Considerations of pool size in the manufacture of plasma derivatives

The Evolution of the Safety of Plasma Products from Pathogen Transmission-A Continuing Narrative

Chronic recipients of plasma products are at risk of infection from blood-borne pathogens as a result of their inevitable exposure to agents which will contaminate a plasma manufacturing pool made up of thousands of individual donations. The generation of such a pool is an essential part of the large-scale manufacture of these products and is required for good manufacturing practice (GMP). Early observations of the transmission of hepatitis by pooled plasma and serum led to the incorporation of heat treatment of the albumin solution produced by industrial Cohn fractionation of plasma. This led to an absence of pathogen transmission by albumin over decades, during which hepatitis continued to be transmitted by other early plasma fractions, as well as through mainstream blood transfusions. This risk was decreased greatly over the 1960s as an understanding of the epidemiology and viral aetiology of transfusion-transmitted hepatitis led to the exclusion of high-risk groups from the donor population and the development of a blood screening test for hepatitis B. Despite these measures, the first plasma concentrates to treat haemophilia transmitted hepatitis B and other, poorly understood, forms of parenterally transmitted hepatitis. These risks were considered to be acceptable given the life-saving nature of the haemophilia treatment products. The emergence of the human immunodeficiency virus (HIV) as a transfusion-transmitted infection in the early 1980s shifted the focus of attention to this virus, which proved to be vulnerable to a number of inactivation methods introduced during manufacture. Further developments in the field obviated the risk of hepatitis C virus (HCV) which had also infected chronic recipients of plasma products, including haemophilia patients and immunodeficient patients receiving immunoglobulin. The convergence of appropriate donor selection driven by knowledge of viral epidemiology, the development of blood screening now based on molecular diagnostics, and the incorporation of viral inactivation techniques in the manufacturing process are now recognised as constituting a "safety tripod" of measures contributing to safety from pathogen transmission. Of these three components, viral inactivation during manufacture is the major contributor and has proven to be the bulwark securing the safety of plasma derivatives over the past thirty years. Concurrently, the safety of banked blood and components continues to depend on donor selection and screening, in the absence of universally adopted pathogen reduction technology. This has resulted in an inversion in the relative safety of the products of blood banking compared to plasma products. Overall, the experience gained in the past decades has resulted in an absence of pathogen transmission from the current generation of plasma derivatives, but maintaining vigilance, and the surveillance of the emergence of infectious agents, is vital to ensure the continued efficacy of the measures in place and the development of further interventions aimed at obviating safety threats.

The legacy of haemophilia: Memories and reflections from three survivors

Following the publication of a book of personal memories by one of us (CS^1,2), we have attempted to synthesis our joint memories of three ageing men, born in the era preceding universal access to treatment, in an attempt to describe our experience, our challenges and our reflections on the development of therapies, which have ensured that our experience of growing up with haemophilia in the 1950s and 1960s has not been mirrored by the current generation of patients. We describe our upbringing in different parts of Europe in health care systems which, while of varying standards, were all unable to offer the kind of care which developed after the development of specific therapies. We assess the effect of the contamination of these therapies by blood‐borne pathogens on our own development, and the development of our communities around us. In addition, we reflect on the lessons learnt, sometimes painfully, by our generation of people with haemophilia and how some of these enabled us to overcome substantial hurdles, survive and build productive lives. Finally, we survey the development of therapies in the past 20 years, and offer some reflections on how our experience can be integrated in a realistic expectation of what the future holds for our community, in our own affluent societies and in countries less advantaged economically. We hope that our thoughts may contribute to continued progress in the field of haemophilia care.

Viral hepatitis in haemophilia: historical perspective and current management

The introduction of clotting factor concentrates has substantially improved the lives of people with clotting factor deficiencies. Unfortunately, the transmission of blood-borne viral infections through these plasma-derived products led to a huge epidemic of human immunodeficiency virus and viral hepatitis in people with haemophilia (PWH). In a significant proportion of PWH exposed to these viruses, the ensuing decades-long chronic infection resulted in excess morbidity and mortality. Fortunately, developments in the safety of blood products, as well as vaccination and highly effective antiviral treatments have improved the prospects of PWH. The present article reviews the background of the viral hepatitis epidemic in PWH, the natural history of hepatitis B and C infections and their long-term management.

Factors affecting the quality, safety and marketing approval of clotting factor concentrates for haemophilia

Selecting therapeutic products for the treatment of haemophilia follows the process of obtaining market approval of products submitted to the scrutiny of a regulatory agency. In well-resourced countries, key decisions on whether a product is sufficiently safe and of high quality are made by highly expert and well-resourced agencies, such as the US Food and Drug Administration (FDA) and the European Medicines Agency (EMA). In countries lacking such agencies, well-informed decisions can still be made through an appreciation of the key issues affecting the quality, safety and efficacy of haemophilia products. A number of well-established principles may then be applied in order to make a choice. In this review, reflecting principles outlined by the World Federation of Hemophilia, we outline the key features in determining the acceptability of therapeutic products for haemophilia in order to ensure an optimal choice in all the environments providing haemophilia care.

Partnering to change the world for people with haemophilia: 7th Haemophilia Global Summit, Madrid, Spain 22-24 September 2016

The 7th Haemophilia Global Summit was held in Madrid, Spain, in September 2016. With a programme designed, for the 6th consecutive year, by a Scientific Steering Committee of haemophilia experts, the aim of the summit was to share optimal management strategies for haemophilia at all life stages and to provide an opportunity for specialists from across the haemophilia multidisciplinary care team to engage in discussion and debate with leading international experts on current and future areas of research. Topics covered ranged from the optimisation of haemophilia management, emerging issues in clinical care, practical approaches and future perspectives, in addition to patient engagement and empowerment in modern haemophilia care.

Donor selection criteria to maximize double platelet products (DPP) by platelet apheresis

Variant Creutzfeldt-Jakob disease brought us to perform a study to diminish donor exposure from transfusion of platelet concentrates. The current study aimed to develop donor selection criteria that maximize the likelihood of deriving single donor platelets and producing double platelet products (DPP). Donors were recruited among plasmapheresis donors and among other donors when the selected donors did not show up. Donor precount and body weight and haematocrit were examined as determinants of higher split-rates combined with procedure time. When the criterion was set on 225; 82% of the procedures (n=717) with a precount of >225 yielded DPP compared to 54% of the procedures with a precount <225 (p<.01). Body weight >65 kg gave good results in split-rate. Procedure time showed an inverse correlation with the highest correlating precount (r=-.14; p<.001). Eighty one percent of the donors reported a willingness to donate at least seven times a year and 75% accepted the mean procedure time. This confirmed logistical feasibility of the conversion to AP-PC although profits would be reduce 13% compared to platelets from pooled buffy coats.

Risk of transmission of Creutzfeldt-Jakob disease by transfusion of blood, plasma, and plasma derivatives

Studies in experimental animals and case-reports of transmission of Creutzfeldt-Jakob Disease (CJD) by blood transfusion or by albumin products have raised the possibility that CJD may be transmitted by transfusion. The risk of transmission of CJD by transfusion remains theoretical, since no confirmed case of CJD has ever been causally attributed to the receipt of a blood transfusion, no confirmed case of CJD has developed in recipients of clotting factor concentrates, and no cluster of CJD cases has been reported following the administration of a pooled plasma derivative to which a donor who subsequently developed CJD had contributed. However, based on a review of the hitherto available data, it is impossible to conclude at this time that CJD is not transmitted by blood or plasma transfusion or by the administration of pooled plasma derivatives. This review discusses the findings of the animal experiments and the human studies that investigated the potential for transmission of CJD among humans by transfusion, and explains the statistical difficulties associated with proving the negative hypothesis that CJD is not transmitted by transfusion.

Further studies of blood infectivity in an experimental model of transmissible spongiform encephalopathy, with an explanation of why blood components do not transmit Creutzfeldt-Jakob disease in humans

BACKGROUND

Solid evidence from experimentally infected animals and fragmentary evidence from naturally infected humans indicate that blood may contain low levels of the infectious agent of Creutzfeldt-Jakob disease (CJD), yet blood components have never been identified as a cause of CJD in humans.

STUDY DESIGN AND METHODS

Blood components and plasma fractions were prepared from the pooled blood of mice that had earlier been infected with a mouse-adapted strain of human transmissible spongiform encephalopathy (TSE). Infectivity bioassays were conducted in healthy mice, and the brains of all assay animals dying during the course of the experiments were examined for the presence of proteinase-resistant protein.

RESULTS

Infectivity in the blood during the preclinical phase of disease occurred in the buffy coat at infectious unit (IU) levels between 6 and 12 per mL and was either absent or present in only trace amounts in plasma and plasma fractions. Infectivity rose sharply at the onset of clinical signs to levels of approximately 100 IU per mL of buffy coat, 20 IU per mL of plasma, 2 IU per mL of cryoprecipitate, and less than 1 IU per mL of fractions IV and V. Plasma infectivity was not eliminated by either white cell-reduction filtration or high-speed centrifugation. Approximately seven times more plasma and five times more buffy coat were needed to transmit disease by the intravenous route than by the intracerebral route.

CONCLUSION

Epidemiologic evidence of the absence in humans of disease transmission from plasma components can probably be explained by 1) the absence of significant plasma infectivity until the onset of symptomatic disease, and comparatively low levels of infectivity during the symptomatic stage of disease; 2) the reduction of infectivity during plasma processing; and 3) the need for at least five to seven times more infectious agent to transmit disease by the intravenous than intracerebral route. These and other factors probably also account for the absence of transmission after the administration of whole blood or blood components.

Prions and haemophilia: assessment of risk

Based on information accumulated to date, it is still difficult to assess the risk of Creutzfeldt-Jakob disease (CJD) and blood transfusion with any degree of confidence. However, it is reasonable to conclude that CJD is produced by a transmittable agent which is probably contained in low titer in the blood of infected people and animals. From the present clinical and epidemiological studies, transmission by blood or blood products appears to be a rare or non-existent cause of current and past cases of CJD in humans. Since blood products are necessary to prevent the immediate risk of death or significant morbidity in many clinical conditions, therapeutic decisions should be made after consideration of the known risk in these situations vs the theoretical long-term risk of the rare occurrence of CJD.