Creating a plasma coordination center to support COVID-19 outpatient trials across a national network of hospital blood banks.

IF 2.1 Q3 MEDICINE, RESEARCH & EXPERIMENTAL

Journal of Clinical and Translational Science Pub Date : 2024-11-14 eCollection Date: 2024-01-01 DOI:10.1017/cts.2024.642

Anusha Yarava, Christi Marshall, David E Reichert, Aaron Ye, Preeti Khanal, Sanford H Robbins, Bruce S Sachais, David Oh, Ryan A Metcalf, Kathleen Conry-Cantilena, Karen King, Meredith Reyes, Jill Adamski, Marisa B Marques, Minh-Ha Tran, Elizabeth S Allen, Daniel Pach, Neil Blumberg, Rhonda Hobbs, Tammon Nash, Aarthi G Shenoy, Giselle S Mosnaim, Yuriko Fukuta, Bela Patel, Sonya L Heath, Adam C Levine, Barry R Meisenberg, Shweta Anjan, Moises A Huaman, Janis E Blair, Judith S Currier, James H Paxton, William Rausch, Kevin Oei, Matthew Abinante, Donald N Forthal, Martin S Zand, Seble G Kassaye, Edward R Cachay, Kelly A Gebo, Shmuel Shoham, Arturo Casadevall, Nichol A McBee, Daniel Amirault, Ying Wang, Erica Hopkins, David M Shade, Oliver Layendecker, Sabra L Klein, Han-Sol Park, John S Lee, Patrizio Caturegli, Jay S Raval, Daniel Cruser, Alyssa F Ziman, Jonathan Gerber, Thomas J Gniadek, Evan M Bloch, Aaron A R Tobian, Daniel F Hanley, David J Sullivan, Karen Lane

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引用次数: 0

Abstract

Introduction: In response to the COVID-19 pandemic, we rapidly implemented a plasma coordination center, within two months, to support transfusion for two outpatient randomized controlled trials. The center design was based on an investigational drug services model and a Food and Drug Administration-compliant database to manage blood product inventory and trial safety.

Methods: A core investigational team adapted a cloud-based platform to randomize patient assignments and track inventory distribution of control plasma and high-titer COVID-19 convalescent plasma of different blood groups from 29 donor collection centers directly to blood banks serving 26 transfusion sites.

Results: We performed 1,351 transfusions in 16 months. The transparency of the digital inventory at each site was critical to facilitate qualification, randomization, and overnight shipments of blood group-compatible plasma for transfusions into trial participants. While inventory challenges were heightened with COVID-19 convalescent plasma, the cloud-based system, and the flexible approach of the plasma coordination center staff across the blood bank network enabled decentralized procurement and distribution of investigational products to maintain inventory thresholds and overcome local supply chain restraints at the sites.

Conclusion: The rapid creation of a plasma coordination center for outpatient transfusions is infrequent in the academic setting. Distributing more than 3,100 plasma units to blood banks charged with managing investigational inventory across the U.S. in a decentralized manner posed operational and regulatory challenges while providing opportunities for the plasma coordination center to contribute to research of global importance. This program can serve as a template in subsequent public health emergencies.

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简介：为应对 COVID-19 大流行，我们在两个月内迅速建立了血浆协调中心，为两项门诊随机对照试验提供输血支持。该中心的设计基于研究药物服务模式和符合食品药品管理局要求的数据库，以管理血液制品库存和试验安全：方法：一个核心研究团队采用云平台对患者进行随机分配，并跟踪不同血型的对照血浆和高滴度 COVID-19 康复血浆的库存分配情况，这些血浆从 29 个捐献者采集中心直接运送到为 26 个输血点服务的血库：我们在 16 个月内完成了 1,351 例输血。每个输血点的数字库存透明度对于促进血型相容血浆的鉴定、随机化和隔夜运输至关重要，以便为试验参与者输血。虽然 COVID-19 康复血浆的库存挑战加剧，但基于云的系统以及血浆协调中心工作人员在整个血库网络中采取的灵活方法，使研究产品的分散采购和分配得以维持库存阈值，并克服了试验点当地供应链的限制：结论：为门诊输血而迅速建立血浆协调中心的做法在学术界并不多见。以分散的方式将 3100 多个血浆单位分配给负责管理全美研究用库存的血库，这给运营和监管带来了挑战，同时也为血浆协调中心提供了为全球重要研究做出贡献的机会。该计划可作为后续公共卫生突发事件的模板。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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