利用短波紫外线对血小板浓缩物进行病原体减少的新方法。

A novel approach to pathogen reduction in platelet concentrates using short-wave ultraviolet light.

机构信息

Blood Center of the German Red Cross Chapters of NSTOB, Institute Springe, Springe, Germany.

出版信息

Transfusion. 2009 Dec;49(12):2612-24. doi: 10.1111/j.1537-2995.2009.02334.x. Epub 2009 Aug 4.

DOI:10.1111/j.1537-2995.2009.02334.x

PMID:19682340

Abstract

BACKGROUND

Transfusion of platelet concentrates (PCs) is the basic treatment for severe platelet disorders. PCs carry the risk of pathogen transmission, especially bacteria. Pathogen reduction (PR) by addition of photochemical reagents and irradiation with visible or ultraviolet (UV) light can significantly reduce this risk. We present a novel approach for PR in PCs employing UVC light alone.

STUDY DESIGN AND METHODS

UVC PR was evaluated by bacteria and virus infectivity assays. PC quality was investigated by measuring pH, lactate, glucose, hypotonic shock response, platelet aggregation, CD62P expression, and annexin V binding as in vitro parameters. The impact of UVC PR on the platelet proteome was assessed by differential in-gel electrophoresis and compared with changes caused by UVB and gamma-irradiation, respectively.

RESULTS

Vigorous agitation of loosely placed PCs generated thin fluid layers that allow penetration of UVC light for inactivation of the six bacteria and six of the seven virus species tested. HIV-1 was only moderately inactivated. UVC light at the dose used (0.4 J/cm(2)) had a minor impact on in vitro parameters and on storage stability of treated PCs. Proteome analysis revealed a common set of 92 (out of 793) protein spots being affected by all three types of irradiation. Specific alterations were most pronounced for gamma-irradiation (45 spots), followed by UVB (11 spots) and UVC (2 spots).

CONCLUSION

UVC irradiation is a potential new method for pathogen reduction in PCs. The data obtained until now justify further development of this process.

摘要

背景

血小板浓缩物（PCs）的输注是治疗严重血小板疾病的基本方法。PCs 有传播病原体的风险，尤其是细菌。通过添加光化学试剂并利用可见光或紫外线（UV）照射进行病原体减少（PR）可以显著降低这种风险。我们提出了一种单独使用 UVC 光对 PCs 进行 PR 的新方法。

研究设计和方法

通过细菌和病毒感染性测定评估 UVC PR。通过测量 pH 值、乳酸盐、葡萄糖、低渗休克反应、血小板聚集、CD62P 表达和 annexin V 结合等体外参数来研究 PC 质量。通过差异凝胶电泳评估 UVC PR 对血小板蛋白质组的影响，并分别与 UVB 和γ辐照引起的变化进行比较。

结果

剧烈搅拌松散放置的 PCs 会产生薄的液体层，允许 UVC 光穿透以灭活测试的六种细菌和七种病毒中的六种。HIV-1 仅被中度灭活。使用的剂量（0.4 J/cm²）的 UVC 光对体外参数和处理后的 PCs 的储存稳定性仅有较小的影响。蛋白质组分析显示，三种类型的辐照都影响了 92 个（793 个中的 92 个）蛋白质斑点。γ辐照（45 个斑点）引起的特异性改变最为明显，其次是 UVB（11 个斑点）和 UVC（2 个斑点）。

结论

UVC 照射是一种用于 PCs 病原体减少的潜在新方法。迄今为止获得的数据证明了该过程的进一步发展是合理的。

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利用短波紫外线对血小板浓缩物进行病原体减少的新方法。

A novel approach to pathogen reduction in platelet concentrates using short-wave ultraviolet light.

机构信息

出版信息

BACKGROUND

STUDY DESIGN AND METHODS

RESULTS

CONCLUSION

背景

研究设计和方法

结果

结论

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