血小板
全血
单采
二磷酸腺苷
麻醉
医学
热身
化学
药理学
内科学
血小板聚集
生理学
作者
Diana J. Valencia Morales,Allan M. Klompas,Jenna M. Torbenson,Robyn E. Finney,Dong Chen,James R. Stubbs,Gregory A. Nuttall
出处
期刊:Transfusion
[Wiley]
日期:2023-12-19
卷期号:64 (1): 47-52
被引量:6
摘要
Abstract Background Recently the US Food and Drug Administration has granted variances to select blood centers to supply cold‐stored platelet components (CSP). In hemorrhage resuscitation warming of blood components with approved fluid warming devices is common. Study Design and Methods Pathogen‐reduced apheresis platelet units were collected and stored in one of two ways: (1) CSP‐I, (2) CSP‐D. CSP‐I were collected and immediately stored at 1–6°C until used. CSP‐D were collected and stored at 20–24°C for 5 days and transferred to storage at 1–6°C until use. Aggregometry using arachidonic acid (AA), adenosine diphosphate (ADP) and collagen as agonists was performed on the unit samples before and after the units were infused through a Ranger blood‐warming device. Results CSP‐I, 23 units, had very high aggregation responses to all agonists (all ≥47.6 ± 20.7). There was a statistically significant reduction in ADP‐induced aggregometry results from 55.1 ± 23.2 before compared to 33.5 ± 14.6 following infusion of the PLT through the blood warmer ( p < .001). There were no differences in AA and collagen aggregometry results before and after the infusion of the platelets through the blood warmer. CSP‐D had 5 of the 15 units with visible clotting in the bag. The 10 CSP‐Ds studied had lower aggregation than all agonists before and after infusion through the blood‐warming device (all ≤49.9 ± 35.9). Conclusion We detected a statistically significant reduction in ADP‐induced aggregometry in CSP‐I run through a Ranger blood‐warming device with no change with AA or collagen agonist aggregometry.
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