通过血小板指数、血栓弹性成像和流式细胞术评估血小板浓缩物。

IF 0.6 Q4 HEMATOLOGY Asian Journal of Transfusion Science Pub Date : 2024-07-01 Epub Date: 2023-05-11 DOI:10.4103/ajts.AJTS_124_21

Tapasyapreeti Mukhopadhyay, Arulselvi Subramanian, Venencia Albert, Anand Kumar, Tushar Sehgal, Sulekha Karjee, Harprasad Pati

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引用次数: 0

摘要

多年来，血小板输注一直被用于治疗血小板减少症和血小板功能缺陷患者。先进技术的使用可以增加血小板产品质量评估的价值。本研究的目的是评估血库中储存的血小板浓缩物（PCs）的血小板指数、凝块强度和血小板功能。材料和方法：除了常规的质量检查参数（血小板计数、体积、pH值、旋流和无菌性）外，通过血液分析仪对富血小板血浆法（PRP-PC）获得的24 h PCs进行各种血小板指标的前瞻性评估，并使用血栓弹性成像（TEG）对凝块强度进行前瞻性评估。用流式细胞术评估血小板功能（血小板活化和聚集），并与新鲜制备的PRP进行比较。结果：43个PRP-PCs的平均体积为69.1±5.1 mL， pH为6.8±0.3，血小板计数为738.8±312.9 × 103个细胞/μL。所有的都有漩涡。血小板分布宽度、平均血小板体积、血小板-大细胞比、血小板电积和未成熟血小板分数分别为9.4±2.7 fL、8.7±1.2 fL、16.9%±8.9%、0.6%±0.3%和4.4%±3.9%。r-time为15±0.3 min， k-time为2.1±0.4 min， alpha角为65.2°±2.3°，最大振幅为76.1±10.1 mm。60% （n = 21）和71.4% （n = 25）的产品出现血栓形成延迟和血栓强度增高，PRP- pc的血小板活化率显著低于PRP (0.4 [0.1% ~ 42%] vs. 10.5 [0.8% ~ 32.4%]；P = 0.002)。但PRP- pc的血小板聚集度显著高于PRP (62.0 [26.7% ~ 88.7%] vs. 33.4 [4.9% ~ 55.8%]；P = 0.003)。结论：血小板指数、TEG和流式细胞术分析为评价PCs的质量提供了有用的信息。然而，加工和储存对血小板活性的可变影响有待进一步探索。

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Evaluating platelet concentrates by platelet indices, thromboelastography, and flow cytometry.

Introduction: Platelet transfusion has been therapeutically used in patients with thrombocytopenia and platelet function defects over the years. The use of advanced techniques may add value in assessing the quality of platelet products. The aim of the study was to assess stored platelet concentrates (PCs) prepared in blood banks for platelet indices, clot strength, and platelet function.

Materials and methods: Apart from the routine quality check parameters (platelet count, volume, pH, swirling, and sterility), 24-h-old PCs derived by the platelet-rich plasma method (PRP-PC) were prospectively assessed for various platelet indices using hematology analyzer and clot strength using thromboelastography (TEG). Platelet function (platelet activation and aggregation) was assessed using flow cytometry and compared with freshly prepared PRP.

Results: A total of 43 PRP-PCs that were analyzed had a mean volume of 69.1 ± 5.1 mL, a pH of 6.8 ± 0.3, and a platelet count of 738.8 ± 312.9 × 10³ cells/μL. Swirling was present in all. The platelet distribution width, mean platelet volume, platelet-large cell ratio, plateletcrit, and immature platelet fraction were 9.4 ± 2.7 fL, 8.7 ± 1.2 fL, 16.9% ± 8.9%, 0.6% ± 0.3%, and 4.4% ± 3.9%, respectively. The r-time, k-time, alpha angle, and maximum amplitude were 15 ± 0.3 min, 2.1 ± 0.4 min, 65.2° ± 2.3°, and 76.1 ± 10.1 mm, respectively. Delayed clot initiation and higher clot strength were observed in in 60% (n = 21) and 71.4% (n = 25) of products, respectively Platelet activation of PRP-PC was significantly lower than PRP (0.4 [0.1%-42%] vs. 10.5 [0.8%-32.4%]; P = 0.002). However, platelet aggregation of PRP-PC was significantly higher than PRP (62.0 [26.7%-88.7%] vs. 33.4 [4.9%-55.8%]; P = 0.003).

Conclusion: Platelet indices, TEG, and flow cytometry analysis provides useful information to assess the quality of PCs. However, the variable effects of processing and storage on platelet activity need further exploration.

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