Bakkour S, Chafets D M, Wen L, van der Meer P F, Mundt J M, Marschner S, Goodrich R P, Busch M P, Lee T-H
Blood Systems Research Institute, San Francisco, CA, USA.
Vox Sang. 2014 Nov;107(4):351-9. doi: 10.1111/vox.12173. Epub 2014 Jun 27.
Transfusion is associated with a risk of infection and alloimmunization. Pathogen reduction using riboflavin and UV light (Mirasol treatment) inactivates pathogens and leucocytes. With increasing adoption of the technology in clinical use, regulatory agencies have recommended the introduction of quality control measures to monitor pathogen reduction efficacy. We sought to develop a real-time PCR-based assay to document the impact of pathogen reduction on the mitochondrial genome in blood components.
DNA was extracted from platelet and plasma components before and after treatment with riboflavin and UV light. Inhibition of PCR amplification of mitochondrial DNA (mtDNA) in short- and long-amplicon target regions, ranging from under 200 base pairs (bp) to over 1800 bp, was measured in treated relative to untreated components.
Pathogen reduction of platelets using riboflavin and UV light resulted in inhibition of PCR amplification of long-amplicon mtDNA targets, demonstrating approximately 1 log reduction of amplification relative to untreated products. Amplification of short-amplicon mtDNA targets was not affected by treatment. Evaluation of 110 blinded platelet samples from the PREPAReS clinical trial resulted in prediction of treatment status with 100% accuracy. Pathogen reduction of plasma components resulted in similar levels of PCR inhibition, while testing of 30 blinded plasma samples resulted in prediction of treatment status with 93% accuracy.
A differential sized amplicon real-time PCR assay of mitochondrial DNA effectively documents nucleic acid damage induced by Mirasol treatment of platelets. The use of the assay for plasma product pathogen reduction requires further investigation.
输血与感染及同种免疫风险相关。使用核黄素和紫外线进行病原体灭活(Mirasol处理)可使病原体和白细胞失活。随着该技术在临床应用中的日益普及,监管机构建议引入质量控制措施以监测病原体灭活效果。我们试图开发一种基于实时PCR的检测方法,以记录病原体灭活对血液成分中线粒体基因组的影响。
从经核黄素和紫外线处理前后的血小板和血浆成分中提取DNA。在处理后的成分与未处理的成分中,测量短扩增子和长扩增子靶区域(范围从小于200碱基对(bp)到超过1800 bp)中线粒体DNA(mtDNA)的PCR扩增抑制情况。
使用核黄素和紫外线对血小板进行病原体灭活导致长扩增子mtDNA靶标的PCR扩增受到抑制,相对于未处理的产品,扩增降低了约1个对数。短扩增子mtDNA靶标的扩增不受处理影响。对来自PREPAReS临床试验的110份盲法血小板样本进行评估,治疗状态预测准确率为100%。血浆成分的病原体灭活导致类似水平的PCR抑制,对30份盲法血浆样本进行检测,治疗状态预测准确率为93%。
一种针对线粒体DNA的不同大小扩增子实时PCR检测方法可有效记录Mirasol处理血小板所诱导的核酸损伤。该检测方法用于血浆制品病原体灭活的情况还需要进一步研究。
