Real-world data on emicizumab use and monitoring in paediatric severe haemophilia A (HA) patients are scarce. We therefore sought to evaluate safety, efficacy, and laboratory monitoring of emicizumab prophylaxis in a cohort of 40 children with severe HA, including 22 non-inhibitor patients and nine infants younger than one year. Bleeding, trauma, adverse events, and surgeries were documented during a median follow-up of 45 weeks. Emicizumab levels, activated partial thromboplastin time (aPTT) values, and thrombin generation were measured before and during therapy. Twenty patients experienced zero bleeds. All bleeding was trauma-related, and bleeding risk was positively correlated with the length of emicizumab prophylaxis. Sixteen surgical interventions were performed in 12 patients, with no thrombotic complications or thrombotic microangiopathy. Prolonged aPTT values normalised after emicizumab initiation, correlating with an increase in emicizumab plasma levels. Elevation in the thrombin generation was observed following emicizumab prophylaxis, with lower values recorded in younger infants. Emicizumab prophylaxis was safe and well tolerated. As all bleedings were trauma-related, laboratory monitoring could not predict bleeding risk. Our results do not support routine thrombin generation monitoring in children treated by emicizumab, yet further studies are warranted in the context of surgical procedures.
Severe factor XI deficiency is an injury-related bleeding disorder. The risk of excessive post-partum hemorrhage in affected women has so far been evaluated in a relatively small number of patients and it is uncertain whether prophylactic treatment with fresh frozen plasma or factor XI concentrate is needed during or after vaginal or cesarean delivery. We retrospectively analyzed bleeding manifestations related to vaginal and/or cesarean deliveries in a cohort of 62 women with factor XI activity < 17 U/dl and evaluated whether replacement therapy is essential. Fifty-one women had 139 vaginal deliveries, six women had 13 cesarean deliveries, and five women had seven vaginal as well as five cesarean deliveries. Forty-three of the 62 women (69.4%) never experienced post-partum hemorrhage during 93 deliveries (85 vaginal, eight cesarean). Hemorrhage occurred in 19 women, which in six women accompanied each one of their 17 vaginal deliveries. Post-partum hemorrhage had no relationship with the abnormal genotype that caused factor XI deficiency nor with factor XI level. These observations suggest that the use of fresh frozen plasma or factor XI concentrate during and/or after vaginal delivery is not mandatory in women with severe factor XI deficiency and can be reserved for patients who develop excessive hemorrhage. For women requiring cesarean section it appears that the same policy can be advocated but more observations are needed.
Please see also Rosendaal F. R. Clotting and myocardial infarction: a cycle of insights. This issue, pp. 640±642.Summary. Background and purpose: Factor XI (FXI) contributes to thrombin generation thereby affecting ®brin formation and to down regulation of ®brinolysis by activation of thrombinactivatable ®brinolysis inhibitor (TAFI). The purpose of this study was to evaluate whether patients with severe FXI de®-ciency are protected against acute myocardial infarction (AMI). Methods: The incidence of AMI in patients with severe FXI de®ciency (FXI activity less than 15 U dL À1 ) whose age was 35 years or more was compared to the incidence of AMI in age and gender matched persons of the general population. Atherosclerotic risk factors were assessed in FXI de®cient patients and blood was tested for prothrombotic parameters such as FV Leiden, prothrombin G20210A, lupus anticoagulant, and platelet membrane polymorphisms. The common mutations causing FXI de®ciency in Jews were also examined. Results: Of 96 patients with severe FXI de®ciency (55 women and 41 men) 16 had a history of AMI (6 women and 10 men). The median age at the time of AMI was 64.5 for women and 58 for men. The calculated annual rate of AMI in men was similar to the expected in the general Israeli population, whereas in women it was almost 2-fold higher, but this difference did not reach statistical signi®cance. One or more atherosclerotic risk factors were observed in 13 of 16 patients (81.3%) with AMI compared to 44 of 79 patients (55.7%) without AMI (P < 0.001). The frequency distributions of platelet polymorphisms and of prothrombotic polymorphisms were not different between patients with severe FXI de®ciency who experienced or not an AMI. None of the patients had lupus anticoagulant. The common genotypes which cause FXI de®ciency in Jews were similarly distributed in patients with and without AMI. Conclusions: Severe FXI de®ciency does not confer protection against AMI.
One-third of patients with severe factor XI (FXI) deficiency caused by homozygosity for null alleles develop inhibitor antibodies following exposure to plasma. Haemostasis during surgery is achievable in such patients by recombinant activated factor VII (rFVIIa) at doses used in haemophilia A patients with an inhibitor to FVIII. However, thrombosis has occurred in three of 12 such patients. In this study we discerned whether low-dose rFVIIa would secure haemostasis and cause no thrombosis in patients with severe FXI deficiency and an inhibitor during surgery. In vitro, a very low concentration of rFVIIa (0.24 microg/ml) induced thrombin generation in FXI-deficient plasma quite similarly to 1.9 microg/ml (a concentration that is achieved in patients with haemophilia A and inhibitor after infusion of 80 microg/kg). Based on this finding, a protocol was designed for four patients with severe FXI deficiency and an inhibitor or immunoglobulin A deficiency who underwent five major surgical procedures. This included administration of tranexamic acid from two hours before surgery until seven to 14 days after, and single infusion of low-dose rFVIIa. No excessive bleeding or thrombosis were observed. In conclusion, a single low dose of rFVIIa and tranexamic acid secure normal haemostasis in patients with severe FXI deficiency who can not receive blood products.
In vitro platelet function of umbilical cord blood and neonatal peripheral vein blood from full-term newborns was compared with that of adults. Citrated whole blood was subjected to shear stress (1300 s(-1)) on subendothelial extracellular matrix (ECM)-coated wells in a cone and plate(let) analyzer. Adhered platelets on the ECM were quantitated by image analyzer. Both umbilical cord and neonatal peripheral blood platelets demonstrated more extensive adhesion than adult platelets, and similar aggregate formation on ECM. The ability of neonatal platelets to form aggregates on ECM was confirmed by scanning electron microscopy. Similar activation of neonatal and adult platelets after subjection to shear stress, in the suspension phase, was established by flow cytometry, which showed an increase in fibrinogen binding and a decrease in glycoprotein Ib expression on platelet membrane. The difference in adhesion rates between neonatal and adult platelets was preserved even when the hematocrit level of the neonatal blood was adjusted to that of adults. Reconstitution of neonatal or adult platelet-rich plasma with autologous or heterologous red packed cells yielded no change in adhesion and aggregation. When von Willebrand factor-covered plates were used to prevent deposition of plasma von Willebrand factor on the surface, no difference in platelet adhesion was seen between neonatal and adult blood. In conventional aggregometry assay, the response to ristocetin of washed platelets of either neonatal or adult source was higher on addition of plasma from neonates than from adults. Our data suggest that the extensive neonatal platelet deposition on ECM is mediated by plasma von Willebrand factor, which is known to be more multimerized and, therefore, more active in neonates than in adults. This mechanism may provide balanced primary hemostasis in neonates despite the platelet hyporeactivity to agonists without application of shear stress.
The risk of bleeding among thrombocytopenic patients was evaluated using our new cone and platelet analyser (CPA) test. Using this test, adherence of platelets was quantitated on extracellular matrix and expressed as percent of surface coverage (SC) and the average size (AS) of aggregates. 42 thrombocytopenic patients with ITP (n=23), post chemotherapy (n= 12) and others (n= 7) were tested over a total of 82 visits. On each visit, complete blood count and CPA tests were performed and patients were evaluated for evidence of bleeding (found in 40 visits). Bleeding patients had significantly lower platelet counts (27.4 +/- 22.0 v 47.1 +/- 21.0 x 10(9)/l), lower haematocrit values (30.2 +/- 8.1 v 35.2 +/- 6.6%), lower MPV (6.83 +/-1.89 v 8.98 +/- 1.13 fl), and lower SC (4.87 +/- 3.95 v 10.33 +/-5.48%) and AS (33.99 +/- 14.94 v 52.9 +/- 24.34 microm2). Univariate analysis yielded platelet count < or =20.0 x 10(9)/l, MPV < or =8 fl, haematocrit <35%, SC <5%, AS< or =40 microm2 as significantly associated with bleeding, whereas only MPV and SC were associated with bleeding (OR 6.95, CI 2.25-21.46 and OR 4.27, CI 1.29-14.16, respectively) by multivariate analysis. When taken together, 21/22 of patients (95%) with both low SC (<5%) and low MPV (<8.0 fl) had bleeding symptoms, whereas only 9/43 (21%) patients with both these parameters above these values experienced bleeding symptoms. We conclude that the CPA test and the parameter SC (<5%) together with MPV (< or =8 fl) might be used as independent predictors of bleeding in the management of thrombocytopenic patients.
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