Small volume platelet concentrates for neonatal use are more susceptible to shear-induced storage lesion.

IF 2.5 3区 医学 Q3 CELL BIOLOGY
Platelets Pub Date : 2024-12-01 Epub Date: 2024-08-22 DOI:10.1080/09537104.2024.2389967
Dean Pym, Amanda J Davies, Jessica O Williams, Christine Saunders, Chloë E George, Philip E James
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引用次数: 0

Abstract

The impact of the biophysical environment on the platelet storage lesion (PSL) has mainly focused on reduced temperature storage, overlooking the significance of storage-induced shear stress. Shear stress in platelet storage refers to the frictional force acting parallel to the bag surface and exists solely through the implementation of agitation. This study investigates whether minimizing exposure to agitation-induced shear stress can alleviate the unexplained loss of function in stored platelet concentrates for neonatal transfusion (neonatal PCs). Using particle tracking analysis, fluid motion was measured in neonatal and adult platelet storage bags under agitation frequencies ranging from 20-60 rpm. Platelets stored at 20-60 rpm agitation over 8 days were examined by biochemical analysis, aggregation, and expression of activation markers. Results indicate that neonatal PCs experience significantly higher storage-induced shear stress compared to adult doses, leading to reduced functionality and increased activation from day 2 of storage. Adjusting the neonatal PC agitation frequency to 20 rpm improved functionality in early storage, while 40 rpm maintains this improvement throughout storage with reduced activation, compared to 60 rpm storage. This study confirms that small volume PC storage for neonatal use contributes to the PSL through the induction of shear stress, suggesting further evaluation of the recommended agitation frequency for neonatal PCs or postponement of the production of neonatal PCs until requested for neonatal transfusion.

用于新生儿的小容量血小板浓缩物更容易受到剪切力引起的储存病变的影响。
生物物理环境对血小板储存病变(PSL)的影响主要集中在低温储存上,忽略了储存引起的剪切应力的重要性。血小板储存中的剪切应力是指平行于袋子表面的摩擦力,仅通过搅拌而存在。本研究探讨了尽量减少搅拌引起的剪切应力是否能减轻新生儿输注用浓缩血小板(新生儿 PC)储存过程中出现的无法解释的功能丧失。利用粒子追踪分析法,测量了新生儿和成人血小板储存袋在 20-60 转/分的搅拌频率下的液体运动。通过生化分析、聚集和活化标记物的表达,对在 20-60 rpm 搅拌下储存 8 天的血小板进行了检测。结果表明,与成人剂量相比,新生儿 PC 所承受的储存诱导剪切应力明显更高,导致其功能降低,并从储存的第 2 天起活化增加。将新生 PC 的搅拌频率调整到 20 转/分钟可改善储存早期的功能,而 40 转/分钟则可在整个储存过程中保持这种改善,同时与 60 转/分钟的储存相比,活化程度降低。这项研究证实,用于新生儿的小容量 PC 存储会通过诱导剪切应力而导致 PSL,因此建议进一步评估推荐的新生儿 PC 搅拌频率,或推迟新生儿 PC 的生产,直到需要用于新生儿输血时再进行。
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
Platelets
Platelets 医学-细胞生物学
CiteScore
6.70
自引率
3.00%
发文量
79
审稿时长
1 months
期刊介绍: Platelets is an international, peer-reviewed journal covering all aspects of platelet- and megakaryocyte-related research. Platelets provides the opportunity for contributors and readers across scientific disciplines to engage with new information about blood platelets. The journal’s Methods section aims to improve standardization between laboratories and to help researchers replicate difficult methods. Research areas include: Platelet function Biochemistry Signal transduction Pharmacology and therapeutics Interaction with other cells in the blood vessel wall The contribution of platelets and platelet-derived products to health and disease The journal publishes original articles, fast-track articles, review articles, systematic reviews, methods papers, short communications, case reports, opinion articles, commentaries, gene of the issue, and letters to the editor. Platelets operates a single-blind peer review policy. Authors can choose to publish gold open access in this journal.
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