- Record: found
- Abstract: found
- Article: not found
Towards standardisation of cell-free DNA measurement in plasma: controls for extraction efficiency, fragment size bias and quantification
Read this article at
Abstract
Circulating cell-free DNA (cfDNA) is becoming an important clinical analyte for prenatal testing, cancer diagnosis and cancer monitoring. The extraction stage is critical in ensuring clinical sensitivity of analytical methods measuring minority nucleic acid fractions, such as foetal-derived sequences in predominantly maternal cfDNA. Consequently, quality controls are required for measurement of extraction efficiency, fragment size bias and yield for validation of cfDNA methods. We evaluated the utility of an external DNA spike for monitoring these parameters in a study comparing three specific cfDNA extraction methods [QIAamp® circulating nucleic acid (CNA) kit, NucleoSpin® Plasma XS (NS) kit and FitAmp™ plasma/serum DNA isolation (FA) kit] with the commonly used QIAamp DNA blood mini (DBM) kit. We found that the extraction efficiencies of the kits ranked in the order CNA kit > DBM kit > NS kit > FA kit, and the CNA and NS kits gave a better representation of smaller DNA fragments in the extract than the DBM kit. We investigated means of improved reporting of cfDNA yield by comparing quantitative PCR measurements of seven different reference gene assays in plasma samples and validating these with digital PCR. We noted that the cfDNA quantities based on measurement of some target genes (e.g. TERT) were, on average, more than twofold higher than those of other assays (e.g. ERV3). We conclude that analysis and averaging of multiple reference genes using a GeNorm approach gives a more reliable estimate of total cfDNA quantity.
Related collections
Most cited references40
- Record: found
- Abstract: not found
- Book: not found
R: a language and environment for statistical computing
- Record: found
- Abstract: found
- Article: not found
Circulating nucleic acids (CNAs) and cancer--a survey.
- Record: found
- Abstract: found
- Article: not found
A highly conserved repetitive DNA sequence, (TTAGGG)n, present at the telomeres of human chromosomes.
Author and article information
Contributors
is a senior researcher at LGC Ltd, UK, specialising in nucleic acid measurements and their application in clinical diagnostics and cell-based assays. Her current research interests include single-cell analysis, standardisation of molecular methods for infectious diseases and messenger RNA biomarkers.
is a researcher in the Molecular and Cell Biology Team at LGC Ltd, UK, with a focus on nucleic acid metrology. Her areas of expertise are trace detection of nucleic acids from complex sources, such as cell-free DNA from blood plasma, using digital PCR technologies. Recent research has also included the use of digital PCR for investigation of measurement bias in low copy number samples.
is a researcher in the Molecular and Cell Biology Team at LGC Ltd, UK. He has over 10 years’ experience in genomics research, including 8 years as a commercial R&D scientist, with a particular focus on PCR and quantitative PCR reagent development. His current research interests include nucleic acid metrology, molecular diagnostics and next-generation sequencing.
joined LGC Ltd, UK, as a physicist, but retrained in bioinformatics and now leads the company’s Statistics Team. He is involved in a wide range of measurement research activity, but is particularly interested in the analysis of digital PCR and quantitative PCR data, as well as the statistical interpretation of forensic DNA evidence.
is the principal scientist for molecular biology at LGC Ltd, UK, providing scientific strategy and lead on nucleic acid measurement. Her projects focus on improving the overall quality of nucleic acid measurements and measurement platforms and include developing approaches to minimise the impact of sources of variability on genomic measurements and improving confidence through the development of appropriate standards, quality metrics, evaluation protocols and best practice guidelines.
trained as a geneticist and worked as a senior research fellow at University College London studying infectious disease diagnosis. For the past 4 years he has led the nucleic acid metrology research in LGC’s Molecular and Cell Biology Team, where he investigates the measurement challenges associated with established and novel technologies for molecular measurement and diagnostics.
Journal
Affiliations
Article
7835Open Access This article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited.