Validation of pathogen reduced plasmas from maxi-pools combined with fast thawing.

IF 1.5 4区医学 Q3 HEMATOLOGY

Transfusion Medicine Pub Date : 2024-11-05 DOI:10.1111/tme.13106

Marja-Kaisa Auvinen, Folke Knutson, Helena Löf

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引用次数: 0

Abstract

Objectives: Fast thawing for emergency situations and reduction of plasma wastage.

Background: Evaluation of plasma units, pooled and pathogen reduced (PR) in "maxi-pools" with amotosalen and UVA light, and fast thawing.

Methods/materials: Per replicate, 10 WB-derived leukocyte depleted plasma units were frozen within 24 h at ≤ -25°C and stored for 7 days. After thawing, a maxi-pool was constituted from the 10 units. After splitting into 4 sub-pools of 650 mL, the sub-pools were PR treated then split into 3 units resulting in 12 PR plasma units at 200 mL. Hundred and twenty PR plasma units were produced in total. The units were frozen at ≤ -25°C for 1 week, then thawed either in a fast plasma thawer for 5 min or in other control devices (17 to 23 min).

Fviii: C, Fibrinogen, albumin, IgG, protein S and VWF were measured in plasma units, maxi-pools and plasmas after PR treatment and thawing.

Results: There was a statistically significant (p < 0.001) but still clinically acceptable (over the recommended levels of ≥0.5 IU/mL and ≥2 g/L) reduction of FVIII:C and Fibrinogen after PR with 69% and 87% recovery, respectively. Other proteins were not significantly affected by the processes.

Conclusion: Pooling 10 plasma units before the PR treatment standardises volume and protein content of plasma units. Besides the economic value of generating 12 products for transfusion, this procedure combined with a thawing time of about 5 min is of value in emergency situations and may reduce plasma wastage.

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验证最大池与快速解冻相结合减少病原体的等离子体。

目标在紧急情况下快速解冻血浆并减少血浆损耗：方法/材料：每重复 10 个 WB 衍生的白细胞耗竭血浆单位在 24 小时内冷冻于 ≤ -25°C 并储存 7 天。解冻后，由 10 个单位组成一个最大池。分成 4 个 650 mL 的子库后，对子库进行 PR 处理，然后分成 3 个单位，得到 12 个 200 mL 的 PR 血浆单位。共产生 120 个 PR 血浆单位。这些单位在 ≤ -25°C 的温度下冷冻 1 周，然后在快速血浆解冻器中解冻 5 分钟或在其他控制设备中解冻（17 至 23 分钟）：C、纤维蛋白原、白蛋白、IgG、蛋白 S 和 VWF 在 PR 处理和解冻后的血浆单位、最大池和血浆中进行测量：结果：血浆单位、最大血浆池和解冻后血浆中的纤维蛋白原、白蛋白、IgG、蛋白 S 和 VWF 在统计学上有显著差异（P在 PR 处理前将 10 个血浆单位汇集在一起可使血浆单位的体积和蛋白质含量标准化。除了产生 12 个输血产品的经济价值外，该程序结合约 5 分钟的解冻时间在紧急情况下也很有价值，可减少血浆浪费。

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

Transfusion Medicine 医学-血液学

CiteScore

2.70

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Transfusion Medicine publishes articles on transfusion medicine in its widest context, including blood transfusion practice (blood procurement, pharmaceutical, clinical, scientific, computing and documentary aspects), immunohaematology, immunogenetics, histocompatibility, medico-legal applications, and related molecular biology and biotechnology. In addition to original articles, which may include brief communications and case reports, the journal contains a regular educational section (based on invited reviews and state-of-the-art reports), technical section (including quality assurance and current practice guidelines), leading articles, letters to the editor, occasional historical articles and signed book reviews. Some lectures from Society meetings that are likely to be of general interest to readers of the Journal may be published at the discretion of the Editor and subject to the availability of space in the Journal.