Genome-wide meta-analysis identifies 93 risk loci and enables risk prediction equivalent to monogenic forms of venous thromboembolism.

We report a genome-wide association study of venous thromboembolism (VTE) incorporating 81,190 cases and 1,419,671 controls sampled from six cohorts. We identify 93 risk loci, of which 62 are previously unreported. Many of the identified risk loci are at genes encoding proteins with functions converging on the coagulation cascade or platelet function. A VTE polygenic risk score (PRS) enabled effective identification of both high- and low-risk individuals. Individuals within the top 0.1% of PRS distribution had a VTE risk similar to homozygous or compound heterozygous carriers of the variants G20210A (c.*97 G > A) in F2 and p.R534Q in F5. We also document that F2 and F5 mutation carriers in the bottom 10% of the PRS distribution had a risk similar to that of the general population. We further show that PRS improved individual risk prediction beyond that of genetic and clinical risk factors. We investigated the extent to which venous and arterial thrombosis share clinical risk factors using Mendelian randomization, finding that some risk factors for arterial thrombosis were directionally concordant with VTE risk (for example, body mass index and smoking) whereas others were discordant (for example, systolic blood pressure and triglyceride levels).

[Inherited platelet disorders].

Inherited platelet disorders (IPD) cover a heterogenous group of disorders with large differences in severity, disease mechanisms and prevalence. Pathogenic variants in more than 60 different genes, associated with megakaryocyte or platelet number and/or function, are causal of IPD. Due to disease heterogeneity IPDs are often difficult to diagnose, problematic to manage and underestimated. In the past decade, genetic diagnostics using whole-genome sequencing has revolutionised the field by identifying numerous novel genes involved in IPD aetiology as described in this review.

Iron overload and iron chelating agent exposure in anemia-associated outer retinal degeneration: a case report and review of the literature.

BACKGROUND: Deferoxamine retinopathy is the informally designated term used to describe a characteristic pattern of outer retinal degeneration in iron-overloaded chronic anemia patients who are treated with deferoxamine. We hypothesize that insufficiently treated iron overloading and not only deferoxamine is the cause of the retinal degeneration. Our case report is based on exposure histories of two anemia patients and literature review. CASE PRESENTATION: Both anemia patients presented with bilateral visual loss secondary to photoreceptor and retinal pigment epithelium degeneration. Chart review showed that visual loss came after a year-long slow, and rather monotonous rise in plasma ferritin concentrations, with no obvious relation to iron chelator exposure. In one patient, the onset of symptomatic visual loss came after a bout of fever followed by two additional febrile episodes, all accompanied by plasma ferritin spikes. Adjustment of iron chelation therapy did not improve visual function. Experimental studies clearly show that both systemic and intraocular exposure to iron ions can induce retinal degeneration. CONCLUSION: The available evidence indicates that retinal degeneration in chronic anemia patients treated by deferoxamine is cause by insufficient iron chelation, not by deferoxamine. The actual role of iron chelating agents may be to promote a long enough survival to allow the slow development of retinal siderosis.

A case of thrombocytopenia and multiple thromboses after vaccination with ChAdOx1 nCoV-19 against SARS-CoV-2.

Recently, reports of severe thromboses, thrombocytopenia, and hemorrhage in persons vaccinated with the chimpanzee adenovirus-vectored vaccine (ChAdOx1 nCoV-19, AZD1222, Vaxzevria; Oxford/AstraZeneca) against severe acute respiratory syndrome coronavirus 2 have emerged. We describe an otherwise healthy 30-year-old woman who developed thrombocytopenia, ecchymosis, portal vein thrombosis, and cerebral venous sinus thrombosis the second week after she received the ChAdOx1 nCoV-19 vaccine. Extensive diagnostic workup for thrombosis predispositions showed heterozygosity for the prothrombin mutation, but no evidence of myeloproliferative neoplasia or infectious or autoimmune diseases. Her only temporary risk factor was long-term use of oral contraceptive pills (OCPs). Although both the prothrombin mutation and use of OCPs predispose to portal and cerebral vein thrombosis, the occurrence of multiple thromboses within a short time and the associated pattern of thrombocytopenia and consumption coagulopathy are highly unusual. A maximum 4T heparin-induced thrombocytopenia (HIT) score and a positive immunoassay for anti-platelet factor 4/heparin antibodies identified autoimmune HIT as a potential pathogenic mechanism. Although causality has not been established, our case emphasizes the importance of clinical awareness. Further studies of this potentially new clinical entity have suggested that it should be regarded as a vaccine-induced immune thrombotic thrombocytopenia.

High syndecan-1 levels in acute myeloid leukemia are associated with bleeding, thrombocytopathy, endothelial cell damage, and leukocytosis.

The risk of hemorrhage is influenced by multiple factors in acute myeloid leukemia (AML). We investigated whether hemorrhage in AML patients was associated with endothelial perturbation, potentially caused by thrombocytopenia, platelet dysfunction and leukocytosis. Biomarkers of endothelial perturbation, coagulation and platelet activation were analyzed in 49 AML patients, along with previously collected data on bleeding status and platelet activation markers. High levels of syndecan-1, a marker of endothelial glycocalyx degradation, were associated with bleeding, impaired platelet function, higher age, endothelial cell activation and damage, and leukocytosis. We suggest that platelet dysfunction and leukocytosis in AML causes endothelial perturbation.

Clinical impact of leukemic blast heterogeneity at diagnosis in cytogenetic intermediate-risk acute myeloid leukemia.

BACKGROUND: Individual cellular heterogeneity within the acute myeloid leukemia (AML) bone marrow samples can be observed by multi parametric flow cytometry analysis (MFC) indicating that immunophenotypic screening for leukemic blast subsets may have prognostic impact. MATERIAL AND METHODS: Samples from de novo AML patients of all cytogenetic risk groups were collected at diagnosis and subjected to MFC based on a four-color antibody panels against 33 CD membrane markers and retrospectively analyzed for the leukemia blast expression pattern and mean fluorescence intensity. Identification of the leukemic blast cells was based on right angle light scatter (SSC) and expression of CD45 and the cellular heterogeneity identified by the presence of at least two distinct subsets by any CD marker. RESULTS: Analysis of marrow samples from 86 patients with cytogenetic intermediate risk identified recurrent heterogeneous blast phenotypes for selected CD markers, three of which had prognostic impact with loss or gain of CD58, CD117, or CD14 expression. Multivariate Cox regression analysis of diagnostic variables identified poor prognostic factors: Age >55 years, presence of extramedullary disease, WHO performance score >2, a heterogeneous CD58, CD117, or CD14 expression on blast cells. Each variable added to a simple and clinical useful and MFC based prognostic score system associated to inferior survival in the intermediate risk group of AML patients. CONCLUSIONS: These observations support that leukemic blast heterogeneity detected by MFC has additional prognostic significance in de novo AML; however, the score system needs to be prospectively validated in future clinical trials before implementation.

Prediction of haemorrhage in the early stage of acute myeloid leukaemia by flow cytometric analysis of platelet function.

Haemorrhage is often responsible for the lethal course of acute myeloid leukaemia (AML). Previously, multiple platelet function defects were identified by flow cytometric analysis of platelet activation markers in AML. The role of flow cytometric analysis of platelet function in characterization of prognostic markers of haemorrhage in AML patients has not been well elucidated. The objective of this prospective study was to analyse platelet function in 50 AML patients at diagnosis and to compare results with clinical bleeding score, graded by common toxicity criteria. Platelet activation markers CD62P, CD42b, CD63 and PAC-1 were analysed following in vitro activation by thrombin receptor activating peptide. The following plasma haemostasis parameters were measured: soluble P-selectin, activated partial thromboplastin time, thrombin time, prothrombin time, D-dimer, fibrinogen, and von Willebrand factor antigen. In a multivariate analysis, P-selectin (CD62P) <36 molecules of equivalent soluble fluorochrome x 10(3) (P < 0.0015) and platelet count <40 x 10(9)/l (P = 0.01) were significant predictors of haemorrhage at diagnosis. Haemorrhage at diagnosis predicted grade 3-4 haemorrhage in the first 28 d following diagnosis (P = 0.018). The presented results indicate that low P-selectin is a prognostic marker of haemorrhage in AML.