Škereňová Markéta, Mikulová Veronika, Čapoun Otakar, Zima Tomáš
Institute of Medical Biochemistry and Laboratory Diagnostics, General University Hospital and First Faculty of Medicine, Charles University in Prague, Czech Republic.
Department of Urology, General University Hospital and First Faculty of Medicine, Charles University in Prague, Czech Republic.
Biochem Med (Zagreb). 2016;26(1):103-13. doi: 10.11613/BM.2016.011.
Nowadays, on-a-chip capillary electrophoresis is a routine method for the detection of PCR fragments. The Agilent 2100 Bioanalyzer was one of the first commercial devices in this field. Our project was designed to study the characteristics of Agilent DNA 1000 kit in PCR fragment analysis as a part of circulating tumour cell (CTC) detection technique. Despite the common use of this kit a complex analysis of the results from a long-term project is still missing.
A commercially available Agilent DNA 1000 kit was used as a final step in the CTC detection (AdnaTest) for the determination of the presence of PCR fragments generated by Multiplex PCR. Data from 30 prostate cancer patients obtained during two years of research were analyzed to determine the trueness and precision of the PCR fragment size determination. Additional experiments were performed to demonstrate the precision (repeatability, reproducibility) and robustness of PCR fragment concentration determination.
The trueness and precision of the size determination was below 3% and 2% respectively. The repeatability of the concentration determination was below 15%. The difference in concentration determination increases when Multiplex-PCR/storage step is added between the two measurements of one sample.
The characteristics established in our study are in concordance with the manufacturer's specifications established for a ladder as a sample. However, the concentration determination may vary depending on chip preparation, sample storage and concentration. The 15% variation of concentration determination repeatability was shown to be partly proportional and can be suppressed by proper normalization.
如今,芯片毛细管电泳是检测PCR片段的常规方法。安捷伦2100生物分析仪是该领域首批商用设备之一。我们的项目旨在研究安捷伦DNA 1000试剂盒在作为循环肿瘤细胞(CTC)检测技术一部分的PCR片段分析中的特性。尽管该试剂盒被广泛使用,但仍缺乏对长期项目结果的综合分析。
使用市售的安捷伦DNA 1000试剂盒作为CTC检测(AdnaTest)的最后一步,以确定多重PCR产生的PCR片段的存在情况。分析了两年研究期间从30名前列腺癌患者获得的数据,以确定PCR片段大小测定的准确性和精密度。进行了额外的实验以证明PCR片段浓度测定的精密度(重复性、再现性)和稳健性。
大小测定的准确性和精密度分别低于3%和2%。浓度测定的重复性低于15%。当在一个样品的两次测量之间添加多重PCR/储存步骤时,浓度测定的差异会增加。
我们研究中确定的特性与制造商为作为样品的阶梯所规定的规格一致。然而,浓度测定可能会因芯片制备、样品储存和浓度而有所不同。浓度测定重复性的15%变化显示部分成比例,并且可以通过适当的归一化来抑制。