Normal activated partial thromboplastin time in Chinese patients with mild hemophilia B.

OBJECTIVES: Hemophilia B (HB, OMIM: 300746) is one of the most common bleeding disorders with an X-linked recessive inheritance pattern, caused by the deficiency of coagulation factor IX (FIX). FIX is encoded by the F9 gene located on Xq27.1. Diagnosis of HB is primarily suspected by prolonged activated partial thromboplastin time (APTT), decreased FIX activity (FIX:C) or genetic test of the F9 gene. We herein described a Chinese family with patients of mild HB. METHODS: Sanger sequencing of the F9 gene was applied to identify mutation. Coagulation tests were performed. RESULTS: The proband was a 5-year-old boy. He suffered prolonged bleeding after tonsillectomy recently and circumcision last year as well. His grandfather experienced prolonged bleeding after gastric surgery. Both patients showed normal APTT, though they had significantly decreased FIX:C. Sanger sequencing of the F9 gene revealed a novel hemizygous F9 c.639C > A (p.Asn213Lys) missense mutation in both patients. The proband's mother carried heterozygous mutation. This mutation was located in the activation peptide domain of FIX. CONCLUSION: In conclusion, we confirmed that APTT could be normal in mild HB patients. Highly sensitive APTT for mild HB and molecular genetic test could confirm the diagnosis of mild HB.

Haemophilia, the journey in search of a cure. 1960-2020.

The single most important step on the path to our modern understanding of blood coagulation and haemophilia in the 20th century was taken by British pathologist Robert Gwyn Macfarlane with his 1964 publication 'An enzyme cascade in the blood clotting mechanism, and its function as a biochemical amplifier'. In the same year, Ratnoff and Davie in the USA reached the same conclusion. Macfarlane and Rosemary Biggs had previously, in 1952, discovered factor IX as the factor deficient in haemophilia B. In 1973, Arthur Bloom defined the distinct role of Factor VIII and von Willebrand factor in haemophilia A and von Willebrand's disease respectively. This inspired the efforts of Tuddenham and his group towards the purification of Factor VIII which reached homogeneity in 1982, leading to the cloning of the Factor VIII gene in 1984 in collaboration with US scientists at Genentech, which in turn enabled development of safe recombinant factor concentrates for patients with haemophilia. Brownlee cloned the factor IX gene in 1982 at the Sir William Dunn Institute of Pathology in Oxford. This led eventually to the first successful trial of gene therapy for haemophilia B in 2011 by the Nathwani group at UCL, which built on pioneering work of US groups and was partnered with St Jude in Memphis where Nathwani started the project. This trial has fuelled the current quest for a functional cure of haemophilia A and B. The UK has, therefore, made a rich contribution to advances in haemostasis over the last 60 years, often in partnership with other groups across the world.

A novel missense mutation in F9 gene causes hemophilia B in a family with clinical variability.

: Hemophilia B is an X-linked recessive bleeding disorder caused by diverse mutations throughout the F9 gene. The same F9 mutation may result in different degrees of clotting factor deficiency. The aim of this study was to investigate the pathogenesis of two hemophilia B patients with different severity in a family. A family with two hemophilia B patients was recruited in this study. Coagulation assays, activities of FVIII (FVIII:C) and FIX (FIX:C) were evaluated. All of the exons and intron exon boundaries of the F9 gene were amplified by PCR and analyzed by direct sequencing. The proband, 12-year-old boy with moderate bleeding history, had manifest prolonged activated partial thromboplastin time (98.1 s) and markedly decreased FIX activity (1%). His maternal uncle presented slightly prolonged activated partial thromboplastin time (48.2 s) and mildly decreased FIX activity (15.2%). Molecular genetic analysis of F9 revealed that they were hemizygous for a novel missense mutation, c.157G>C (p.Glu53Gln). Our study widens the mutation spectrum of the FIX gene. In addition, this report provides a specific case associated with genotype and phenotype heterogeneity of hemophilia B.

Evolving Complexity in Hemophilia Management.

Rapid expansion of therapeutic options have increased the complexity of hemophilia care. Previously, on-demand therapy aimed to reduce morbidity and early mortality; however, now aggressive prophylaxis, particularly in children, encourages an active lifestyle. Accurate diagnosis, recognition of early threats to musculoskeletal health, and optimization of therapy are critical for both males and females affected by hemophilia. The diversity of emerging hemophilia therapies, from modified factor protein concentrates, to gene therapy, to nonfactor hemostatic strategies, provide an exciting opportunity to target unmet needs in the bleeding disorder community.

Perioperative haemostatic management of haemophilic mice using normal mouse plasma.

Intense haemostatic interventions are required to avoid bleeding complications when surgical procedures are performed on haemophilia patients. The objective of this study was to establish an appropriate protocol for perioperative haemostatic management of haemophilic mice. We assessed the prophylactic haemostatic effects of normal mouse plasma (NMP) on haemophilia B (HB) mice for both a skin flap procedure and a laparotomy. When 500 µL of NMP was administered to the mice, plasma factor IX (FIX:C) levels peaked at 15.1% immediately after intravenous (IV) administration, at 6.1% 2 h after intraperitoneal (IP) administration and at 2.7% 6 h after subcutaneous administration. Administering 500 µL of NMP via IP or IV 30 min in advance enabled the skin flap procedure to be performed safely without any complications. After the laparotomy procedure, several mice in the IP administration group exhibited lethal bleeding, but all mice survived in the IV administration group. Anti-mouse FIX inhibitors did not develop, even after repetitive administrations of NMP. However, human FIX concentrates, especially plasma-derived concentrates, elicited the anti-human FIX inhibitors. The results show that administering 500 µL of NMP via IV or IP 30 min in advance enables surgical procedures to be safely performed on HB mice, and that IV administration is more desirable than IP if the procedure requires opening of the abdominal wall.

Macrohematuria as initial presentation in a girl with factor VIII and factor IX inhibitors associated with systemic lupus erythematosus.

Acquired hemophilia is rarely observed in a pediatric population. We report a case of a 14-year-old girl presented with ecchymoses and macrohematuria. She developed factor VIII and factor IX inhibitors, and was diagnosed with simultaneous acquired hemophilia and systemic lupus erythematosus (SLE). Recombinant-activated FVII and corticosteroid were prescribed due to macrohematuria-related hypovolemia and anemia, which resolved satisfactorily. This case is a reminder that the rare concurrent presence of factor VIII and factor IX inhibitors could be associated with SLE in a pediatric population. Children with SLE-associated-acquired hemophilia may develop macrohematuria as well.

[Haemophilia A and B in dogs]. / Hämophilie A und B beim Hund.

Based on own clinical experiences and the literature, this review article elaborates on aspects of aetiology, pathogenesis, clinical signs, diagnosis and therapy of haemophilia A and B in dogs. When compared to humans, dogs reveal more severe haemorrhagic symptoms at a defined residual factor activity (e.g. subcutaneous, intramuscular, and intraarticular haemorrhages after inappropriate trauma resulting in lameness and paralysis, excessive haemorrhage during second dentition, venal puncture, and surgery). Fortunately, genetic tests are now commercially available in Germany for selected breeds (haemophilia B in Rhodesian Ridgebacks; haemophilia A in Havaneses), which complement the conventional individual factor activity measurements and facilitate the detection of female carrier dogs. Treatment of bleeding crises is still mainly based on substitution therapy with fresh or fresh frozen plasma in addition to local haemostatic measures. In contrast, expectations regarding the timely clinical availability of gene therapy (particularly in humans) have not yet been fulfilled.

[Acquired haemophilia B: a case report and literature review]. / Hémophilie B acquise : à propos d'un cas avec revue de la littérature.

Acquired haemophilia is a rare disease; it occurs most frequently in elderly patients. The majority of cases are due to autoantibodies to factor VIII, which deplete circulating factor VIII or acquired haemophilia A. Only few cases of acquired haemophilia B are reported until today. We report a case of a 7-year-old girl with no past medical history of bleeding disorder and who present an extensive haematoma in the left calf. The diagnosis was established by the demonstration of an isolated prolongation of the activated partial thromboplastin time (APTT) with a reduced factor IX level and evidence of factor IX inhibitor activity to 2 Bethesda Unit (2UB). Diagnosis of acquired haemophilia B confirmed, patient received recombinant factor VIIa and corticosteroid treatment. Bleeding symptoms had completely disappeared and coagulation tests become normal. In conclusion, if bleeding symptoms are associated with unexplained prolongation of APTT, an inhibitor against factor must be searched for not missing an acquired coagulation disease.

Factor VIII and IX deficiencies related to acquired inhibitors in a patient with chronic hepatitis C virus infection receiving treatment with pegylated interferon plus ribavirin.

The development of clotting factor inhibitor autoantibodies is rarely observed, but can result in a potentially life-threatening haemorrhagic disorder. These acquired inhibitors are most frequently against factor VIII (FVIII), whilst the detection of inhibitors against other clotting factors is rarer. Inhibitors against FVIII and FIX are mostly observed in patients with classical hereditary haemophilia after receiving factor replacement therapy. We report a rare case of acquired FVIII and factor IX (FIX) inhibitors in a single, non-haemophilic patient with chronic hepatitis C virus (HCV) infection who was receiving antiviral treatment with pegylated interferon plus ribavirin. The FVIII and FIX activities were <1% and high titres of inhibitors autoantibodies were found in his serum samples. After achieving a sustained virological response, combined immunosuppression with oral corticosteroids (prednisone) and azathioprine was introduced, eradicating the inhibitory autoantibodies. The development of these inhibitors in association with antiviral therapy for chronic hepatitis C is poorly understood, and particular attention must be given to HCV-infected patients with worsening coagulopathy, particularly if coexistent with treatment related thrombocytopenia.

Delayed diagnosis of congenital factor IX deficiency (Christmas disease) in a girl with Turner's Syndrome.

Patients with Turner's syndrome are at risk of X-linked recessive disorders. We report a case of a young girl with Turner's syndrome with persistent mildly abnormal coagulation studies associated with a mild to moderate bleeding diathesis. The abnormalities were initially attributed to intrahepatic cholestasis and were partially responsive to vitamin K. After an interval of several years an episode of unexplained iron deficiency anaemia prompted re-investigation of the mild coagulopathy. Disproportionate reduction in the factor IX concentration and restoration of haemostasis with factor IX concentrate lead to a revised provisional diagnosis of mild haemophilia B which was subsequently confirmed by sequencing the factor IX gene.

Environmental and genetic factors influencing inhibitor development.

Inhibitor formation occurs at a frequency of 20% to 30% in severe hemophilia A, and 3% in hemophilia B. Today, it represents the major complication in patient care and renders classical substitution therapy ineffective. Genetic factors, such as factor VIII (FVIII) gene mutations and immune response genes, particularly the major histocompatibility complex, have been shown to constitute decisive risk factors for the development of inhibitors. In severe hemophilia A and B, those mutations that result in the absence or severe truncation of the FVIII/factor IX (FIX) proteins are associated with the highest risk for inhibitor formation, indicating that a major driving force in inhibitor development is the presentation of a novel antigen to the patient's immune system. An alternative pathomechanism may underlie inhibitor development in patients with mild hemophilia A. Missense mutations, especially those in the C1/C2 domains, may alter the immunogenicity of the FVIII protein, eliciting an inhibitor response against the mutated epitope. In some patients with hemophilia B, especially those with large deletions to the FIX gene, a severe allergic reaction occurs simultaneously with inhibitor onset. Despite the obviously strong genetic predisposition, discordant inhibitor status in monozygotic hemophilia A twins demonstrates that environmental factors also play a role in the development of inhibitors.

Four factor deficiency.

Four factor deficiency is variably associated with mild to fatal bleeding. We describe a 3-month-old boy, born of consanguineous parents, who presented with a right subdural haematoma and a clotting screen showing a prothrombin time (PT) > 100 s, an activated partial thromboplastin time (aPTT) > 150 s, a fibrinogen of 0.4 g/l, and fibrinogen degradation products < 1 microg/ml. He was given 300 U of factor IX concentrate (containing factors II and X) and 1 mg of vitamin K intravenously. Forty-five minutes later, clotting tests showed a PT of 24 s, an aPTT of 31 s and a fibrinogen of 2.6 g/l. The patient was found to be deficient in all the vitamin K-dependent factors: factors II, VII, IX and X, protein C and protein S. A 14-base deletion was found in intron 1 (bases 1056-1069) of the gamma-carboxylase gene. The patient and his elder sister were homozygous for this deletion, whereas both parents were heterozygous. The deletion destroys a reverse palindromic sequence (TTGAGGCAA) of the type often associated with cis-acting elements. Our results suggest that this element may be involved in the regulation of gamma-carboxylase expression. Expression studies are being completed so that this region can be definitively ascribed as a cis-acting element involved in gene regulation.

How factor VIIa works in hemophilia.

The influence of elevated platelet concentration and recombinant factor VIIa (rFVIIa) on thrombin generation at 5 pM tissue factor (TF) in a synthetic mixture corresponding to hemophilia B (SHB) and "acquired" hemophilia B blood (AHBB) produced in vitro by an antifactor IX antibody was evaluated. (a) Thrombin generation in SHB and AHBB was delayed and reduced; (b) with 10 nM rFVIIa or 5x normal platelets (10 x 10(8)/mL) SHB and AHBB showed a slight increase in thrombin generation; (c) in the absence of TF, almost no thrombin generation was detected in SHB and AHBB in the presence of 10 nM rFVIIa and 10 x 10(8)/mL activated platelets (5x normal); (d) with TF, 10 nM rFVIIa and 3-5x normal nonactivated platelets (6-10 x 10(8)/mL), thrombin levels approaching normal values were attained. FVIIa appears to function effectively and locally by the combined effect of TF expression and platelet accumulation at the site of a vascular lesion.

Haemophilia B in a female caused by skewed inactivation of the normal X-chromosome.

Hemophilia B (factor IX deficiency) is an X-linked recessive disorder with a prevalence of 1:30,000 male births, which rarely affects females. A missense mutation T38R (6488C>G) of the factor IX (FIX) gene was characterized in a young female with moderate-to-severe hemophilia B. She is heterozygous for this mutation, which she inherited from her carrier mother. Analysis of the methyl-sensitive HpaII sites in the first exon of the human androgen-receptor locus indicated a de novo skewed X-chromosomal inactivation. This indicates that the paternal X-chromosome carrying her normal FIX gene is the inactive one, which has led to the phenotypic expression of hemophilia B in this patient.

Immune tolerance therapy for haemophilia.

The development of anti-factor VIII and anti-factor IX allo-antibodies in haemophilia A and B, respectively, remains a serious complication of treatment for these two X-linked haemostatic disorders, with major clinical and economic consequences. Treatment of this potentially fatal complication remains one of the greatest challenges facing haematologists at the beginning of the 21st century. Immune tolerance induction (ITI) therapy has been generally accepted as the best available treatment, extinguishing the inhibitor and permitting a resumption of standard dosing schedules. Although there have been several established protocols for ITI therapy developed over the last quarter century, the optimal scheme in terms of safety, clinical efficacy and pharmacoeconomic considerations has yet to be determined.

Continuous infusion of recombinant factor VIIa in patients with haemophilia and inhibitors. Experience in The Netherlands and Belgium.

BACKGROUND: Initial clinical experience with recombinant factor VIIa (rVIIa) for treatment of haemophilia patients with inhibitors against factor VIII or IX has been obtained by administration of rVIIa by repeated intravenous bolus injections. However, continuous infusion of rVIIa may be a more appropriate administration method if prolonged treatment is indicated. METHODS: We have surveyed and analysed the initial experience with continuous infusion of rVIIa in the Netherlands and Belgium. RESULTS: Five hospitals treated 7 haemophilia patients with inhibitors on 9 different occasions (4 bleedings, 5 surgical interventions) by continuous infusion of rVIIa over a total of 59 days. Haemostatic coverage was considered effective in 8 out of 9 cases and partially effective in 1 case. Continuous infusion of rVIIa was aimed at rVIIa target plasma levels of 10 U/ml and a decrease in prothrombin time (PT) of 3 s compared to control levels. This was obtained by an initial bolus injection of 90 micrograms/kg prior to continuous infusion of rVIIa at doses between 30-6 micrograms/kg/h (mean 17.5 micrograms/kg/h). A conventional one-stage factor VII coagulation assay, often used in combination with a PT, was satisfactory in monitoring rVIIa treatment. The additional clinical value of anti-fibrinolytic and anti-thrombophlebitic treatment was unclear. CONCLUSION: In our experience, rVIIa appeared to be efficacious and safe when administered by continuous infusion. Continuous infusion of rVIIa is more convenient than bolus injections or rVIIa, easy to monitor and provides a cost reduction of > 50%. These advantages make continuous infusion an attractive administration method for prolonged treatment with rVIIa.