Possible alternative strategies to implement basophil activation testing in multicentric studies

IF 2.3 3区医学 Q3 MEDICAL LABORATORY TECHNOLOGY

Cytometry Part B: Clinical Cytometry Pub Date : 2024-04-04 DOI:10.1002/cyto.b.22172

Pénélope Bourgoin, Thomas Dupont, Chantal Agabriel, Ania Carsin, Aurélie Verles, Maciej Cabanski, Alessandra Vitaliti, Jean‐Marc Busnel

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Abstract

The Basophil Activation Test (BAT) enables flow cytometry characterization of basophil reactivity against specific allergenic molecules. The focus now revolves around democratizing this tool, but, as blood sample stability could be challenging, after having developed a simplified approach, herein, we aimed to characterize two strategies for implementing BAT in multicentric studies: store and ship blood before or after sample processing. Fresh heparin‐ and EDTA‐anticoagulated whole blood samples followed both BAT workflows: “collect, store, process & analyze” or “collect, process, store & analyze”. Storage temperatures of 18–25 °C or 2–8 °C and preservation times from 0 to 7 days were considered. Interleukin‐3 was also evaluated. With the “collect, store, process & analyze” workflow, heparin‐anticoagulated blood and 18–25 °C storage were better than other conditions. While remaining possible, basophil activation exhibited a possible reactivity decay after 24 h. Under the conditions tested, interleukin‐3 had no role in enhancing basophil reactivity after storage. Conversely, the “collect, process, store & analyze” workflow demonstrated that either heparin‐ or EDTA‐anticoagulated blood can be processed and kept up to 7 days at 18–25 °C or 2–8 °C before being analyzed. Various strategies can be implemented to integrate BAT in multicentric studies. The “collect, store, process & analyze” workflow remains a simplified logistical approach, but depending on time required to ship from the clinical centers to the reference laboratories, it might not be applicable, or should be used with caution. The “collect, process, store & analyze” workflow may constitute a workflow improvement to provide significant flexibility without impact on basophil reactivity.

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在多中心研究中实施嗜碱性粒细胞活化检测的可能替代策略

嗜碱性粒细胞活化测试（BAT）可通过流式细胞术鉴定嗜碱性粒细胞对特定过敏原分子的反应性。目前的重点是使这一工具平民化，但由于血液样本的稳定性可能具有挑战性，在开发出简化方法后，我们在本文中旨在描述在多中心研究中实施嗜碱性粒细胞活化测试的两种策略：在样本处理之前或之后储存和运输血液。新鲜肝素和 EDTA 抗凝全血样本均遵循两种 BAT 工作流程："采集、储存、处理和分析 "或 "采集、处理、储存和分析"。储存温度为 18-25 °C 或 2-8 °C，保存时间为 0-7 天。还对白细胞介素-3 进行了评估。在 "收集、储存、处理和分析 "的工作流程中，肝素抗凝血液和 18-25 ° C 的储存条件优于其他条件。在所测试的条件下，白细胞介素-3 在储存后不会增强嗜碱性粒细胞的反应性。相反，"收集、处理、储存& 分析 "的工作流程表明，肝素或 EDTA 抗凝血都可以处理，并在分析前在 18-25 °C 或 2-8 °C 下保存长达 7 天。在多中心研究中，可以采用多种策略整合 BAT。收集、储存、处理和分析 "工作流程仍然是一种简化的后勤方法，但根据从临床中心运送到参考实验室所需的时间，这种方法可能并不适用，或应谨慎使用。收集、处理、储存和分析 "工作流程可能是对工作流程的一种改进，可在不影响嗜碱性粒细胞反应性的情况下提供极大的灵活性。

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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来源期刊

Cytometry Part B: Clinical Cytometry 医学-病理学

CiteScore

6.80

自引率

32.40%

发文量

审稿时长

>12 weeks

期刊介绍： Cytometry Part B: Clinical Cytometry features original research reports, in-depth reviews and special issues that directly relate to and palpably impact clinical flow, mass and image-based cytometry. These may include clinical and translational investigations important in the diagnostic, prognostic and therapeutic management of patients. Thus, we welcome research papers from various disciplines related [but not limited to] hematopathologists, hematologists, immunologists and cell biologists with clinically relevant and innovative studies investigating individual-cell analytics and/or separations. In addition to the types of papers indicated above, we also welcome Letters to the Editor, describing case reports or important medical or technical topics relevant to our readership without the length and depth of a full original report.