使用阿莫沙林和紫外线A光对血浆和血小板进行光化学处理可使多种病毒和寄生虫失活。

Inactivation of a broad spectrum of viruses and parasites by photochemical treatment of plasma and platelets using amotosalen and ultraviolet A light.

作者信息

Lanteri Marion C, Santa-Maria Felicia, Laughhunn Andrew, Girard Yvette A, Picard-Maureau Marcus, Payrat Jean-Marc, Irsch Johannes, Stassinopoulos Adonis, Bringmann Peter

机构信息

Department of Scientific Affairs, Cerus Corporation, Concord, California, USA.

Department of Microbiology, Cerus Corporation, Concord, California, USA.

出版信息

Transfusion. 2020 Jun;60(6):1319-1331. doi: 10.1111/trf.15807. Epub 2020 Apr 24.

DOI:10.1111/trf.15807

PMID:32333396

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7317863/

Abstract

BACKGROUND

The INTERCEPT Blood System pathogen reduction technology (PRT), which uses amotosalen and ultraviolet A light treatment (amotosalen/UV-PRT), inactivates pathogens in plasma and platelet components (PCs). This review summarizes data describing the inactivation efficacy of amotosalen/UVA-PRT for a broad spectrum of viruses and parasites.

METHODS

Twenty-five enveloped viruses, six nonenveloped viruses (NEVs), and four parasites species were evaluated for sensitivity to amotosalen/UVA-PRT. Pathogens were spiked into plasma and PC at high titers. Samples were collected before and after PRT and assessed for infectivity with cell cultures or animal models. Log reduction factors (LRFs) were defined as the difference in infectious titers before and after amotosalen/UV-PRT.

RESULTS

LRFs of ≥4.0 log were reported for 19 pathogens in plasma (range, ≥4.0 to ≥7.6), 28 pathogens in PC in platelet additive solution (PC-PAS; ≥4.1-≥7.8), and 14 pathogens in PC in 100% plasma (PC-100%; (≥4.3->8.4). Twenty-five enveloped viruses and two NEVs were sensitive to amotosalen/UV-PRT; LRF ranged from >2.9 to ≥7.6 in plasma, 2.4 or greater to greater than 6.9 in PC-PAS and >3.5 to >6.5 in PC-100%. Infectious titers for four parasites were reduced by >4.0 log in all PC and plasma (≥4.9 to >8.4).

CONCLUSION

Amotosalen/UVA-PRT demonstrated effective infectious titer reduction for a broad spectrum of viruses and parasites. This confirms the capacity of this system to reduce the risk of viral and parasitic transfusion-transmitted infections by plasma and PCs in various geographies.

摘要

背景

INTERCEPT血液系统病原体灭活技术（PRT）采用氨甲环酸和紫外线A光处理（氨甲环酸/紫外线PRT），可使血浆和血小板成分（PC）中的病原体失活。本综述总结了描述氨甲环酸/紫外线A-PRT对多种病毒和寄生虫灭活效果的数据。

方法

评估了25种包膜病毒、6种非包膜病毒（NEV）和4种寄生虫对氨甲环酸/紫外线A-PRT的敏感性。将病原体以高滴度加入血浆和PC中。在PRT前后采集样本，并通过细胞培养或动物模型评估其感染性。对数减少因子（LRF）定义为氨甲环酸/紫外线PRT前后感染滴度的差异。

结果

血浆中19种病原体的LRF≥4.0 log（范围为≥4.0至≥7.6），血小板添加剂溶液中的PC（PC-PAS）中28种病原体的LRF≥4.1至≥7.8，100%血浆中的PC（PC-100%）中14种病原体的LRF≥4.3至>8.4。25种包膜病毒和2种NEV对氨甲环酸/紫外线A-PRT敏感；血浆中的LRF范围为>2.9至≥7.6，PC-PAS中为2.4或更高至大于6.9，PC-100%中为>3.5至>6.5。所有PC和血浆中四种寄生虫的感染滴度降低>4.0 log（≥4.9至>8.4）。

结论

氨甲环酸/紫外线A-PRT对多种病毒和寄生虫有效降低感染滴度。这证实了该系统在不同地区降低血浆和PC经输血传播病毒和寄生虫感染风险的能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/31d1/7317863/5209b45aaf24/TRF-60-1319-g001.jpg

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使用阿莫沙林和紫外线A光对血浆和血小板进行光化学处理可使多种病毒和寄生虫失活。

Inactivation of a broad spectrum of viruses and parasites by photochemical treatment of plasma and platelets using amotosalen and ultraviolet A light.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

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方法

结果

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