Patients with liver disease frequently develop coagulopathy, and fresh frozen plasma is traditionally used for correction of coagulopathy to manage and prevent bleeding. Prothrombin complex concentrates (PCCs) offer an attractive alternative because they are more readily available and avoid large‐volume transfusion. This retrospective, single‐center study reviewed clinical use of PCC in patients with acute/chronic liver disease. A total of 105 patients with 194 episodes of PCC administration were reviewed. Data pertaining to indication, dosing, effectiveness, and safety were collected. The effect of PCC on coagulation was analyzed in patients for whom coagulation results were available 7 hours before and after PCC. Data on thromboembolic events and mortality within 4 weeks of PCC administration were captured. Most patients (77%) had chronic liver disease; the remainder had acute liver failure. Indications for PCC were preprocedure prophylaxis and treatment for active/recent bleeding in 48% and 52% of 194 treatment episodes, respectively. The median dose of PCC administered was 22 IU/kg (interquartile range, 16‐29 IU/kg). Before PCC administration, 45% of patients had an international normalized ratio (INR) greater than 2.0, and 36% had fibrinogen levels of at least 1.5 g/L. PCC produced statistically significant reductions in prothrombin time and INR (coadministration with fibrinogen or cryoprecipitate: 3.1 versus 1.9; P < 0.001; no coadministration: 2.3 versus 1.8; P < 0.001). Three patients with multiple risk factors developed thrombotic events (hepatic artery thrombosis, incidental bilateral pulmonary embolism, nonocclusive portal vein thrombosis); there were no cardiovascular or cerebrovascular adverse events. Overall, 46 patients died of causes unrelated to PCC treatment. Conclusion: In patients with liver disease, PCC therapy was effective in improving coagulation test results without an excess of thrombotic events. Further assessment of PCC as hemostatic therapy in this setting is required.
Acquired haemophilia A (AHA) is a rare, serious bleeding disorder most often encountered in elderly patients. The mainstay of haemostatic management is with bypassing agents (BPAs) including recombinant activated factor VII (rFVIIa) and activated prothrombin complex concentrates (aPCCs). Their major limitation is incomplete efficacy, potential risk for thrombosis and the lack of routine laboratory assays for monitoring treatment response. Plasma-derived porcine FVIII (pd-pFVIII, Hyate C), first used in the 1950s for the management of congenital haemophilia, has sufficient sequence homology to be haemostatic in humans, but the lack of complete homology facilitates efficacy even in the presence of human allo- and autoantibodies against human FVIII (hFVIII). In a small phase II/III study, recombinant porcine FVIII (rpFVIII, Obizur, OBI-1, susoctocog alfa) was shown to be safe and effective for the management of bleeding episodes in patients with AHA with anti-porcine FVIII (anti-pFVIII) antibody levels of 20 BU/ml or less. Treatment outcome was judged on clinical response and FVIII levels after an initial fixed dose of 200 IU/kg. The rise in FVIII levels showed considerable inter-individual variability and was significantly influenced by the presence of anti-pFVIII antibodies. Based on the baseline levels of anti-pFVIII antibodies and response to treatment, three potential patient groups were identifiable. In the first group, the absence of cross-reacting antibodies was associated with supra-therapeutic FVIII levels, fewer infusions and lower rpFVIII utilization per treatment episode. The second group had patients with low levels of cross-reacting anti-pFVIII antibodies (0.8-5 BU/ml) with near-normal response to rpFVIII. The last group had higher titres of anti-pFVIII antibody (10-30 BU/ml) associated with lower FVIII levels, more infusions and higher consumption of rpFVIII. We propose a new treatment algorithm for the haemostatic management of AHA that includes the potential first-line clinical use of rpFVIII that takes into account availability of anti-pFVIII antibody results, titre of anti-pFVIII antibodies and severity of bleeding episode.
rFVIIIFc (efraloctocog alfa, Eloctate®) is an extended half-life (EHL) factor VIII licensed for use in patients with hemophilia A for prophylaxis and treatment of bleeding and surgical episodes. Pharmacokinetic studies in adults have shown a mean 1.5-fold increase in half-life compared to full-length factor VIII. When compared to adults, the half-life is decreased by 8% in adolescents between 12 and 17 years, by 18% in children 6 to <12 years, and by 33% in children between the ages of 2 and <6 years. There is a considerable interindividual variation in the prolongation of the half-life particularly in children and across the age groups, the range extending from no increase to a 2.5-fold increase. In addition to age, von willebrand factor (VWF) antigen level has demonstrated a significant impact on rFVIIIFc half-life, with higher VWF levels associated with greater prolongation of half-life. The pivotal and pediatric clinical trials have demonstrated the efficacy and safety of rFVIIIFc for use in regular prophylaxis and in management of bleeds and surgery. In these studies, just under half the participants showed a zero annualized bleed rate (ABR), and the median ABR (1.6 in the pivotal study for the individualized prophylaxis arm) showed a further decrease in the extension study. On average, the patients required fewer infusions (reduced by at least a third), and the mean weekly consumption seems to be in keeping with standard recombinant factor VIII. EHL rFVIIIFc has made decreased infusion frequency a possibility. However, the interindividual variability in dose and infusion frequency highlights the need for a personalized approach based on individual patient’s half-life and/or response to treatment.
Wilms tumour (WT) is the commonest primary malignant renal tumour of childhood. Acquired von Willebrand syndrome (avWS) is a well-described paraneoplastic phenomenon, but it is uncommon and may not be detected until clinically significant bleeding is encountered during interventional procedures. Previous studies on small cohorts of patients have determined an incidence of between 4 and 8%. We have performed a retrospective study on cases of WT presenting over an 11.5-year period to a paediatric haematology/oncology unit in a tertiary referral centre to review the incidence of avWS, bleeding phenotype, management, and response to treatment of the primary pathology.
A 43-year-old man with no history of bleeding or bruising had a routine blood count performed prior to angiography. The automated platelet count on an impedance-based instrument was 108 3 10 9 L 21. The rest of the blood count was normal. Because of the unexpected thrombocytopenia, a blood film was examined. This showed extensive phagocytosis of platelets (Image 1). There was limited platelet satellitism, suggesting that this may have been the first stage of the process (top left image). In some cells, phagocytic vacuoles were clearly apparent (bottom right image). An in vitro phenomenon was suspected. A repeat blood sample was therefore taken, and a film prepared with no exposure to anticoagulant showed no phagocytosis. After a brief exposure to EDTA, occasional neutrophils showed satellitism and phagocytosis, and the platelet count was 158 3 10 9 L 21. By 4 hr, phagocytosis was extensive. The patient proceeded to an uneventful angiogram.
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