Whole blood derived and apheresis platelets: Opinions and preferences-the results of a national survey of blood collectors.

INTRODUCTION: Currently greater than 94% of the US platelet supply is collected by apheresis. A survey to determine the attitudes of members of America's Blood Centers (ABC) toward whole blood derived (WBD) platelets was designed in light of current platelet supply issues. METHODS: An on-line survey was distributed to medical directors of the 47 ABC members. RESULTS: Responses were received from 44/47 (94%) ABC members. There were 15/43 (35%) centers that are currently providing WBD platelets. Seventy percent of the respondents agreed or agreed strongly that WBD and apheresis platelets were clinically equivalent, with approximately 16% indicating that they did not have an opinion on their equivalency and 14% indicating that they were not clinically equivalent. Forty-four percent of respondents felt that their customers would agree or strongly agree that these products are clinically equivalent, while 26% felt that their customers did not know or were neutral on clinical equivalency. The main barrier to WBD platelet implementation was logistic/inventory management issues, followed by bacterial contamination risk mitigation. There were 21/43 (49%) respondents who indicated they are not considering producing WBD platelets to mitigate shortages. Respondents indicated they might begin producing WBD platelets if there was evidence of increasing customer demand, increased reimbursement, inability to supply apheresis platelets, if pathogen reduction became available for WBD platelets, if the platelet shortage worsened. CONCLUSIONS: The majority of blood collectors consider WBD platelets clinically equivalent to apheresis, however wider adoption of WBD platelets is still hindered by challenges with logistics and inventory management.

Cold stored platelets - Increasing understanding and acceptance.

Platelet transfusions decreased the risk of morbidity and mortality secondary to thrombocytopenia. This therapy not only ameliorates platelet loss in bleeding patients,but also those with acquired dysfunction of platelets. The current standard of practice worldwide is to provide room temperature platelets (RTPs); however, there are many disadvantages to the use of RTPs such that alternative approaches have been explored. One potential approach is the integration and use of cold stored platelets (CSP), which are platelets stored at 1-6 °C, in clinical settings. CSP research studies show equivalent hemostasis and platelet dysfunction restoration compared to RTPs. In addition, publications have demonstrated advantages of CSP such as reduced bacterial contamination and wastage. Despite its benefits, the production of CSP by blood centers (BCs) and uptake and use of CSP by hospitals has remained relatively low. This review highlights the rationale for CSP production and strategies for overcoming the implementation challenges faced by BCs based on a literature review.Experiences of Consortium for Blood Availability members to integrate CSP in their BCs and clinical practices by providing variance applications are reviewed in this paper. Also, demonstrated in this manuscript are the current indications and opportunities for CSP utilization by healthcare providers.

Using automation to manage donor engagement and fine-tune supply and demand during the first year of the COVID-19 pandemic.

BACKGROUND: COVID-19 disrupted blood center operations starting March 2020 and continues to affect donor presentation and blood availability today. The industry mobilized significant resources to collect COVID-19 convalescent plasma (CCP) to treat COVID-19 patients. At the same time, blood centers continued to collect platelets, plasma, and red blood cells (RBCs) to meet the needs of non-COVID-19 patients. The purpose of this study was to quantify how automation was used to fine-tune supply and demand and increase donor engagement during the first year of the pandemic. METHODS: This was a single-center retrospective study of blood collection and donor presentation at a mid-sized US blood center. Data was evaluated from January 1, 2020 through March 31, 2021. Parameters evaluated included donor presentation, platelets per procedure, concurrent RBC and plasma collections per procedure, operator compliance, total donor appointment count, and donor frequency. RESULTS: With the cancelation of mobile blood drives, fixed sites increased total apheresis procedures by 37% and increased turns per bed by 46% whereas less products were collected per donor. By collecting only what was needed, platelet expiration rate decreased from 6.8% (pre-pandemic) to less than 4%. Donor engagement as measured by donor frequency increased from 1.6 in January 2020 to 1.8 in March 2021. CONCLUSIONS: Using technological advances such as automated blood collection and information systems, the blood center improved donor engagement and avoided collecting a surplus of any one type of blood product over the course of the pandemic.

Survey of blood centre readiness regarding removal of DEHP from blood bag sets: The BEST Collaborative Study.

BACKGROUND AND OBJECTIVES: Di(2-ethylhexyl) phthalate (DEHP) must be removed from blood bag sets in Europe by 27 May 2025. DEHP is known to interact with the red blood cell (RBC) membrane, resulting in reduced haemolysis and thus prolonging shelf-life. Current non-DEHP alternatives result in increased haemolysis requiring reconsideration of the RBC shelf-life. Although the immediate impact of eliminating DEHP is to the European community, the non-DEHP movement could affect blood bag set availability globally. The purpose of this survey is to understand blood centre readiness regarding the transition to non-DEHP blood collection and storage systems. MATERIALS AND METHODS: A 24-question on-line survey was completed by members of the Biomedical Excellence for Safer Transfusion Collaborative research network. RESULTS: Responses were obtained from 16 blood collection or processing institutions. A majority of respondents (12/16) indicated that both shelf-life and haemolysis were equally important in selecting non-DEHP blood bag sets. Six respondents would accept a lower RBC product shelf-life compared to current practice. Respondents were not clear on the best non-DEHP vinyl material or RBC storage solution. Three European blood centres indicated they have developed non-DEHP transition plans. One challenge identified regarding the transition to non-DEHP is the extensive validation testing that will be required. CONCLUSION: Blood centres in Europe are concerned with meeting the sunset date for DEHP, considering that limited non-DEHP blood bag and RBC storage solutions are currently available. Banning DEHP in Europe, which may have global ramifications, represents a major challenge not yet fully understood by the transfusion medicine community.

Incorporating the entity of under-transfusion into hemovigilance monitoring: Documenting cases due to lack of inventory.

BACKGROUND: Under-transfusion is an underreported entity within most hospitals and hemovigilance systems. While critical blood shortages are being reported more frequently, without incident codes to document instances of under-transfusion due to lack of inventory, estimating its impact on patient care as it relates to hemotherapy (HT) has hampered our ability to assess and inform strategic initiatives to combat inventory issues as well as prepare for future blood supply threats. STUDY DESIGN AND METHOD: An 11-member working group of the AABB (Association for the Advancement of Blood and Biotherapies) Hemovigilance Committee was formed in October 2020 to study the topic of under-transfusion including its potential causes and clinical expressions. The group was also charged with proposing simple definition/incident codes to be used by hemovigilance systems to document such instances. RESULTS: The working group proposed four simple incident codes under the new process code-No Blood (NB)-that can be used by hemovigilance systems to appropriately document instances of under-transfusion due to lack of inventory. The codes were described as: (1) NB 01-Inventory less than usual level due to supplier shortage; (2) NB 02-Demand for blood product exceeding usual inventory levels; (3) NB 03-Substitution with incompatible/inappropriate units; and (4) NB 04-Suboptimal dose/no transfusion given. CONCLUSION: The adoption of these codes within hemovigilance systems globally would assist in recognition and reporting instances of under-transfusion due to inventory, thus supporting development of better collection strategies, inventory management techniques as well as effective policies to improve blood safety and availability.

Platelet aggregation in whole blood is not impaired by a platelet-sparing leukoreduction filter and instead depends upon the presence of leukocytes.

BACKGROUND: Recent studies characterizing in vitro hemostatic properties of whole blood (WB) leukoreduced (LR) with a platelet-sparing filter have described subtle, if any, changes to viscoelastic clotting; however, reductions in platelet (PLT) content and impedance aggregometry (IA) responses have been noted. The effects of filtration of WB (i.e., filter-contact effects, reduction in platelet and leukocyte count) have not been rigorously investigated as to their individual impacts on platelet IA responses. STUDY DESIGN AND METHODS: WB units from healthy donors were collected and characterized to assess the effects of platelet-sparing leukoreduction (LR) upon the in vitro hemostatic measures of platelet IA and thromboelastometry. Further characterization of platelet IA responses was carried out in WB samples to delineate the effects of platelet count and leukocyte presence/absence upon the response. RESULTS: WB filtration reduced the platelet count and IA responses but had no impact on viscoelastic clotting measures in fresh WB. Experiments revealed that IA responses have a linear correlation with platelet count in both apheresis platelets and WB and that passage of platelets through the WB-LR filter has no impact upon the strength of this response. Further experiments in LR WB showed that addition of autologous leukocytes back to the platelets fully restored the platelet aggregation response to pre-filtration levels. CONCLUSION: WB filtration results in platelet count reduction and leukocyte removal; however, platelet IA is not degraded by passage through the filter. Apparent declines in platelet IA responses can be fully attributed to the reduction in platelet count and the removal of leukocytes.

Buffy coat platelets coming to America: Are we ready?

BACKGROUND: Buffy coat (BC) platelets (PLTs) have been used globally for many years. In 2004 Canadian Blood Services (CBS) made the decision to transition from PLT-rich plasma (PRP) to BC PLTs. We reviewed the benefits and manufacture process of BC and the implementation challenges involved. STUDY DESIGN AND METHODS: A literature review was performed in the following areas: BC efficacy, donor population shifts, production and good stewardship of PLTs, logistic considerations with overnight holds, advantages of the overnight hold, the CBS experience, licensure and standards, and changes needed to produce BC PLTs in the United States. The aim was to analyze current practice and identify possible actions for blood centers and hospitals. RESULTS: Implementation of BC would offer an additional source of PLTs to address the growing elderly population and the declining apheresis donor base. Substantial logistic, operational, and financial benefits were seen when CBS transitioned to BC with overnight hold. CONCLUSIONS: Buffy coat blood products are widely used throughout the world. Recent conversion from PRP to BC by CBS showed that conversion can be accomplished with planning, communication, and partnership from all stakeholders. In conclusion, BC PLTs are worth serious consideration in the United States, but regulatory barriers in the United States will need to be addressed.

In vitro and in vivo quality of leukoreduced apheresis platelets stored in a new platelet additive solution.

BACKGROUND: Platelets (PLTs) stored in additive solutions (PASs) may reduce the risk of several plasma-associated adverse transfusion reactions such as allergic reactions and potentially transfusion-associated lung injury. The objective of this study was to determine the in vitro characteristics and the in vivo radiolabeled recovery and survival of apheresis PLTs (APs) stored in a new PAS and compare the latter to Food and Drug Administration (FDA) criteria. STUDY DESIGN AND METHODS: Hyperconcentrated APs were collected from healthy subjects in a paired crossover study comparing PAS (35% plasma) and 100% plasma-stored APs (Part 1) up to 7 days and, in Part 2, to determine the in vivo recovery and survival of PAS stored AP at 5 days compared to fresh PLT controls. In vitro and in vivo assays were performed following standard methods. RESULTS: Sixty-six and 25 evaluable subjects successfully completed Parts 1 and 2, respectively. pH for PAS AP was maintained above 6.6 for 5 days of storage. P-selectin values were consistent with published values for commonly transfused PLT products. The PAS in vivo PLT recovery (54.3 ± 8.1%) was 86.7% of the fresh control, and survival (6.4 ± 1.3 days) was 78.0% of the fresh control, both meeting the FDA performance criteria. CONCLUSION: APs stored in PAS with 35% plasma carryover maintained pH over 5 days of storage and met current FDA criteria for radiolabeled recovery and survival. The use of PAS for storage of single-donor PLTs in clinical practice represents an acceptable transfusion product that reduces the volume of plasma associated with PLT transfusion.