Perioperative haemostasis with full-length, PEGylated, recombinant factor VIII with extended half-life (rurioctocog alfa pegol) in patients with haemophilia A: Final results of a multicentre, single-arm phase III trial

INTRODUCTION: Rurioctocog alfa pegol (BAX 855, TAK-660) is a PEGylated, full-length, recombinant factor VIII (rFVIII) with extended half-life developed from unmodified rFVIII (antihaemophilic factor [recombinant]). AIM: To determine the perioperative haemostatic efficacy and safety of rurioctocog alfa pegol in male previously treated patients (PTPs) with severe haemophilia A. METHODS: This multicentre, single-arm, phase III study included PTPs who were to undergo major or minor elective or minor emergency surgical, dental or other invasive procedures. Rurioctocog alfa pegol dose and frequency were individualized based on patients' pharmacokinetic profiles for major surgeries and by rurioctocog alfa pegol incremental recovery for minor surgeries. Haemostatic efficacy was assessed using the Global Haemostatic Efficacy Assessment score. RESULTS: Twenty-one patients aged 16-61 years underwent 21 major and five minor surgeries. For all 24 evaluable surgeries, overall haemostatic efficacy was rated as excellent and blood loss comparable to that expected in non-haemophilic patients. No blood transfusions were required intraoperatively but were administered postoperatively for four surgeries in three patients. Five injury-related postoperative bleeding episodes occurred in five patients, of which two required additional rurioctocog alfa pegol treatment. Two non-serious adverse events of mild severity (increased ALT level and headache) were considered possibly related to rurioctocog alfa pegol. There were no deaths or treatment-related serious adverse events. No patients developed inhibitory antibodies to FVIII or persistent IgG- or IgM-binding antibodies to FVIII, PEG-FVIII or PEG. CONCLUSION: Rurioctocog alfa pegol was well tolerated and effective for perioperative use in patients with haemophilia A and showed no signs of immunogenicity

Evidence for the transmission of parvovirus B19 in patients with bleeding disorders treated with plasma-derived factor concentrates in the era of nucleic acid test screening: TRANSMISSION OF B19V

Parvovirus B19 (B19V) is a small, non-enveloped virus that typically causes a benign flu-like illness that occurs most frequently in childhood. The virus is resistant to current viral inactivation steps used in the manufacture of anti-hemophilic factor concentrates and B19V transmission through these products has been documented. Since 2000, B19V nucleic acid test (NAT) screening of plasma pools has been implemented to further decrease the viral burden in these products, but no study has examined populations using these products to assess the impact of the screening on B19V transmission

Alternative Methods for Anticoagulation Monitoring in Pediatric Patients with Applicability to a Patient with Severe Hemophilia A and Circulating Inhibitor

Anticoagulation monitoring in pediatric patients can be problematic because of the immaturity of the coagulation system in this population. In addition, the hemodilution required to place a small patient on bypass can interfere with standard monitoring methods. In this institution, the Hemochron Jr. ACT (activated clotting time)+ assay has been the standard of care for anticoagulation monitoring since 1997. This assay, with a target ACT of 400 s for initiating bypass, was compared to both the Medtronic HMS system (N = 7) and the Hemochron HiTT assay (N = 6) in pediatric patients. All three assays were then employed to monitor a pediatric Hemophilia A patient (Factor VIII 1005 s). The HiTT was maintained at >180 s and the HMS heparin level at >1.5 mg/kg. Heparin was administered when any single parameter was below the cutoff value. The use of the combination of three distinct monitoring assays for this patient allowed the surgical team an added level of confidence that appropriate anticoagulation had been maintained

The β3 subunit of the integrin αIIbβ3 regulates αIIb-mediated outside-in signaling

Bidirectional signaling is an essential feature of αIIbβ3 function. The αIIb cytoplasmic domain negatively regulates β3-mediated inside-out signaling, but little is known about the regulation of αIIb-mediated outside-in signaling. We show that αIIb-mediated outside-in signaling is enhanced in platelets of a patient lacking the terminal 39 residues of the β3 cytoplasmic tail. This enhanced signaling was detected as thromboxane A2 (TxA2) production and granule secretion, and required ligand cross-linking of αIIbβ3 and platelet aggregation. This outside-in signaling was specifically inhibited by a palmitoylated version of a β3 peptide corresponding to cytoplasmic domain residues R724-R734. Unlike the palmitoylated peptide, the nonpalmitoylated β3 peptide could not cross the platelet membrane and did not inhibit this outside-in signaling. The physiologic relevance of this β3-mediated negative regulation of αIIb outside-in signaling was demonstrated in normal platelets treated with the palmitoylated peptide and a physiologic agonist. Binding of αIIbβ3 complexes to immobilized peptides demonstrated that a peptide corresponding to β3 residues R724-R734 appears to bind to an αIIb cytoplasmic domain peptide containing residues K989-D1002, but not to control peptides. These results demonstrate that αIIb-mediated outside-in signaling resulting in TxA2 production and granule secretion is negatively regulated by a sequence of residues in the membrane distal β3 cytoplasmic domain sequence RKEFAKFEEER

Evidence for the transmission of parvovirus B19 in patients with bleeding disorders treated with plasma‐derived factor concentrates in the era of nucleic acid test screening

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/98209/1/trf3907.pd

Integrated analysis of safety and efficacy of a plasma- and albumin-free recombinant factor VIII (rAHF-PFM) from six clinical studies in patients with hemophilia A

Background: Hemophilia A is an X-linked bleeding disorder that results from insufficient levels of factor VIII (FVIII) coagulant activity. Objective: To evaluate the efficacy and safety of ADVATE® rAHF–PFM (Baxter Healthcare Corporation), a recombinant FVIII concentrate manufactured without human or bovine blood-derived additives, and to assess the effect of compliance with prophylactic use in preventing bleeding episodes (BEs). Methods: Clinical data were integrated from six prospective studies. Two hundred thirty-four hemophilia A subjects (FVIII levels ≤ 2%) (median age 14.7 (range: 0.02 – 72.7) years) were included. Results: BEs were managed with one or two infusions and nearly all (1953/1956) responded to treatment. Compliance with a prophylactic treatment regimen significantly reduced the incidence of BEs (p = 0.0061) and prevented non-traumatic joint BEs (median annualized BE rate was 0). One previously treated subject developed an inhibitor; no other safety concerns were observed. Conclusions: These results reinforce the efficacy and safety of rAHF-PFM and suggest that compliance is an essential contributor to the effectiveness of prophylaxis in the treatment of hemophilia A

Integrin αIIb-Mediated PI3K/Akt Activation in Platelets

<div><p>Integrin αIIbβ3 mediated bidirectional signaling plays a critical role in thrombosis and haemostasis. Signaling mediated by the β3 subunit has been extensively studied, but αIIb mediated signaling has not been characterized. Previously, we reported that platelet granule secretion and TxA2 production induced by αIIb mediated outside-in signaling is negatively regulated by the β3 cytoplasmic domain residues R₇₂₄KEFAKFEEER₇₃₄. In this study, we identified part of the signaling pathway utilized by αIIb mediated outside-in signaling. Platelets from humans and gene deficient mice, and genetically modified CHO cells as well as a variety of kinase inhibitors were used for this work. We found that aggregation of TxA2 production and granule secretion by β3Δ724 human platelets initiated by αIIb mediated outside-in signaling was inhibited by the Src family kinase inhibitor PP2 and the PI3K inhibitor wortmannin, respectively, but not by the MAPK inhibitor U0126. Also, PP2 and wortmannin, and the palmitoylated β3 peptide R₇₂₄KEFAKFEEER₇₃₄, each inhibited the phosphorylation of Akt residue Ser473 and prevented TxA2 production and storage granule secretion. Similarly, Akt phosphorylation in mouse platelets stimulated by the PAR4 agonist peptide AYPGKF was αIIbβ3-dependent, and blocked by PP2, wortmannin and the palmitoylated peptide p-RKEFAKFEEER. Akt was also phosphorylated in response to mAb D3 plus Fg treatment of CHO cells in suspension expressing αIIbβ3-Δ724 or αIIbβ3E₇₂₄AERKFERKFE₇₃₄, but not in cells expressing wild type αIIbβ3. In summary, SFK(s) and PI3K/Akt signaling is utilized by αIIb-mediated outside-in signaling to activate platelets even in the absence of all but 8 membrane proximal residues of the β3 cytoplasmic domain. Our results provide new insight into the signaling pathway used by αIIb-mediated outside-in signaling in platelets.</p> </div