Hemophilia: a biography on therapeutical approaches

The history of hemophilia is ancient, with descriptions dated to the 2nd century AD. The first modern narratives appeared in 1800s, when total blood transfusion was the only available treatment and life expectancy was remarkably low. Advances occurred with the use of plasma and cryoprecipitate, but only the discovered of factor concentrates revolutionized the treatment. The implantation of prophylaxis allowed hemophilic patients to prevent bleeding and the development of chronic arthropathy, although with a significant burdensome with the regular infusions. In the past 20 years, this field has witnessed major improvements, including the development of gene therapy and other pharmacological approaches.

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.

Life expectancy and cause of death in individuals with haemophilia A and B in Norway, 1986-2018.

OBJECTIVES: Evaluate trends over time in age- and cause of death in males with haemophilia (PWH) in Norway compared with the general male population and investigate its correlates with improvements in haemophilia treatment. METHODS: Data about age and cause of death in the period of 1986-2018, from two independent, high-quality national registries: the Norwegian Cause of Death Registry (NCoDR) and the patient registry at Centre for Rare Disorders (CRD), Oslo University Hospital. RESULTS: Life expectancy increased significantly from 1986 to 2018. However, PWH still had a decreased mean age at death of 56.8 years (SD = 24.7) in the NCoDR and 58.6 years (SD = 21.7) in the CRD data, compared with 73.9 years (SD = 16.3) in the general male population. There was a distinct shift in the most frequently reported haemophilia-related causes of death, such as haemorrhage and AIDS, to more age-related causes of death, such as cancer, reflecting an ageing population. CONCLUSION: Haemophilia treatment has improved significantly in the last three decades. Despite treatment-related improvements, PWH in Norway still have a decreased life expectancy compared with the general male population.

Comprehensive care for hemophilia and other inherited bleeding disorders.

The World Federation of Hemophilia (WFH) states in its Guidelines for the Management of Hemophilia, Second Edition [1], that people with hemophilia are best managed in a comprehensive care setting. That team is typically comprised of a core group including a hematologist, nurse coordinator, physiotherapist, social worker, specialized lab technologist and data manager, and as needed, by other specialists. Hemophilia is an X-linked congenital bleeding disorder caused by a deficiency of coagulation factor VIII (FVIII) in hemophilia A or factor IX (FIX) in hemophilia B. There are a number of other disorders that are now typically treated in these comprehensive care centers including von Willebrand disease (VWD), rare factor deficiencies (I, II, V, V & VIII, VII, X, XI and XIII), and inherited platelet function disorders. Models of comprehensive care delivery for hemophilia and other inherited bleeding disorders were first defined in the 1960s and have been in constant evolution ever since. Comprehensive care for hemophilia and other inherited bleeding disorders was made possible by the discovery of cryoprecipitate for the treatment of hemophilia A in the mid-1960s and, in the decade that followed, the development of lyophilized clotting factor concentrates. It was quickly realized that treatment at home was far preferable to frequent visits to Emergency Departments or out-patient. Tragically, the same clotting factor concentrates that revolutionized treatment and dramatically improved quality of life exposed thousands of people with hemophilia to HIV-AIDS and hepatitis C in the late 1970s and 1980s [2]. The model of comprehensive care was forced to add specialists in infectious disease and hepatology. At the same time, the crisis accelerated the development of recombinant FVIII and IX clotting factors; these entered the clinic in 1993 and 1997 respectively. The proven safety of both recombinant and plasma-derived products spurred on the expansion of prophylactic care to more patients. Today, with the success of a comprehensive care model that keeps patients out of the hospital (and out of sight), and promises a normal lifespan, there is an emerging impression among many health system managers that the problem of hemophilia is "solved." In 2019, however, even the best care and treatment remains highly burdensome and not entirely efficacious. Emerging innovative therapies are promising yet dramatically different in their modes of action, dosing and administration. Much of what has been learned in terms of management of the disease over the last 50 years may no longer be relevant. Rather than one type of treatment for all, there may well be many different therapies. Comprehensive care centres will not become obsolete. It will remain critically important that specialized staff be able to foster long-term relationships with patients and their families. Indeed, they will need to expand their knowledge and expertise in order to be able to continue to deliver the standards of care so carefully developed since the 1960s.

[Effective gene therapy for hemophilia, at last ]. / Hémophilie : la thérapie génique, enfin - Chroniques Génomiques.

Recent efforts at gene therapy for haemophilia A and B using AAV-derived vectors show durable expression of coagulation factors at significant levels, resulting in almost complete correction of the phenotype. This is the first success of gene therapy for a major hereditary disorder, and shows how continuous improvement of many components of the system has finally succeeded. Although these results must be confirmed with more patients and longer durations, they constitute a significant accomplishment for this approach after decades of frustration.

Viral safety of coagulation factor concentrates: memoirs from an insider.

The purpose of this essay is to recall the actions taken globally to improve the viral safety of coagulation factor concentrates, mainly in the years 1985-1990, at a time of confusing and often contradictory information on bloodborne viral infections in multitransfused patients with hemophilia (PWHs). I shall first recall the problem of the transmission and control of the hepatitis viruses, and then that of HIV: not only for temporal reasons, but also because understanding the progress of knowledge on hepatitis and the poor success of the early measures taken to tackle this problem in PWHs is essential to understand how the problem of HIV transmission was ultimately dealt with successfully.

Evolution of the Treatments for Hemophilia.

Although hemophilia has been recognized for centuries as an inherited disorder primarily affecting males, advances in treatments have been very recent. Initial availability of plasma-derived therapies offered significant improvements in morbidity and mortality, but the transmission of viruses quickly negated the benefit of early factor replacement products. After developing successful viral inactivation methods and subsequently developing recombinant technology, the manufacturing of factor concentrates became much safer. Access to safer factor products allowed for a shift from the treatment of bleeds to prevention, called prophylaxis. Although dosing and interval vary, prevention of joint disease is now a realistic goal. Unfortunately, despite advances in the safety of therapy, some patients are unable to use factor replacement products because they develop antibodies, known as inhibitors. Eradication of inhibitors is possible in the majority of patients, but it is expensive and takes time. Management of acute bleeding may require significantly higher doses of factor replacement or the use of a bypassing agent. As a result, patients with inhibitors are at increased risk for sequelae, including joint disease, life-threatening bleeding, infectious complications with central vascular access devices, and thrombotic complications.

An Analysis of the hemophilia of the royal families of Europe, its startling implication and dentistry's role in treating the hemophiliac patient.

Hemophilia is an inherited x-linked recessive disorder. It is known popularly as "The Royal Disease," as it has affected many of the royal families of Europe by virtue of Queen Victoria being a carrier for the gene and, subsequently, passing it on to her offspring. They, in turn, married and had children with other royal families of Europe. Hemophilia is certainly not limited to royalty. There are many hemophiliacs living in our communities, and they must receive both proper dental home-care education and dental treatment in order to prevent possibly life-threatening emergency dental episodes. Individuals with hemophilia pose different management issues to the dental professional. The various precautions and modifications that must be taken in order to ensure the safe delivery of dental care to hemophiliac dental patients are discussed.

Historical review on genetic analysis in hemophilia A.

Molecular genetic analysis is widely applied in inherited bleeding disorders. The outcome of genetic analysis allows genetic counselling in affected families and helps to find a link between the genotype and phenotype. Genetic analysis in hemophilia A (HA) has tremendously improved in the past decades. Many new techniques and modifications as well as analysis software have become available, which has enabled genetic analysis and interpretation of data to become faster and more accurate. The advances in mutation detection strategies facilitate the identification of the causal mutation in up to 97% of patients with HA. This review discusses the milestones in genetic analysis of HA and highlights the importance of identification of the causative mutations for genetic counseling and particularly for the interpretation of the clinical presentation of HA patients.

The history of hemophilia.

Hemophilia A and B are rare inherited bleeding disorders characterized by the deficiency of coagulation factor VIII (FVIII) or factor IX (FIX). While the history of hemophilia dates back to the 2nd century AD, a modern description of hemophilia appeared only at the beginning of the 19th century. The discovery of "antihemophilic globulin" in the middle of the 20th century paved the way to the production of cryoprecipitate and then of FVIII and FIX concentrates. Barring the tragic consequences on the hemophilia community of the transmission of blood-borne viruses by nonvirus inactivated factor concentrates during the 1970s and 1980s, plasma-derived first and recombinant products later revolutionized the treatment of hemophilia through the widespread adoption of home treatment and prophylaxis regimens, which dramatically improved the quality of life and life expectancy of persons with hemophilia during the past decade. This article briefly reviews the most important stages of the management of hemophilia from the past century up to the present days.

Quality of haemophilia care in The Netherlands: new standards for optimal care.

BACKGROUND: In the Netherlands, the first formal haemophilia comprehensive care centre was established in 1964, and Dutch haemophilia doctors have been organised since 1972. Although several steps were taken to centralise haemophilia care and maintain quality of care, treatment was still delivered in many hospitals, and formal criteria for haemophilia treatment centres as well as a national haemophilia registry were lacking. MATERIAL AND METHODS: In collaboration with patients and other stakeholders, Dutch haemophilia doctors have undertaken a formal process to draft new quality standards for the haemophilia treatment centres. First a project group including doctors, nurses, patients and the institute for harmonisation of quality standards undertook a literature study on quality standards and performed explorative visits to several haemophilia treatment centres in the Netherlands. Afterwards concept standards were defined and validated in two treatment centres. Next, the concept standards were evaluated by haemophilia doctors, patients, health insurance representatives and regulators. Finally, the final version of the standards of care was approved by Central body of Experts on quality standards in clinical care and the Dutch Ministry of Health. RESULTS: A team of expert auditors have been trained and, together with an independent auditor, will perform audits in haemophilia centres applying for formal certification. Concomitantly, a national registry for haemophilia and allied disorders is being set up. DISCUSSION: It is expected that these processes will lead to further concentration and improved quality of haemophilia care in the Netherlands.

Treatment of haemophilia patients in East Germany prior to and after reunification in 1990.

The reunification of Germany in 1990 brought with it major challenges in terms of unifying the care offered to haemophilia patients. At that time, most of the treatment centres belonged to the largest regional hospitals. The centre for paediatric haemophilia patients in Leipzig was at the University Hospital. In this centre, early prophylaxis was offered to all patients with severe haemophilia A or B. For over 20 years, the treatments of choice in the German Democratic Republic were cryoprecipitate for haemophilia A and prothrombin complex concentrate for haemophilia B. Cryoprecipitate was relatively effective during minor surgery, in cases of mild to moderate bleeding, and for prophylaxis; however, unpleasant, relevant side-effects and hepatitis virus transmission were frequently encountered in clinical practice. Reunification coincided with the availability of virus-safe, high-purity plasma-derived factor VIII concentrates (e.g. Beriate(®) P), which changed the outlook for patients in terms of convenience, tolerability, and virus safety; and these new products quickly became the treatments of choice for haemophilia A patients at the Leipzig Children's Hospital. Today, 20 years later, nearly all of the patients initiated on Beriate(®) P at the time of reunification continue with that treatment, and are still benefitting from its excellent efficacy, tolerability, and virus-safety profile.

The history of haemophilia - a short review.

The history of haemophilia dates back to the 2nd century AD, with the first "modern" descriptions of the condition appearing during the 1800s. At that time, transfusion medicine and haemophilia became closely linked, with blood transfusion being the only possible treatment option. A turning point in the history of haemophilia came in the middle of the 20th century when researchers identified an "antihaemophilic globulin" that could reduce the clotting time in haemophilic blood, thereby paving the way for the introduction of cryoprecipitate and the first clotting factor concentrates for the treatment of haemophilia A, haemophilia B and von Willebrand disease. The availability of pasteurized, and therefore virus-safe, plasma-derived, clotting factor concentrates, such as Haemate P(®) and Beriate(®) P in Germany and other countries, dramatically improved the quality of life and life expectancy of haemophilia patients. These and other treatment advances enabled home treatment, with many centres introducing prophylaxis to younger patients. Today, thanks to the support from patient organizations, such as the German Haemophilia Society, which was founded by Prof. Rudolf Marx from Munich, haemophilia patients can be assured of good bleeding control using products with established efficacy and safety profiles. Work on improving factor concentrates continues, with efforts directed towards extending their half-lives using recombinant albumin-fused proteins and other modern technologies. The past 20 years has witnessed major improvements in almost all aspects of haemophilia treatment. It is hoped the next 20 years will add promising new chapters to the haemophilia book of history.