Generating pathways to domestically sourced plasma-derived medicinal products: Report from a workshop by the International Plasma and Fractionation Association and the Working Party on Global Blood Safety of the International Society of Blood Transfusion.

Plasma-derived medicinal products (PDMPs) are recognized internationally as essential medicines required to treat various acute and chronic conditions including congenital deficiencies of plasma proteins in haemophilia and primary immune deficiency. Global provision of these medicines is dominated by a small number of commercial companies, influencing the price and availability of the products. Achieving a level of strategic independence from this dominance is now seen as a public health priority in many countries. During the Regional Congress of the International Society for Blood Transfusion (ISBT) in Cape Town, South Africa, in November 2023, around 50 delegates from 24 countries participated in a workshop (WS) organized jointly by the International Plasma and Fractionation Association (IPFA) and the ISBT Working Party on Global Blood Safety on pathways towards provision of PDMPs from domestic plasma independent of commercial purchase in the open market. The WS was structured around three themes, each addressed by a separate group: Quality/safety requirements for plasma for fractionation (PfF) Stepwise access for safe plasma proteins Approaching contract fractionation A synthesis of conclusions from these groups included the following: The need to acquire support from government authorities for a national plasma policy, recognizing the difficulties posed by unstable political and bureaucratic environments. The value of embedding plasma and PDMPs within a patient blood management (PBM) paradigm to promote optimal clinical use of PDMPs. Training of blood/plasma collection personnel in the relevant principles of Good Manufacturing Practice (GMP), coupled with regulatory oversight of plasma product production in the engaged jurisdictions. Appreciation that limited access to contract fractionation may necessitate a stepwise approach, which may include small-scale preparation of versions of essential plasma proteins as an intermediate phase towards the manufacture of industrial-scale PDMPs from domestic plasma.

Stepwise options for preparing therapeutic plasma proteins from domestic plasma in low- and middle-income countries.

Industrial plasma fractionation, a complex and highly regulated technology, remains largely inaccessible to many low- and middle-income countries (LMICs). This, combined with the limited availability and high cost of plasma-derived medicinal products (PDMPs), creates deficiency of access to adequate treatment for patients in resource-limited countries, and leads to their suffering. Meanwhile, an increasing number of LMICs produce surplus plasma, as a by-product of red blood cell preparation from whole blood, that is discarded because of the lack of suitability for fractionation. This article reviews pragmatic technological options for processing plasma collected from LMICs into therapies and supports a realistic stepwise approach aligned with recent World Health Organization guidance and initiatives launched by the Working Party for Global Blood Safety of the International Society of Blood Transfusion. When industrial options based on contract or toll plasma fractionation programme and, even more, domestic fractionation facilities require larger volumes of quality plasma than is produced, alternative methods should be considered. In-bag minipool or small-scale production procedures implementable in blood establishments or national service centres are the only realistic options available to gradually reduce plasma wastage, provide safer treatments for patients currently treated with non-pathogen-reduced blood products and concurrently improve Good Manufacturing Practice (GMP) levels with minimum capital investment. As a next step, when the available volume of quality-assured plasma reaches the necessary thresholds, LMICs could consider engaging with an established fractionator in a fractionation agreement or a contract in support of a domestic fractionation facility to improve the domestic PDMP supply and patients' treatment.

Rationale for supporting stepwise access to safe plasma proteins through local production in low- and middle-income countries: A commentary of an international workshop.

This document provides a commentary and further elaboration on the conclusions reached during a recent international workshop on plasma protein therapies organized by the Working Party for Global Safety of the International Society of Blood Transfusion (ISBT). The workshop addressed the profound deficiency in access to safe plasma protein therapies that persists in low- and middle-income countries (LMICs). We provide additional factual economic and technological information that highlights why local production of small-scale virus-inactivated concentrates of clotting factors and immune globulins from domestic recovered plasma through stepwise introduction of available validated technologies is a pragmatic approach to gradually improve the care of patients with bleeding disorders and immune deficiencies in LMIC while supporting progress toward fractionation of plasma. This strategy is in line with a recent WHO guidance. We stress that the active involvement of international blood donor and blood transfusion organizations, patient organizations, governments and industry will be essential in supporting stepwise and sustainable improvements in access to safe, effective, and quality assured plasma protein therapies.

Stepwise access to safe plasma proteins in resource-constrained countries: Local production and pathways to fractionation-Report of an International Society of Blood Transfusion Workshop.

BACKGROUND AND OBJECTIVES: Actions are needed to improve access to safe plasma-derived medicinal products (PDMPs) in low- and middle-income countries (LMICs). MATERIALS AND METHODS: The International Society of Blood Transfusion (ISBT) Working Party for Global Blood Safety organized an on-line workshop during 21-23 September 2021 to advance access to safe plasma proteins in resource-constrained countries, consistent with recent World Health Organization (WHO) guidance documents. RESULTS: The meeting drew attention to the considerable unmet needs for access to essential PDMPs in LMICs, in particular coagulation factors and immunoglobulins, and stepwise actions to address these deficits. First, improved access to safe plasma protein therapies requires blood component separation with prevention of wastage of recovered plasma. Quality and safety of collected blood and plasma must be assured so that plasma in excess of transfusion needs can be processed into safe plasma proteins. Second, local production of safe plasma proteins can be implemented using available technologies to locally obtain pathogen-reduced plasma and prepare pathogen-reduced cryoprecipitate and immunoglobulins from small plasma pools. Third, when a sufficient, stable volume of quality-assured plasma is available (approximately 50,000 L/year), contract or toll fractionation by a foreign plasma fractionator can expand the supply of PDMPs. Fourth, when the national infrastructure supports high-technology industrial production and stable volumes of quality plasma reach at least 200,000 L/year, technology transfer for domestic fractionation can be considered. CONCLUSION: Action is needed including commitments of the organizations that made the workshop possible (WHO, ISBT, World Federation of Haemophilia [WFH], Plasma Protein Therapeutics Association [PPTA], International Plasma Fractionation Association [IPFA], International Patient Organization of Primary Immunodeficiencies [IPOPI] and International Federation of Blood Donor Organizations [FIODS]).

A WHO tool for risk-based decision making on blood safety interventions.

BACKGROUND: Risk-based decision making is increasingly recognized as key to support national blood policy makers and blood operators concerning the implementation of safety interventions, especially to address emerging infectious threats and new technology opportunities. There is an urgent need for practical decision support tools, especially for low- and middle-income countries that may not have the financial or technical capability to develop risk models. WHO supported the development of such a tool for blood safety. The tool enables users to perform both a quantitative Multi-Criteria Decision Assessment and a novel step-by-step qualitative assessment. STUDY DESIGN AND METHODS: This paper summarizes the content, functionalities, and added value of the new WHO tool. A fictitious case study of a safety intervention to reduce the risk of HIV transmission by transfusion was used to demonstrate the use and usefulness of the tool. RESULTS: Application of the tool highlighted strengths and weaknesses of both the quantitative and qualitative approaches. The quantitative approach facilitates assessment of the robustness of the decision but lacks nuances and interpretability especially when multiple constraints are taken into consideration. Conversely, while unable to provide an assessment of robustness, the step-by-step qualitative approach helps structuring the thought process and argumentation for a preferred intervention in a systematic manner. CONCLUSION: The relative strengths and weaknesses of the quantitative and step-by-step qualitative approach to risk-based decision making are complementary and mutually enhancing. A combination of the two approaches is therefore advisable to support the selection of appropriate blood safety interventions for a particular setting.

Screening of Blood Donations for Zika Virus Infection - Puerto Rico, April 3-June 11, 2016.

Transfusion-transmitted infections have been documented for several arboviruses, including West Nile and dengue viruses (1). Zika virus, a flavivirus transmitted primarily by Aedes aegypti mosquitoes that has been identified as a cause of congenital microcephaly and other serious brain defects (2), became recognized as a potential threat to blood safety after reports from a 2013-2014 outbreak in French Polynesia. Blood safety concerns were based on very high infection incidence in the population at large during epidemics, the high percentage of persons with asymptomatic infection, the high proportion of blood donations with evidence of Zika virus nucleic acid upon retrospective testing, and an estimated 7-10-day period of viremia (3). At least one instance of transfusion transmission of Zika virus has been documented in Brazil after the virus emerged there, likely in 2014 (4). Rapid epidemic spread has followed to other areas of the Americas, including Puerto Rico.

Maintaining a Safe Blood Supply in an Era of Emerging Pathogens.

Coming shortly after outbreaks of dengue and chikungunya virus in related locations, the recent outbreak of Zika virus in the southern part of the western hemisphere is yet another reminder that infectious pathogens continue to emerge rapidly and can adversely affect public health, including the safety of the blood supply. In response to Zika virus, public health measures that rely largely on donor deferral and sourcing of blood from non-outbreak areas until a blood donor screening test becomes available have been implemented to address the safety of the blood supply in the United States. However, a more universal approach to ensuring blood safety in the setting of rapidly emerging infectious diseases is needed.