Shea Susan M, Spinella Philip C, Thomas Kimberly A
Department of Pediatrics, Division of Critical Care, Washington University School of Medicine, St. Louis, Missouri, USA.
Department of Surgery, University of Pittsburgh, Pittsburgh, Pennsylvania, USA.
Transfusion. 2022 Sep;62(9):1850-1859. doi: 10.1111/trf.17005. Epub 2022 Jul 27.
Cold storage of platelets (CS-PLT), results in better maintained hemostatic function compared to room-temperature stored platelets (RT-PLT), leading to increased interest and use of CS-PLT for actively bleeding patients. However, questions remain on best storage practices for CS-PLT, as agitation of CS-PLT is optional per the United States Food and Drug Administration. CS-PLT storage and handling protocols needed to be determined prior to upcoming clinical trials, and blood banking standard operating procedures need to be updated accordingly for the release of units due to potentially modified aggregate morphology without agitation.
We visually assessed aggregate formation, then measured surface receptor expression (GPVI, CD42b (GPIbα), CD49 (GPIa/ITGA2), CD41/61 (ITGA2B/ITGB3; GPIIB/GPIIIA; PACI), CD62P, CD63, HLAI), thrombin generation, aggregation (collagen, adenosine diphosphate [ADP], and epinephrine activation), and viscoelastic function (ExTEM, FibTEM) in CS-PLT (Trima collection, 100% plasma) stored for 21 days either with or without agitation (Phase 1, n = 10 donor-paired units) and then without agitation with or without daily manual mixing to minimize aggregate formation and reduce potential effects of sedimentation (Phase 2, n = 10 donor-paired units).
Agitation resulted in macroaggregate formation, whereas no agitation caused film-like sediment. We found no substantial differences in CS-PLT function between storage conditions, as surface receptor expression, thrombin generation, aggregation, and clot formation were relatively similar between intra-Phase storage conditions.
Storage duration and not condition impacted phenotype and function. CS-PLT can be stored with or without agitation, and with or without daily mixing and standard metrics of hemostatic function will not be significantly altered.
与室温储存的血小板(RT-PLT)相比,血小板的冷藏储存(CS-PLT)能更好地维持止血功能,这使得CS-PLT在活动性出血患者中的应用更受关注且使用增多。然而,关于CS-PLT的最佳储存方法仍存在疑问,因为根据美国食品药品监督管理局的规定,CS-PLT的搅拌是可选的。在即将开展的临床试验之前,需要确定CS-PLT的储存和处理方案,并且由于在不搅拌的情况下可能会改变聚集体形态,血库的标准操作程序需要相应更新以用于血小板单位的发放。
我们通过肉眼评估聚集体形成情况,然后测量表面受体表达(糖蛋白VI(GPVI)、CD42b(糖蛋白Ibα(GPIbα))、CD49(糖蛋白Ia/整合素α2(GPIa/ITGA2))、CD41/61(整合素α2β3(ITGA2B/ITGB3);糖蛋白IIb/糖蛋白IIa(GPIIB/GPIIIA);血小板纤维蛋白原受体(PACI))、CD62P、CD63、人类白细胞抗原I(HLAI))、凝血酶生成、聚集(胶原、二磷酸腺苷(ADP)和肾上腺素激活)以及黏弹性功能(外部血栓弹力图(ExTEM)、纤维蛋白血栓弹力图(FibTEM)),这些指标来自于通过Trima采集的CS-PLT(100%血浆),其在有或无搅拌的情况下储存21天(第1阶段,n = 10对供体配对单位),然后在无搅拌的情况下,有或无每日手动混合以尽量减少聚集体形成并降低沉降的潜在影响(第2阶段,n = 10对供体配对单位)。
搅拌导致形成大聚集体,而不搅拌则导致形成膜状沉淀。我们发现在储存条件之间,CS-PLT功能没有实质性差异,因为在阶段内储存条件下,表面受体表达、凝血酶生成、聚集和凝块形成相对相似。
储存持续时间而非储存条件影响表型和功能。CS-PLT可以在有或无搅拌的情况下储存,并且有或无每日混合,止血功能的标准指标不会有显著改变。
