiate the importance of the aPC resistant phenotype as a risk factor for pregnancy-related venous thrombosis.

Differential impact of conventional and low-dose oral hormone therapy (HT), tibolone and raloxifene on functionality of the activated protein C system.

Recent studies have shown that hormone therapy (HT) is associated with an acquired resistance to activated protein C (APC). The aims of the present study were to evaluate a possible dose-response relationship and differential effects of different HT regimens on functionality of the APC system. Two hundred two healthy women were randomly assigned to receive treatment for 12 weeks with tablets containing either low-dose HT containing 1 mg 17ss-oestradiol + 0.5 mg norethisterone acetate (NETA) (n = 50), conventional-dose HT containing 2 mg 17ss-oestradiol and 1 mg NETA (n = 50), 2.5 mg tibolone (n = 51), or 60 mg raloxifene (n = 51). Normalized APC system sensitivity ratios (nAPCsr) were determined in plasma collected at baseline and after 12 weeks using a thrombin generation-based APC resistance test probed with either recombinant APC (rAPC) or thrombomodulin (rTM). NAPCsr increased in both the conventional- and low-dose HT groups, consistent with reduced sensitivity to APC. The increase was slightly more pronounced in the conventional-dose group, but the difference between the two HT groups was not statistically significant. The sensitivity to APC was only marginally altered in those allocated to tibolone. Consequently, tibolone showed a different phenotype as compared with the low-dose HT group. A small increase in nAPCsr with both rAPC and rTM was seen in the raloxifene-group, but the increase was less than in the low-dose HT group. Our findings indicate that oestrogen-progestin therapy induces an APC resistant phenotype, which may be related to dose, whereas tibolone and raloxifene only marginally alter the sensitivity to APC.

Differential effects of conventional and low dose oral hormone therapy (HT), tibolone, and raloxifene on coagulation and fibrinolysis.

INTRODUCTION: We have recently reported that different hormone regimens given to healthy post-menopausal women had markedly different effects on activation of coagulation. Low-dose hormone therapy (HT) and raloxifene, as opposed to conventional-dose HT and tibolone, were associated with no or minor activation of coagulation. The aim of this study was to elucidate the mechanism(s) for differences in coagulation activation by analysing clotting and fibrinolytic factors and coagulation inhibitors. MATERIALS AND METHODS: 202 healthy women were randomly assigned to receive treatment for 12 weeks with either low dose HT containing 1 mg 17 beta-estradiol+0.5 mg norethisterone acetate (NETA) (n=50), conventional dose HT containing 2 mg 17 beta-estradiol and 1 mg NETA (n=50), 2.5 mg tibolone (n=51), or 60 mg raloxifene (n=51) in an open-label design. RESULTS: The conventional-and low-dose HT groups generally showed similar effects, i.e., reductions in both clotting factors and inhibitors, but the effects were markedly more pronounced in the conventional-dose HT group. Compared with the low-dose HT group those treated with tibolone showed more pronounced decreases in factor VII, less reduction of antithrombin and protein C and even increased levels in protein S and tissue factor pathway inhibitor. As opposed to the low-dose HT group the reductions in inhibitors in the raloxifene group were smaller. Moreover in those allocated to raloxifene reduced levels of fibrinogen were seen. CONCLUSIONS: Our study demonstrates that the different HT regimens and raloxifene exert differential effects on coagulation factors, inhibitors and fibrinolytic factors.

Decreased anticoagulant response to tissue factor pathway inhibitor type 1 in plasmas from patients with lupus anticoagulants.

Inhibition of tissue factor pathway inhibitor type 1 (TFPI) is one of the mechanisms by which lupus anticoagulants (LA) may upregulate tissue factor (TF) activity. We wanted to examine whether purified immunoglobulin G (IgG) from patients with LA may interfere with the ability of TFPI to inhibit ex vivo TF-induced thrombin generation. The endogenous thrombin potential (ETP) in pooled normal plasma (PNP) supplemented with IgG from either patients with LA or controls was determined in the absence or presence of recombinant TFPI (rTFPI). In the presence of a heparin neutralizer, the ETP was also determined in plasmas from patients with LA and controls before and after heparin injection in order to quantify the anticoagulant effect of heparin-releasable TFPI in vivo. Compared with IgG from controls (n = 14), IgG from patients with LA (n = 28) induced a wide range of enhancing or inhibitory effects on the ETP in PNP. The response to rTFPI in PNP with IgG from patients with LA correlated inversely with thrombin generation (r(s) = 0.637, P = 0.0003). Correspondingly, the relative inhibition of ETP in postheparin plasmas was smaller for patients (n = 11) than for controls (n = 9) (32% vs. 68%, P = 0.007). Our findings support the hypothesis that TFPI anticoagulant activity is inhibited in some patients with LA.

The ability of three global plasma assays to recognize thrombophilia.

Three global assays, the Calibrated Automated Thrombogram (CAT), the ProC Global (PCG), and the Coagulation Inhibitor Potential (CIP) were performed in frozen plasma samples from 24 normal controls and 24 patients with inherited thrombophilia. Six patients had inherited antithrombin (AT) deficiency; 18 patients had abnormalities in the protein C/S anticoagulant system (protein C deficiency (n=3), protein S deficiency (n=10), homozygous FV Leiden mutation (n=5)). Nine of these twenty four patients carried additionally the heterozygous FV Leiden mutation. All three assays separated the thrombophilia group and the control group (P=0.083 for CAT, P<0.0001 for the other two assays) but there was considerable overlap, particularly in the CAT assay. The CAT assay separated all plasma samples with AT deficiency but was less sensitive to abnormalities in the protein C/S system. In contrast, ProC Global was more sensitive to abnormalities in the protein C system than to AT deficiency. The CIP assay was approximately equally sensitive to defects in both systems. Receiver operator characteristic (ROC) curves confirmed that the ProC Global and the CIP assays performed better than the CAT assay (P=0.0179 and P=0.0003, respectively). With the CIP assay ROC analysis showed that with a sensitivity of 100% the specificity was 87.5%. With the PCG assay, optimal threshold resulted in both a sensitivity and a specificity of 79.2%. Although our material is relatively small, the data suggest that at a cut-off value with a specificity of >80%, the CIP assay should be evaluated as a screening test for severe thrombophilia.