一种新型采血装置可在样本运输和储存过程中稳定血液中的游离RNA。

A novel blood collection device stabilizes cell-free RNA in blood during sample shipping and storage.

作者信息

Qin Jianbing, Williams Thomas L, Fernando M Rohan

机构信息

Research & Development Division, Streck, Inc,, 7002 S 109 Street, La Vista, NE 68128, USA.

出版信息

BMC Res Notes. 2013 Sep 26;6:380. doi: 10.1186/1756-0500-6-380.

DOI:10.1186/1756-0500-6-380

PMID:24066835

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3848903/

Abstract

BACKGROUND

Cell-free RNA (cfRNA) naturally occurs in blood and has clinical significance. Accurate quantification of these extracellular RNAs in whole blood is hindered by the simultaneous unintended release of cellular RNA and degradation of cfRNA after blood draw. An appropriate blood collection device is needed to stabilize cfRNA during blood processing, transportation and storage, which will ensure cfRNA test reliability. In this study we compared a novel blood collection device against traditional K3EDTA tubes for its ability to stabilize cfRNA in blood when subjected to conditions that can occur during sample storage and shipping.

FINDINGS

Shipping blood samples drawn into K3EDTA tubes showed a significant increase in mRNA copy numbers for β-actin, c-fos, and 18S rRNA in plasma. In contrast, shipping blood drawn into Cell-Free RNA BCT™s (BCTs) showed only a slight change in mRNA copy numbers for circulating β-actin, c-fos, and 18S rRNA. Moreover, blood stored in K3EDTA tubes at 6°C, 22°C and 30°C for 3 days showed a significant increase in mRNA copy numbers for c-fos and β-actin, whereas samples stored in BCTs only showed a slight increase.

CONCLUSION

Our results show that BCTs minimize increases in background RNA levels caused by temperature fluctuations or agitation that can occur during blood sample storage and shipping. This novel blood collection tube could provide a method for obtaining high quality stabilized cfRNA samples for rare RNA target detection and determining accurate cfRNA concentrations.

摘要

背景

无细胞RNA（cfRNA）天然存在于血液中并具有临床意义。全血中这些细胞外RNA的准确定量受到细胞RNA同时意外释放以及采血后cfRNA降解的阻碍。需要一种合适的血液采集装置，以便在血液处理、运输和储存过程中稳定cfRNA，这将确保cfRNA检测的可靠性。在本研究中，我们比较了一种新型血液采集装置与传统K3EDTA管在样品储存和运输过程中可能出现的条件下稳定血液中cfRNA的能力。

研究结果

运输采集到K3EDTA管中的血液样本时，血浆中β-肌动蛋白、c-fos和18S rRNA的mRNA拷贝数显著增加。相比之下，运输采集到无细胞RNA BCT™（BCT）中的血液时，循环β-肌动蛋白、c-fos和18S rRNA的mRNA拷贝数仅略有变化。此外，在6°C、22°C和30°C下储存3天的K3EDTA管中的血液样本，c-fos和β-肌动蛋白的mRNA拷贝数显著增加，而储存在BCT中的样本仅略有增加。

结论

我们的结果表明，BCT可将血液样本储存和运输过程中因温度波动或搅动引起的背景RNA水平升高降至最低。这种新型血液采集管可为获取用于稀有RNA靶点检测和确定准确cfRNA浓度的高质量稳定cfRNA样本提供一种方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2ca0/3848903/769174379501/1756-0500-6-380-1.jpg

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一种新型采血装置可在样本运输和储存过程中稳定血液中的游离RNA。

A novel blood collection device stabilizes cell-free RNA in blood during sample shipping and storage.

作者信息

机构信息

出版信息

BACKGROUND

FINDINGS

CONCLUSION

背景

研究结果

结论

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