Laboratory evidence of DIC under FEIBA treatment of a hemophilic patient with intracranial bleeding and high titre factor VIII inhibitor

Asymptomatic COVID-19-Associated Acquired Hemophilia A and Disseminated Intravascular Coagulation From a Bypassing Agent

Acquired hemophilia A (AHA) is a clotting disorder characterized by the presence of neutralizing antibodies that inhibit factor VIII, resulting in increased bleeding risk. Known etiologies include malignancy, autoimmune conditions, graft-vs-host disease, and more recently coronavirus disease 2019 (COVID-19) infection. In this case report, we describe an 86-year-old female who was found to have AHA incidentally during preoperative workup for meningioma resection. She was subsequently found to have COVID-19 infection which was the likely cause of her development of AHA. She was treated with factor eight inhibitor bypassing agent (FEIBA) and recombinant factor VII (rVII) for a small hematoma on her right arm along with prednisone and cyclophosphamide. She then developed disseminated intravascular coagulation (DIC) initially secondary to FEIBA and subsequently rFVII. DIC resolved after these factor concentrates were withheld. The aim of this case report was to emphasize the importance of monitoring partial thromboplastin time (PTT) in patients with COVID-19 and proceeding with AHA workup if indicated. It is also imperative to know and understand the potentially life-threatening, albeit rare, adverse effects of DIC associated with the administration of factor concentrates, especially in the elderly population and withholding these factor concentrates once DIC is suspected.

Consensus review of the treatment of cardiovascular disease in people with hemophilia A and B

With advances in care, increasing numbers of people with hemophilia (PWH) achieve near-normal life expectancies and present with typical age-related cardiovascular conditions. Evidence-based guidelines for medical or surgical management of cardiovascular conditions in individuals with hemophilia are limited. Published recommendations exist for the management of some common cardiovascular conditions (eg, ischemic heart disease, atrial fibrillation), but identifying optimal strategies for anticoagulant or antithrombotic therapy constitutes the primary challenge of managing nonoperative cardiovascular disease (CVD) in PWH. In general, as long as factor concentrates or other hemostatic therapies maintain adequate hemostasis, the recommended medical and surgical management of CVD in PWH parallels that in individuals without hemophilia. The presence of factor inhibitors complicates hemophilia management. Published outcomes of CVD treatment in PWH are similar to those in the general population. Specific knowledge about factor replacement, factor inhibitors, and disease-specific treatment distinguishes the cardiovascular care of PWH from similar care of individuals without this rare bleeding disorder. Furthermore, a multidisciplinary approach incorporating a hematologist with an onsite coagulation laboratory, ideally associated with a hemophilia treatment center, is integral to the management of CVD in PWH.

Acquired hemophilia masked by warfarin therapy: report on two cases

Spontaneous appearance of acquired anticoagulants is a rare phenomenon. We present two cases, where such antibodies against factor VIII were masked by warfarin therapy. The two patients were anticoagulated with warfarin due to mechanical heart valve and recurrent thromboembolic events, respectively. Different therapies against the inhibitor of factor VIII were used in the two cases. One patient received corticosteroids and high-dose gammaglobulin with temporary effect and was then effectively treated with cyclophosphamide. The other patient was successfully treated with cyclosporine. The special problems of keeping the balance between thrombosis and bleeding in this group of patients with need of anticoagulation due to mechanical heart valves or other thrombogenic factors are discussed.

A novel therapeutic approach combining human plasma-derived Factors VIIa and X for haemophiliacs with inhibitors: evidence of a higher thrombin generation rate in vitro and more sustained haemostatic activity in vivo than obtained with Factor VIIa alone

BACKGROUND AND OBJECTIVES

Therapy with recombinant Factor VIIa (rFVIIa) for haemophiliacs with inhibitors still has some unresolved problems, such as the requirement for frequent infusions of rFVIIa every 2-3 h to sustain haemostatic activity for an extended time-period and that the therapeutic dose of rFVIIa is not always predictable. In the present study, we searched for an effective combination of plasma-derived FVIIa with other blood coagulation factors, and demonstrated that a therapeutic approach combining plasma-derived FVIIa and Factor X (FX) was more useful for treating haemophiliacs with inhibitors than FVIIa alone.

MATERIALS AND METHODS

The haemostatic effects of FVIIa and FX were evaluated in vitro and in vivo. In in vitro experiments we assessed the following: the ability to enhance the thrombin generation rate in a reconstituted blood coagulation model without Factor VIII (FVIII) or Factor IX (FIX); the ability to correct the activated partial prothrombin time (APTT) of FVIII-depleted plasma or FIX-depleted plasma; and the ability to correct the clotting time of haemophilia-like whole blood using thromboelastography (TEG). In in vivo experiments, the haemostatic activity of the combination treatment of FVIIa and FX was determined by measuring the bleeding time and TEG using a monkey haemophilia B model produced by the injection of anti-human FIX polyclonal antibodies. The degree of thrombogenicity of the combination was evaluated using the rabbit stasis model.

RESULTS

The addition of FX to FVIIa dramatically enhanced the thrombin generation rate in the reconstituted blood coagulation model and corrected the prolonged APTTs of FVIII- and FIX-depleted plasmas to levels achieved by the replacement therapies. In contrast, the addition of prothrombin to FVIIa did not show such enhancing activity. Furthermore, FVIIa-induced whole blood clotting times in the FVIII- and FIX-inhibited states were also shortened by the addition of FX in a concentration-dependent manner. Finally, the co-administration of FVIIa (80 microg/kg) and FX (800 microg/kg) in a monkey haemophilia B model resulted in a more robust and persistent haemostatic effect on the secondary bleeding time and whole-blood clotting time of TEG than that of FVIIa alone. The results of rabbit stasis tests for evaluating the risk of thrombogenicity showed that the combination of FVIIa and FX was less thrombogenic than FEIBA.

CONCLUSIONS

The present study demonstrated that the combination of FVIIa and FX appeared to have a higher and more sustainable haemostatic potential than FVIIa alone, and less thrombogenicity than FEIBA. A therapeutic approach combining FVIIa and FX could be a promising and novel approach to compensate for the disadvantages of rFVIIa and FEIBA for haemophiliacs with inhibitors.

Large-scale production and properties of human plasma-derived activated Factor VII concentrate

BACKGROUND AND OBJECTIVES

An activated Factor VII (FVIIa) concentrate, prepared from human plasma on a large scale, has to date not been available for clinical use for haemophiliacs with antibodies against FVIII and FIX. In the present study, we attempted to establish a large-scale manufacturing process to obtain plasma-derived FVIIa concentrate with high recovery and safety, and to characterize its biochemical and biological properties.

MATERIALS AND METHODS

FVII was purified from human cryoprecipitate-poor plasma, by a combination of anion exchange and immunoaffinity chromatography, using Ca2+-dependent anti-FVII monoclonal antibody. To activate FVII, a FVII preparation that was nanofiltered using a Bemberg Microporous Membrane-15 nm was partially converted to FVIIa by autoactivation on an anion-exchange resin. The residual FVII in the FVII and FVIIa mixture was completely activated by further incubating the mixture in the presence of Ca2+ for 18 h at 10 degrees C, without any additional activators. For preparation of the FVIIa concentrate, after dialysis of FVIIa against 20 mm citrate, pH 6.9, containing 13 mm glycine and 240 mm NaCl, the FVIIa preparation was supplemented with 2.5% human albumin (which was first pasteurized at 60 degrees C for 10 h) and lyophilized in vials. To inactivate viruses contaminating the FVIIa concentrate, the lyophilized product was further heated at 65 degrees C for 96 h in a water bath.

RESULTS

Total recovery of FVII from 15 000 l of plasma was approximately 40%, and the FVII preparation was fully converted to FVIIa with trace amounts of degraded products (FVIIabeta and FVIIagamma). The specific activity of the FVIIa was approximately 40 U/ micro g. Furthermore, virus-spiking tests demonstrated that immunoaffinity chromatography, nanofiltration and dry-heating effectively removed and inactivated the spiked viruses in the FVIIa. These results indicated that the FVIIa concentrate had both high specific activity and safety.

CONCLUSIONS

We established a large-scale manufacturing process of human plasma-derived FVIIa concentrate with a high yield, making it possible to provide sufficient FVIIa concentrate for use in haemophiliacs with inhibitory antibodies.

Clinical trial to investigate the pharmacokinetics, pharmacodynamics, safety, and efficacy of recombinant factor VIIa in Japanese patients with hemophilia with inhibitors

A multicenter and open-labeled clinical trial of human recombinant factor VIIa (rFVIIa) was conducted in Japanese patients with severe hemophilia A or B with inhibitors. The trial consisted of 2 parts. In study 1, the pharmacokinetics, pharmacodynamics, and safety of a single dose of 120 microg/kg of rFVIIa were investigated in 8 patients. In the subsequent study 2, the hemostatic effect and safety of rFVIIa were evaluated during a 24-week period in 10 patients. In study 1, the mean maximum FVII-coagulant activity (FVII:C) was found to occur after 10 minutes; activity then decreased rapidly and returned to the baseline within 24 hours after a single intravenous infusion of rFVIIa. The mean half-life of FVII:C was 3.5 hours. The activated partial thromboplastin time and prothrombin time in the patients were immediately shortened but returned to the baseline within 24 hours after dosing. In study 2, 86 microg/kg to 120 microg/kg of rFVIIa (mean, 97 microg/kg) was administered 1 to 85 times to 10 patients. A total of 58.0% (91/157) of bleeding episodes were treated excellently or effectively, with 5 (3.2%) ineffective episodes. There was no apparent trend in the relationship of the hemostatic effect with bleeding sites, mean dose, or number of injections. The efficacy rate, however, was significantly higher (90.0%) in bleeding episodes treated within 3 hours than in those treated at longer intervals (31.0%). No treatment-related adverse events were observed, and there was no evidence of antibody formation to rFVIIa. In conclusion. rFVIIa is an effective and well-tolerated option for treatment of bleeding episodes in hemophilia patients with inhibitors.

Use of prothrombin complex concentrates and activated prothrombin complex concentrates as prophylactic therapy in haemophilia patients with inhibitors

Haemophilia patients with inhibitors are treated for acute bleeding with prothrombin complex concentrates (PCCs) or activated prothrombin complex concentrates (aPCCs). Despite this therapy, patients with high-level inhibitors are at increased risk of developing devastating joint disease. This paper examines available information that supports the study of PCCs and/or aPCCs as prophylactic therapy for haemophilia patients with inhibitors. This strategy would require that PCCs or aPCCs be administered repetitively in a dose that is sufficient to prevent haemarthrosis without causing thrombogenic events, or causing anamnestic response in inhibitor titre. PCC doses ranging from 30 to 50 U kg-1 every other day for up to 8 months have resulted in subjective improvement both in bleeding associated with target joints and in the management of chronic joint inflammation. aPCC doses as low as 50-100 U kg-1 every other day have been useful in postsurgical prophylaxis. The risk of developing a myocardial infarction or clinically relevant disseminated intravascular coagulation is linked to total dosages of either PCCs or aPCCs greater than 200 U kg-1 day-1. It is uncertain what anamnestic response would result from prophylaxis, but with typical therapy the aPCCs cause such a response in only a small percentage of patients. Based on these findings, a clinical trial of these products used in doses of 50-100 U kg-1 every other day would appear to be warranted in patients who have permanent inhibitors and frequent joint bleeding.

Treatment options for bleeding episodes in patients undergoing immune tolerance therapy

Inhibitors to factor VIII develop in 4-20% of haemophilia A patients, with the percentage rising to 52% in certain subpopulations. The management of inhibitor patients is directed toward stopping acute haemorrhages, providing short-term haemostasis before and after surgery, and inducing immune tolerance to factor VIII (immune tolerance therapy or ITT). Several different protocols have been used for ITT, but they are all centred around ongoing exposure to high doses of factor VIII. High responders (those patients with a large increase in inhibitor level after exposure to factor VIII) are the prime candidates for ITT, but low responders may also benefit from this treatment. It is often necessary to treat bleeding episodes during ITT, because elimination of inhibitors may require many years of therapy. Treatment of haemorrhages in inhibitor patients is reviewed for both low and high responders during ITT and in the absence of ITT. The choice of clotting agent for inhibitor patients who have not yet responded to ITT depends on current and past inhibitor levels, the severity of the haemorrhage, the site of the haemorrhage or the setting in which it occurs (e.g. surgical), and the extent of inhibitor cross-reactivity with porcine factor VIII. Patients with high-titre inhibitors experiencing a critical haemorrhage are generally best managed with bypassing agents (AUTOPLEX T or FEIBA VH), porcine factor VIII or rFVIIa.

Complications associated with the treatment of haemophiliacs with inhibitors

To examine the safety profile of products used to treat inhibitor patients unresponsive to factor VIII, a review of published clinical experience was performed. The products evaluated were activated prothrombin complex concentrates (aPCCs), such as AUTOPLEX T, porcine factor VIII and recombinant activated factor VII (rVIIa). Safety characteristics included potential for transmission of infectious agents, anamnesis, thrombogenicity, thrombocytopenia and allergic reactions. While viral transmission has been virtually eliminated, the risk is theoretically higher with plasma-derived products such as aPCC and porcine factor VIII than with rVIIa, although contamination of cultured cells is a concern. Anamnesis occurs with aPCCs and porcine factor VIII, and may induce resistance to further therapy with porcine factor VIII. Thrombosis and disseminated intravascular coagulation are very infrequently reported in patients exposed to aPCCs and rVIIa, and never with porcine factor VIII. The latter is occasionally associated with thrombocytopenia, but this uncommonly limits treatment with this agent. Lastly, allergic reactions occur with about equal frequency with all products, but anaphylaxis is mainly a concern after administration of porcine factor VIII. In conclusion, products currently available are reasonably safe. Considerations such as efficacy, availability, ease of administration and cost must also be considered in making treatment choices.

Clinical efficacy of prothrombin complex concentrates and recombinant factor VIIa in the treatment of bleeding episodes in patients with factor VII and IX inhibitors

An overview is given on APCCs and recombinant FVIIa for the treatment of bleeding episodes in hemophiliacs with FVIII or FIX inhibitors or in patients with acquired hemophilia. The initial dose of activated plasma-derived PPCs, mainly FEIBA, is up to 100 U/kg body weight, and the maintenance dosage is up to 100 U/kg body weight twice daily. The single dosage of recombinant FVIIa is about 60-90 microg/kg body weight, which has to be repeated every 2 to 6 hours depending on the bleeding situation.

Acquired inhibitors

Factor VIII auto-antibody inhibitors, though rare, may present significant and often life-threatening haemorrhage. These auto-antibodies, arising predominantly in older individuals, occur in association with autoimmune disorders, lymphoproliferative disorders, solid tumours, medications and the postpartum state. Almost half of the patients develop auto-antibodies spontaneously without an underlying medical condition. Factor VIII auto-antibody inhibitors are characterized as polyclonal IgG immunoglobulins directed against the FVIII procoagulant activity. Laboratory diagnosis is made by performing the aPTT clotting time in conjunction with a mixing study, and subsequently with specific factor assays. Auto-antibodies are quantified most commonly utilizing the Bethesda assay. Acquired inhibitors to other coagulation factors, including factors IX, XI, XIII, vWF protein, and the vitamin K-dependent proteins are extremely rare. The principles of therapy are similar to those which apply to the management of factor VIII auto-antibodies. Treatment of patients with acquired factor VIII auto-antibody inhibitors varies depending upon the underlying medical condition, the titre of the inhibitor, and the clinical presentation. Acutely bleeding patients with high-titre auto-antibodies generally respond well with infusions of porcine factor VIII concentrate, PCCs or rFVIIa. Extracorporeal plasmapheresis with exchange will acutely reduce circulating antibodies and can be used in conjunction with factor infusions and/or IgIV. Haemorrhage in a patient with a low titre auto-antibody will usually respond to high doses of human factor VIII concentrate. DDAVP may also increase factor VIII levels in patients with low-titre inhibitors. Long-term reduction of auto-antibodies can be achieved by immuno-suppressive regimens using steroids and/or cytotoxic agents, IgIV and interferon-alpha. The selection of the appropriate treatment depends upon the associated medical condition, likelihood of spontaneous remission, risk of toxicities of therapy and cost. Determining the efficacy and safety of new treatment modalities for factor VIII auto-antibodies and other coagulation factor inhibitors will require multicentre randomized clinical trials.

Myocardial infarction after FEIBA therapy in a hemophilia-B patient with a factor IX inhibitor

A case of myocardial infarction (MI) in a hemophilia B patient with a factor IX (FIX) inhibitor (6 BU) is described. MI occurred after two infusions of FEIBA concentrate. Unexpectedly, these infusions resulted in a neutralization of the inhibitor and a consistent plasma FIX activity which may have increased the thrombotic risks. Four days later, a psoas hematoma was suspected. At that time the inhibitor remained undetectable, allowing a therapy with purified FIX concentrates. No recurrence of thrombotic complication was observed. This is an additional illustration of the thrombotic risks associated with the use of activated prothrombin complex concentrates, especially in patients having pre-existing risk factors for thrombosis. The management of bleeding episodes in hemophilia B patients with inhibitor represents an especially difficult challenge.

Factor VIII-bypassing activity of bovine tissue factor using the canine hemophilic model

The bleeding disorder of hemophilia A currently treated by replacement therapy of the missing coagulation factor, factor VIII, is frequently complicated by the development of neutralizing antibodies. The therapeutic potential of attenuated forms of the lipid-associated glycoprotein tissue factor, a known initiator of coagulation, was investigated as a factor VIII-by-passing activity. The protein moiety of tissue factor (Apo-TF) was partially purified and exhibited minimal procoagulant activity before relipidation in vitro. In pilot studies, Apo-TF injection into rabbits previously anticoagulated with an antibody to factor VIII was found to have a procoagulant effect. The efficacy of the material was further demonstrated when injection of Apo-TF in hemophilic dogs resulted in a normalization of the cuticle bleeding time. Little or no change in the blood parameters associated with disseminated intravascular coagulation was observed at lower doses, although mild to moderate effects were seen at higher doses. These data suggest a novel role for Apo-TF preparations as a potential therapeutic agent for hemophiliacs with antibodies to factor VIII once the potential thrombogenicity of such materials is evaluated.

Concomitant occurrence of disseminated intravascular coagulation and factor VIII inhibitor in a patient with prostatic cancer

An 86-year-old man, diagnosed as having carcinoma of the prostate, stage D, was admitted to the hospital. Soon after admission, he developed bleeding from various sites, including intravenous puncture sites and gastrointestinal and urinary tracts. A clinical diagnosis of disseminated intravascular coagulation (DIC) was made, which was corroborated by laboratory data. A factor VIII inhibitor of 12.5 Bethesda units was also identified in the patient's plasma. Concomitant occurrence of disseminated intravascular coagulation and an acquired factor VIII inhibitor has not been reported previously.

Use of human factor VIIa in the treatment of two hemophilia A patients with high-titer inhibitors

Two patients with hemophilia A complicated with high-titer alloantibodies have been treated by repeated infusions of microgram quantities of pure human Factor VIIa. Patient 1 was presented with a gastrocnemius muscle bleeding that involved the knee joint. Upon treatment with Factor VIIa the circumference of the muscle decreased and joint mobility increased substantially. Patient 2 was given Factor VIIa concurrent with tranexamic acid in association with the extraction of two primary molars. No significant gingival bleeding occurred after Factor VIIa and tranexamic acid treatment. Furthermore, no deleterious side effects or increase of the alloantibody level were observed in either patient throughout the Factor VIIa infusion. These results, although limited and preliminary in nature, suggest that trace quantities of Factor VIIa can act as a Factor VIII bypassing activity and restore hemostasis in these patients.